Кафед WATER AND В И Учеб МИНИСТЕ РЕСПУ БЕЛОРУСС ТЕХНИЧЕ ра «Английски Н. А. Зозо А. Н. Пуч -SUPPLY EN SEWAGE D ОДОСНАБЖ ВОДООТВЕ но-методичес Минск БНТУ 2014 РСТВО ОБРАЗ БЛИКИ БЕЛА КИЙ НАЦИОН СКИЙ УНИВЕ й язык № 2» н ко GINEERING ISPOSAL ЕНИЕ ДЕНИЕ кое пособие ОВАНИЯ РУСЬ АЛЬНЫЙ РСИТЕТ  МИНИСТЕРСТВО ОБРАЗОВАНИЯ РЕСПУБЛИКИ БЕЛАРУСЬ Белорусский национальный технический университет Кафедра «Английский язык № 2» Н. А. Зозон А. Н. Пучко WATER-SUPPLY ENGINEERING AND SEWAGE DISPOSAL ВОДОСНАБЖЕНИЕ И ВОДООТВЕДЕНИЕ Учебно-методическое пособие для студентов заочной формы обучения специальности 1-70 04 03 «Водоснабжение, водоотведение и охрана водных ресурсов» Рекомендовано учебно-методическим объединением высших учебных заведений Республики Беларусь по образованию в области строительства и архитектуры Минск БНТУ 2014 УДК 811.111:628.1(075.4) ББК 38.761.1я7 З-79 Рецензенты : доцент кафедры иностранных языков № 1 БГУИР, кандидат филологических наук С. И. Лягушевич; зав. кафедрой иностранных языков № 1 БГАТУ, кандидат филологических наук, доцент Л. И. Копань Зозон, H. A. Water-Supply Engineering and Sewage Disposal = Водоснабжение и водоотведение : учебно-методическое пособие для студентов за- очной формы обучения специальности 1-70 04 03 «Водоснабжение, водоотведение и охрана водных ресурсов» / Н. А. Зозон, А. Н. Пуч- ко. – Минск : БНТУ, 2014. – 110 с. ISBN 978-985-550-297-6. Учебно-методическое пособие соответствует типовой программе по иностран- ным языкам для неязыковых вузов. Целью пособия является совершенствование зна- ний и умений студентов, расширение словарного запаса, формирование навыков по- нимания, перевода и реферирования текстов по специальности. Пособие состоит из четырех разделов. Материалом для пособия послужили ори- гинальные, профессионально ориентированные тексты. Издание предназначено для студентов-заочников, обучающихся по специально- сти «Водоснабжение, водоотведение и охрана водных ресурсов», а также для же- лающих самостоятельно повысить уровень владения английским языком в области водоснабжения и канализации. УДК 811.111:628.1(075.4) ББК 38.761.1я7 ISBN 978-985-550-297-6 © Зозон Н. А., Пучко А. Н., 2014 © Белорусский национальный технический университет, 2014 З-79 3    CONTENTS Предисловие ……………………………………………….........… Unit 1. Water on the Earth. Introduction to Water-Supply Engineering ...................................................................................... Text A. Water. General Information ………………………….....… Text B. Water-Supply Engineering and Sewage Disposal ……........ Text C. Municipal Water Consumption and Its Types …………...... Text D. Natural Water Sources and Their Use for Water Supply Purposes ………………………………………………………......... Unit 2. Water Supply Systems ........................................................ Text A. Water Supply Systems ……………......…………………… Text B. The Scheme of Water Supply …………......……………..... Text C. The Main Components and Facilities of a Water Supply System ………………………………………….......……………… Text D. Domestic, Public and Industrial Water Supply ….....……... Unit 3. Conventional Water Treatment ......................................... Text A. Water Quality. Water Pollution and Water Treatment ......... Text B. Conventional Water Treatment. Pretreatment. Coagulation and Flocculation. …………………………………………............... Text C. Conventional Water Treatment. Sedimentation and Flotation. Filtration …………………………………………..... Text D. Conventional Water Treatment. Disinfection. Additional Treatment …………………………………………………..........…. Unit 4. Sewage (Wastewater) Treatment and Sludge Disposal ... Text A. Sewage. Types of Sewage ……………………………........ Text B. Sewage Treatment Process ……………………………....... Text C. Sewage Treatment Process (continuation) ……………....... Text D. Sludge Treatment and Disposal ………………………........ Topical Vocabulary ……………………………………………..... References ………………………................……………………..... 4 5 8 19 22 24 27 30 40 43 45 48 51 64 67 69 73 75 84 87 88 93 109 4 ПРЕДИСЛОВИЕ Учебно-методическое пособие имеет профессиональную направ- ленность и предназначено для проведения практических занятий по английскому языку со студентами заочной формы обучения специ- альности 1-70 04 03 “Водоснабжение, водоотведение и охрана вод- ных ресурсов”. Цель пособия — совершенствование и систематиза- ция знаний и умений студентов, расширение их словарного запаса в пределах профессионально-ориентированной лексики, формирова- ние навыков понимания, перевода и реферирования текстов по спе- циальности. Учебно-методическое пособие состоит из 4-х самостоятельных разделов. Разделы построены по единому принципу. Основной структурной единицей является тематически завершённый блок (Unit). Каждый блок соответствует определённому этапу обучения (Unit 1 – первый семестр, Unit 2 – второй семестр, Unit 3 – третий семестр, Unit 4 – четвёртый семестр). Каждый раздел пособия включает профессионально ориентиро- ванные тексты для обучения различным видам чтения: изучающего, ознакомительного, просмотрового и поискового. В каждом разделе наряду с текстами предлагаются упражнения на понимание текстов, а также разнообразные речевые и языковые упражнения. Исполь- зуются задания на понимание смысла через толкование соответ- ствующих терминов, упражнения на перевод. Речевые упражнения позволяют проверить общее понимание прочитанного, закрепить приобретённые лексические навыки. Система упражнений способ- ствует усвоению профессиональной лексики. Пособие также вклю- чает иллюстративный материал, что позволяет более точно и полно понять материал по специальности. Проверка изученного грамматического и лексического материа- ла осуществляется преподавателем на практических занятиях. По- собие включает тематический словарь. 5 Unit 1 Water on the Earth. Introduction to Water-Supply Engineering “Water is the driver of Nature.” Leonardo da Vinci (1452-1519) 1. Read the following international words and guess their meaning. Mind the stressed syllables. Prove that these words are international ones. Model: substance ['sʌbst(ə)ns] – субстанция; вещество, материал aquatic [ə'kwætɪk] atmosphere ['ætməsfɪə] bacterium [bæk'tɪərɪəm] (pl. bac- teria [bæk'tɪərɪə]) base [beɪs] biological [ˌbaɪə'lɒdʒɪk(ə)l] central ['sentr(ə)l] chance [tʃɑːns] characteristic [ˌkærəktə'rɪstɪk] chemical ['kemɪk(ə)l] civilization [ˌsɪv(ə)laɪ'zeɪʃ(ə)n] class [klɑːs] colour ['kʌlə] human ['hjuːmən] hydrologic [ˌhaıdrəˈlɒdʒık] medium ['miːdjəm] (pl. media ['miːdɪə]) metal ['metl] microscopic [ˌmaɪkrə'skɒpɪk] molecule ['mɒlɪˌkjuːl] myriad ['mɪrɪəd] normal ['nɔːm(ə)l] ocean ['əuʃ(ə)n] organism ['ɔːg(ə)nɪz(ə)m] philosophical [ˌfɪlə'sɒfɪk(ə)l] phytoplankton [ˌfaɪtəʊˈplæŋktən] VOCABULARY WORK 6 complex ['kɒmpleks] component [kəm'pəunənt] condense [kən'dens] corrosive [kə'rəʊsɪv] cycle ['saɪk(ə)l] determine [dɪ'tɜːmɪn] element ['eləmənt ] experiment [ɪk'sperɪmənt] extreme [ɪk'striːm] fact [fækt] form [fɔːm] formula ['fɔːmjʊlə] (pl. formulae ['fɔːmjuliː]) fundamental [ˌfʌndə'ment(ə)l] gas [gæs] glacier ['glæsɪə], ['gleɪsɪə] ground [gra͟ʊnd] history ['hɪst(ə)rɪ] physical ['fɪzɪk(ə)l] planet ['plænɪt] polar ['pəʊlə] population [ˌpɒpjʊ'leɪʃ(ə)n] portion ['pɔːʃ(ə)n] process ['prəuses] recreation [ˌrɪekrɪ'eɪʃ(ə)n] religious [rɪ'lɪdʒəs] saturate ['sætʃəˌreɪt] structure ['strʌktʃə] temperature ['temp(ə)rəʧə] transport 1. v [træn'spɔːt] 2. n ['trænspɔːt] transportation [ˌtrænspɔː'teɪʃ(ə)n] typical ['tɪpɪk(ə)l] variety [və'raɪɪtɪ] virus ['vaɪrəs] zooplankton [ˌzuːəˈplæŋktən] 2. Translate the following words and phrases and memorize them. NOUNS AND NOUN PHRASES acid acidity alga (pl. algae) alkali alkalinity boiling point characteristic colour compound consumption corrosiveness [corro- sivity] demand development drinking water gas glacier groundwater [ground water] hardness hydrogen liquid melting point odour oxygen physical state property protozoan (pl. proto- zoa / protozoans) salt [saline] water solvent substance supply surface surface water taste temperature turbidity vapour water water [hydrologic] cycle water body water purification water recycling 7 foamability fresh water solid solution water supply waterway VERBS AND VERBAL PHRASES to assess to be to be composed of to be saturated with to change to condense to contain to cover to determine to develop to exist to find to increase to make up to nourish to occur to protect to use ADJECTIVES aquatic aqueous available biological chemical colourless dense liquid odourless physical solid tasteless ABBREVIATIONS AND SYMBOLS o C (degree(s) Celsius) o F (degree(s) Fahrenheit) % (per cent / percent) etc. (etcetera / et cetera) H2O pH 3. Match the English and Russian equivalents. (1) 1. aquatic life 2. aqueous solution 3. chemical compound 4. complex property 5. to act as an acid or as an alkaline 6. to be transported through the atmosphere 7. to carry out a process 8. to cover the area 9. to exist in three physical states 10. to use as a medium 11. under normal conditions a. вести себя либо как кислота, либо как щелочь b. водная флора и фауна, гидробио- нты (организмы, обитающие в во- де) c. водный раствор d. занимать площадь e. использовать как среду (веще- ство, в котором существует что-л.) f. осуществлять процесс g. перемещаться в атмосфере h. при нормальных условиях i. сложное свойство j. существовать в трех физических 8 [агрегатных] состояниях k. химическое соединение (2) 1. ground [subsurface] and surface water 2. salt [saline] and fresh water 3. to be saturated with wa- ter 4. to flourish around major waterways 5. water [hydrologic] cy- cle 6. water body 7. water purification [treatment] 8. water recycling 9. water supply 10. water surface a. быть насыщенным водой b. водная поверхность, поверхность воды c. водоем; водный объект d. водообеспеченность, запас воды; водоснабжение, снабжение водой, водоподача, подача воды; водо- провод; pl. водные ресурсы e. круговорот воды, влагооборот f. оборотное [повторное] водоснаб- жение g. очистка воды, водоочистка h. подпочвенные воды [почвенная / грунтовая вода] и поверхностная вода i. процветать вокруг главных вод- ных путей j. соленая и пресная вода 4. Read the text. Using a dictionary, translate it in writing. Text A. Water. General Information “Water is H2O, hydrogen two parts, oxygen one, but there is also a third thing that makes water and nobody knows what that is.” D.H. LAWRENCE (1885-1930) Water is a substance composed of the chemical elements hydrogen and oxygen and existing on the Earth in all three physical states: solid, READING PRACTICE 9 liquid, and gas. Water is a colourless, tasteless, and odourless liquid at room temperature. Its melting point is 0o C (32o F), and its boiling point is 100o C (212o F). Water is undoubtedly the most common, plentiful and essential of all chemical compounds. Significance of Water for Life. Water is vital to life and essential to all living organisms. Life is believed to have originated in the world's oceans, so water has played a central role in the development of life on Earth. One of water’s most important properties is its ability to be a sol- vent for many other substances, which is essential to living organisms. They use aqueous solutions as a medium for carrying out biological pro- cesses. In fact, water participates in every process that occurs in plants and animals. Water Properties. Although the water molecule formula seems simple in structure (H2O), the physical and chemical properties of the compound are extremely complex. These proper- ties are incompletely understood and are not typical of most substances. For example, water can sometimes act as an acid or as an alkali (a base). Anoth- er unusual property is that in its solid form, ice, water is less dense than when it is liquid. Ice therefore floats on water and protects the aquatic life below water surface of water bodies in cold areas of the world. Wa- ter occurs as a liquid on the surface of the Earth under normal conditions, which makes it invaluable for transportation, for recreation, and as a hab- itat for a myriad of plants and animals. The fact that water is readily changed to a vapour (gas) allows it to be transported through the atmos- phere from the oceans to inland areas where it condenses and, as rain, nourishes plant and animal life. The process is called the “water cycle”, or the “hydrologic cycle”. Water Characteristics. Water quality is determined by assessing three classes of characteristics: physical, chemical, and biological. The physical characteristics include turbidity, colour, taste, odour, tempera- ture, and foamability. The chemical characteristics of water are its acidity, alkalinity, pH, hardness, and corrosiveness (corrosivity). The Pict. 1. Water Molecule 10 biological characteristics of a water body refer to a variety of living or- ganisms that can be found in water, including microscopic viruses, bacte- ria and protozoans, as well as phytoplankton (microscopic algae), zoo- plankton (tiny water animals), insects, worms, large plants and fish. Earth’s Water Supply. About 97% of all water is salt (saline) water of the oceans, and the remaining 3% is fresh water. The majority of fresh water, about 69%, is locked up in polar glaciers and icecaps, main- ly of Greenland and Antarctica; and the rest is ground water. No matter where on Earth we stand, chances are that, at some depth, the ground below is saturated with water. Of all the fresh water on Earth, only about 0.3% is contained in rivers and lakes, known as surface water. Consider- ing that most of the water we use in everyday life comes from rivers, we make use of a tiny portion of the available water supplies. Pict. 2. Distribution of Earth’s Water The Earth is often called the "blue planet" because it appears blue from space. This blue colour is caused by reflection from the oceans which cover about 70% of the area of the Earth. Water is one of the five elements that make up this planet, along with fire, earth, air, and metal. Because of its prominence, water has long played an important religious and philosophical role in human history. The belief that water was a fun- damental substance existed for more than 2,000 years until experiments 11 in the second half of the 18th century showed that water is a compound made up of the elements hydrogen and oxygen. Civilization has histori- cally developed and flourished around rivers and major waterways. As the Earth's population grows and the demand for fresh water increases, water purification and recycling become increasingly important. 5. Decide whether the following statements are true or false accord- ing to the text. 1. Water is composed of the chemical compounds hydrogen and oxy- gen. 2. Solid, liquid, and gas are the three physical states in which water ex- ists on the Earth. 3. Water is a colourful, tasteful and odourless liquid at room tempera- ture. 4. Water has the ability to solve any substance easily. 5. Water takes part in all processes that occur in plants and animals. 6. The formula of a water molecule seems complex in structure, but the physical and chemical properties of the compound are simple. 7. Water in its solid state is denser than water in its liquid state. 8. Water is valueless for transportation, for recreation, and as a habitat for a myriad of plants and animals. 9. The “water cycle” is a synonym for the “hydrologic cycle”. 10. There are three classes of characteristics of water: physical, chemical, and biological. 11. The chemical characteristics of water include its acidity, alkalinity, pH, turbidity, and hardness. 12. Salt water constitutes about 3% of all the Earth’s water supply. 13. Both groundwater and surface water are fresh water. 14. Today water purification and recycling are increasingly important be- cause of the Earth’s population growth. 6. Answer the following questions. COMPREHENSION CHECK 12 1. What is water? 2. In what physical states does water exist on the Earth? 3. Is water a solvent for all other substances? 4. What do living organisms use aqueous solutions for? 5. What are the examples of unusual and complex properties of water? 6. What are three classes of water characteristics? 7. What do the physical, chemical and biological characteristics of water include? 8. Is 97% of all water on the Earth salt or fresh water? 9. Ground water is fresh water, isn’t it? 10. Is fresh surface water contained in rivers, lakes and seas? 11. Why is the Earth often called the “blue planet”? 12. Where has civilization developed historically? 13. Why do water purification and recycling become increasingly im- portant? 7. Choose the right variant according to the text. 1. Water consists of the chemical elements … . A. carbon and hydrogen B. oxygen and hydrogen C. oxygen and nitrogen D. carbon oxide and carbon dioxide 2. About 97% of all water on the Earth is … . A. ground water B. salt water C. surface water D. fresh water 3. Fresh surface water is found in … . A. oceans, seas, rivers, lakes and swamps B. rivers, lakes and marshes C. rain, oceans, rivers, lakes, etc. D. glaciers and icecaps 4. Since rivers are the main source of the water we use in our every- day life, the humanity … . A. uses the vast majority of the available fresh water B. makes use of all the Earth’s surface water 13 C. uses only a small part of the available water supplies D. can’t make use of available water supplies at all 5. In the process called the “hydrologic cycle”, water is transported through the atmosphere from the oceans to inland areas where it … and, as rain, nourishes plant and animal life. A. recycles B. condenses C. vaporous (vaporizes) D. saturates 8. Translate the following pairs of derivatives and memorize them. Verb – Noun to boil – boiling to compose – composition to condense – condensation to consume – consumption to determine – determination to develop – development to distribute – distribution to live – life to occur – occurrence to purify – purification to recycle – recycling to saturate – saturation to solve – solvent / solution to transport – transportation to use – usage to vary – variety Noun – Verb compound – to compound demand – to demand supply – to supply use – to use vapour – to vapour water – to water Adjective – Verb pure – to purify saline – to desalinize / to desalinate Noun – Adjective aqua – aqueous / aquatic biology – biological chemistry – chemical colour – colourless essence – essential hydrology – hydrologic microscope – microscopic odour – odourless physics – physical taste – tasteless type – typical LANGUAGE FOCUS 14 Noun – Adjective complex – complex gas – gas / gaseous ground – ground liquid – liquid salt – salt solid – solid surface – surface water – water / watery Adjective – Noun able – ability available – availability hard – hardness turbid – turbidity corrosive – corrosiveness / corro- sivity Noun – Noun acid – acidity alkali – alkalinity character – characteristics foam – foamability Adjective – Adverb extreme – extremely historic(al) – historically Verb – Participle I to exist – existing to include – including to occur – occurring to remain – remaining Compound Nouns / Adjectives atmosphere everyday groundwater hydrogen hydrology icecap microscope oxygen waterway zooplankton / phytoplankton 9. Translate the following pairs of derivatives paying attention to the meaning of prefixes. ability – inability (to) increase – (to) decrease common - uncommon completely – inсompletely cycling – recycling essential – inessential ground - underground important – unimportant including – excluding land – inland surface – subsurface to compose – to decompose to cover – to uncover / to discover to include – to exclude to use – to reuse typical – untypical usual – unusual valuable – invaluable 15 10. Transform as in the models. Model 1 “Verb  Noun”: to purify water  purification of wa- ter To use a solution, to carry out a process, to recycle water, to compose a substance, to solve substances, to saturate with water, to use water sup- plies. Model 2 “Noun  Noun”: purification of water  water purifi- cation A molecule of water, the formula of a water molecule, quality of wa- ter, a body of water, the surface of water, water on the surface, water under the ground, supply of water, recycling of water, growth of popula- tion, temperature in a room, tiny animals in water, saturation with water, use of water supplies, a solvent for substances and compounds, devel- opment of civilization. 11. Insert the appropriate word or word combination. (1) covers, dependent, drinking, essential, factors, makes up, properties, quality, substance, survive, systems, use, water 1. Water is the most important liquid ______ on Earth. It ______ al- most 75 percent of Earth’s surface in the form of oceans, rivers, and lakes. All plants and animals need ______ to live. Water’s physical and chemical ______ make it ______ to life and civilization. 2. Everyone should drink water every day. Water ______ about 60 per- cent of an adult’s body by weight. Children’s bodies have an even higher percentage of water. The human being can ______ only a few days with- out clean, safe drinking water, and every part of the human body is ______ on water. 3. People have many uses for water besides ______ . They use it for washing and cooking. They use it to irrigate crops and lawns, to clean streets, and to operate air-conditioning units and heating ______ . They also ______ the power of flowing water to produce electricity. 16 4. Whether the ______ of drinking water is acceptable or not depends on several ______: how it looks, how it tastes, how it smells, and how clean and safe it is. (2) branch, circulates, evaporation, fluid, hydrologic cycle, management, pH, precipitation, resources, salts, supply, term, treatment 1. A gas and especially a liquid are called a ______ . 2. ______ is a measure of the acidity or alkalinity of a solution, as well as a measure of the hydrogen ion concentration in water. 3. The ______ describes the cycle by which water is transferred over the Earth. It is the cycle of processes by which water ______ between the earth's oceans, atmosphere, and land, involving ______ as rain and snow, drainage in streams and rivers, and return to the atmosphere by ______ and transpiration. 4. Because seawater contains large quantities of dissolved ______, it must be desalinated for most uses including human consumption. 5. Water conservation is the protection, development, and efficient ______ of water ______ for beneficial purposes. 6. Water-supply engineering is a ______ of civil engineering concerned with the development of sources of supply, transmission, distribution, and ______ of water. The ______ is used most frequently for municipal waterworks, but applies also to water ______ systems for industry, irri- gation, water reuse, and other purposes. 12. Translate the words and word combinations in brackets. Rain is the prime (источник) of all water. A part of the rain water sinks into the ground to form (грунтовые воды); part of it evaporates back into the (атмосфера), and some runs off to form streams and riv- ers which flow ultimately into the sea. Some of the water in the soil is taken up by the (растения) and is evaporated in turn by the (листья). This (процесс) is called the "water cycle", or the “hydrologic cycle". So the (круговорот воды / влагооборот) is the (циркуляция) of the earth's water, in which water (испаряется) from the sea into the atmosphere, 17 where it condenses and falls as (дождь) or (снег), returning to the sea by rivers or returning to the atmosphere by evapotranspiration. (Эвапотранспирация / суммарное испарение) is the process by which water is transferred from the land to the atmosphere by (испаре- ние) from the soil and other (поверхности) and by transpiration from plants. So, water on Earth moves continually through a cycle of evapora- tion or transpiration (evapotranspiration), precipitation, and runoff, usu- ally reaching the (море). Water comes a long way to get to the (водопроводный кран)! All (питьевая вода) originates in the water cycle when rain and snow sink into the ground or collect in rivers, lakes and streams. Cities usually get their drinking water from lakes, rivers and (водохранилища). Water is sent to a treatment plant where it is cleaned and pumped into our homes, various establishments and (промышленные предприятия). In rural areas, many people drink (вода из скважины) which is pumped from a natural underground storage area called an (водоносный слой / водо- носный горизонт). 13. Match the terms and their definitions. alga (pl. algae), drinking water, fresh water, glacier, groundwater, occur, property, solvent, surface water, water, water supply, waterway Pict. 3. The Water (Hydrologic) Cycle 18 a. a colorless, transparent, odorless, tasteless liquid that forms the seas, lakes, rivers, and rain and is the basis of the fluids of living organ- isms b. a liquid capable of dissolving another substance c. a river, canal, or other navigable channel used as a means of travel or transport d. a simple nonflowering (нецветковый) plant growing in water e. a slowly moving mass of ice formed by the accumulation and com- paction of snow on mountains or near the poles f. all water naturally open to the atmosphere (e.g. rivers, streams, lakes or reservoirs); water that collects on the surface of the ground g. an attribute, quality or characteristic of something h. happen; take place; exist i. the water available for a community or region; the supply of treated and purified water for a community; water resources j. the water with the total dissolved substances content of less than 1,000 mg/l k. water contained underground in the soil or in pores and crevices in rock l. water intended primarily for human consumption (also known as potable water) 14. Make a summary of the text according to the following plan. 1. The title of the text is “…” . 2. The text is devoted to … . 3. Such problems as … are touched upon in the text. 4. The text consists of … parts. 5. The first part deals with … . 6. The second (third, forth, etc.) part describes … . 7. The main idea of the text is to show … (to underline … / to prove … / to inform the reader about ...). SUMMARIZING 19 8. In my opinion, the text is useful / informative / interesting. It is worth reading. 15. Skim over the text and do the tasks that follow. Text B. Water-Supply Engineering and Sewage Disposal “Water is fundamental to life and health” United Nations Committee on Economic, Cultural and Social Rights (2002) Engineering is a science which deals with design, construction and operation of structures, machines, engines and other devices used in in- dustry and everyday life. Engineering applies scientific and technical knowledge to solve human problems. The proper Russian equivalents for "engineering" are «инженерия, инжиниринг, инженерное искусство, техника, технология, строи- тельство, разработка, проектирование, конструирование, машино- строение». Engineering is divided into many branches. The most important of them are civil engineering, industrial engineering, mechanical engineer- ing, chemical engineering, electrical engineering, sanitary engineering, materials engineering, etc. The field of engineering includes a wide vari- ety of activities. Civil engineering is the oldest of the main branches of engineering. Civil engineers cooperate with architects to design and erect all types of buildings. They plan and supervise large construction projects such as bridges, canals, dams, tunnels and water supply systems. A number of civil engineers focus on the management of water resources, including the construction of flood control and irrigation systems, hydroelectric power plants, water supply and sewerage systems. Water-supply engineering is a branch of civil engineering. It is a complex of activities concerned with the supply of water to its various consumers – community, industrial enterprises, transport, etc. READING PRACTICE 20 This discipline based on various branches of technical sciences has a complex character. The complex character is determined by the necessity of solving a complex of complicated engineering tasks connected with design, construction and operation of water supply systems. These sys- tems include various facilities providing acquisition, treatment and de- livery of water in demanded quantities and of adequate quality to water consumers. So, a water supply system is a complex of engineering structures car- rying out the supply of water including acquisition of water from a varie- ty of natural water sources, its treatment, transmission, storage, and dis- tribution to the water consumers. The study of the course in water-supply engineering is based on the knowledge of a number of general technical and specialized disciplines: 1. hydrology, hydrogeology (groundwater hydrology), hydrotechnics (hydraulic engi- neering) and drilling technology; 2. water chemistry and hydrobiology; 3. hydraulics; 4. building disciplines. Sewage disposal (also called waste dispos- al) is a complex of sanitary activities as well as a complex of engineering structures and facilities intended for the collection of wastewater, its dis- posal outside the city limits or industrial enterprises, its delivery to wastewater treatment plants, as well as its treatment, sanitation and disin- fection before recycling or discharge into a body of water. A. Answer the following questions. 1. What is engineering? 2. What are the proper Russian equivalents for “engineering”? 3. What are the main branches of engineering? 4. Civil engineering is the oldest of the main branches of engineering, isn’t it? 5. Who do civil engineers cooperate with to design and erect all types of buildings? 6. What does the work of civil engineers include? 7. What is water-supply engineering? 21 8. Does this discipline have a complex character? What is it deter- mined by? 9. What facilities do water supply systems include? 10. What is a water supply system? 11. What does a water supply system include? 12. What general technical and specialized disciplines is the study of the course in water-supply engineering based on? 13. What is sewage disposal? B. Choose the right variant according to the text. 1. Water-supply engineering is … . a. a complex of complicated engineering tasks connected with design, construction and operation of water supply systems b. a complex of activities concerned with the supply of water to its various consumers с. a complex of sanitary activities intended for the collection and treatment of sewage d. a complex of engineering structures and facilities intended for the collection and treatment of wastewater 2. Water supply systems include various facilities providing …. . (several answers possible) a. acquisition of water from a variety of natural water sources b. treatment of water c. design, construction and operation of water supply systems d. delivery of water to water consumers 3. The study of the course in water-supply engineering is based on the knowledge of the following general technical and specialized dis- ciplines: … . (several answers possible) a. hydrology, hydrogeology (groundwater hydrology), hydrotechnics (hydraulic engineering) and drilling technology b. water treatment technology с. water chemistry, hydrobiology and hydraulics d. building disciplines 4. Sewage disposal [waste disposal] is a complex of sanitary activities as well as a complex of engineering structures and facilities intended for … . (several answers possible) 22 a. water treatment and purification b. wastewater collection c. disposal of wastewater outside the city limits or industrial enter- prises, its delivery to wastewater treatment plants and its treatment d. sewage sanitation and disinfection 16. Read the following text and speak on every type of municipal wa- ter consumption. Text С. Municipal Water Consumption and Its Types “Water has become a highly precious resource. There are some places where a barrel of water costs more than a barrel of oil.” LLOYD AXWORTHY, Foreign Minister of Canada In designing any water supply system specialists determine the re- quired quantity and quality of water supplied. For solving this problem it is necessary to take into account all the potential water consumers and find out their requirements for the quantity and quality of the water de- livered. Water is used by various consumers and is required for a wide variety of purposes. Water consumption (also called “water requirement / water demand / water use”) is the use of water delivered to satisfy particular needs of a community. Water consumption is characterized by several types (cate- gories) of demands, including domestic, public, commercial, and indus- trial uses. Domestic water demand includes water for drinking, cooking, wash- ing up dishes, cleaning, laundering (washing), bathing, car washing, yard and garden watering, carrying away wastes, and other household func- tions. Public water demand includes water for fire protection, street clean- ing, and use in schools, hospitals and other public buildings. Commercial and industrial water demands include water for shops, warehouses, offices, hotels, laundries, restaurants, and most manufactur- 23 ing plants, for various technological purposes in industry, power engi- neering, transport, etc. There is usually a wide variation in total water demand among differ- ent communities. This variation depends on population, geographic loca- tion, climate, the extent of local commercial and industrial activity, and the cost of water. Water use or demand is expressed numerically by average daily con- sumption per capita (per person). For example, in the United States the average demand is approximately 100 gallons* (380 litres) per capita per day for domestic and public needs. Overall, the average total demand is about 180 gallons per capita per day, when commercial and industrial water uses are included. (These figures do not include withdrawals from freshwater sources for such purposes as crop irrigation or cooling opera- tions at electric power generation facilities.) Water consumption in some developing countries may average as little as 4 gallons per capita per day; the world average is estimated to be approximately 16 gallons per person per day. Pict. 4. Types of Water Use 24 In any community, water demand varies on a seasonal, daily, and hourly basis. On a hot summer day, for example, it is not unusual for total water consumption to be as much as 200 percent of the average de- mand. Water consumption also varies hourly throughout the day. The peak demands in residential areas usually occur in the morning as well as early evening hours (just before and after the normal workday). Water demands in commercial and industrial districts, though, are usually uni- form during the working day. Minimum water demands typically occur in the very early morning and predawn hours when very few people use water. Civil and environmental engineers must carefully study each commu- nity's water use patterns in order to design efficient pumping and distri- bution systems. ___ *a gallon is a unit of volume for liquid and dry measure; US equiva- lent to 3.79 litres; UK equivalent to 4.55 litres 17. Read the following text and say what natural sources of water are and what requirements they must satisfy. Text D. Natural Water Sources and Their Use for Water Supply Purposes “When the well is dry, we know the worth of water.” BENJAMIN FRANKLIN (1706-1790) The choice of a water source is one of the most responsible tasks in designing a water supply system. The source determines to a considera- ble degree the type of the water supply system itself, the necessity of certain facilities and, therefore, the cost of its construction and mainte- nance. A water supply source must satisfy the following requirements: a. it must provide the acquisition of adequate quantities of water with a glance of a prospective increase in water consumption; b. it must provide continuity of water supply; c. it must provide the water of such quality that meets the demands of water consumers by means of reasonably priced treatment; 25 d. it must enable water transmission at the lowest cost; e. it must guarantee water acquisition without ecological disturbance*. Natural sources of water include:  surface sources (oceans, seas, lakes, reservoirs, rivers, streams, tanks and ponds);  underground sources (ground water, artesian [confined] water, shallow wells, deep wells and springs). Natural sources such as rivers, lakes, impounding reservoirs, etc. are sources of surface water. Water is withdrawn from them through in- takes. The simplest intakes are pipes extending from the shore into deep water. Water obtained from subsurface sources, such as sands and gravels and porous or fractured rocks, is called ground water. The flow of ground water takes place in river valleys and, in some areas, along the seacoast in water-bearing strata known as aquifers. Groundwater is ac- cessed through a bore. For the community’s needs groundwater is more suitable. However, for the supply of water to large inhabited localities groundwater sources are often insufficient, and acquisition of a considerable quantity of water from them is unprofitable. For the supplying of big cities and industrial enterprises with water, therefore, surface sources of fresh water are mainly used. Sources of Drinking Water. Drinking water is water intended pri- marily for human consumption, either directly, as supplied from the tap, or indirectly, in beverages or food prepared with water. It should contain no harmful concentrations of chemicals or pathogenic microorganisms, and ideally it should be aesthetically pleasing in regard to appearance, taste and odour. Drinking water comes from both surface and groundwater sources. Surface water (rainfall and its runoff into streams and rivers) normally contains suspended matter, pathogenic organisms, and organic substanc- es. Groundwater (water that has collected in aquifers) normally contains dissolved minerals and gases. Both require treatment. Water suppliers access this water, treat it and distribute it to consumers. The amount of water on our planet that is suitable and available for drinking is very small. Across the globe, population growth, urban de- velopment and environmental degradation pose an ever-increasing threat 26 to freshwater supplies. Today, 4 out of every 10 people live in areas that are experiencing water scarcity, and nearly 50% of the world’s popula- tion is likely to face severe water shortages by 2025. * ecological disturbance – нарушение экологического баланса Pict. 5. Sources of Drinking Water 18. Read the texts of Unit 1 again and make notes under the follow- ing headings. Then use your notes to talk about Water on the Earth and Water-Supply Engineering. 1. Significance of water for life. 2. Water properties and characteristics. 3. The hydrologic cycle. 4. Engineering. Water-supply engineering and sewage disposal. 5. Types (categories) of water consumption. 6. Natural water sources and their use for water supply purposes. Sources of drinking water. FOLLOW-UP ACTIVITIES 27 Unit 2 Water Supply Systems “Children of a culture born in a water-rich environment, we have never really learned how important water is to us. We understand it, but we do not respect it.” WILLIAM ASHWORTH, Nor Any Drop to Drink, 1982 1. Read the following international words and guess their meaning. Mind the stressed syllables. Prove that these words are international ones. Model: engineering [ˌenʤɪ'nɪərɪŋ] - прикладной (о науке); техни- ческий, инженерный; инженерное искусство; машиностроение; инженерия; инжиниринг; строительство; техника, аппаратура; проектирование; конструирование; разработка activity [æk'tɪvətɪ] adequate ['ædɪkwət] adsorption [æd'sɔːpʃ(ə)n] aeration [eə'reɪʃ(ə)n] coagulation [kəuˌægjə'leɪʃ(ə)n] collection [kə'lekʃ(ə)n] combination [ˌkɔmbɪ'neɪʃ(ə)n] complex ['kɔmpleks] component [kəm'pəunənt] neutralize ['njuːtr(ə)laɪz] operate ['ɔp(ə)reɪt] osmosis [ɔz'məusɪs] pressure ['preʃə] problem ['prɔbləm] process ['prəuses] provision [prə'vɪʒ(ə)n] pump [pʌmp] realize ['rɪəlaɪz] VOCABULARY WORK 28 conservation [ˌkɔnsə'veɪʃ(ə)n] convert [kən'vɜːt] definition [ˌdefɪ'nɪʃ(ə)n] disinfection [ˌdɪsɪn'fekʃ(ə)n] distance ['dɪst(ə)ns] distillation [ˌdɪstɪ'leɪʃ(ə)n] distribution [ˌdɪstrɪ'bjuːʃ(ə)n] economy [ɪ'kɔnəmɪ] equivalent [ɪ'kwɪv(ə)lənt] factor ['fæktə] filtration [fɪl'treɪʃ(ə)n] flocculation [ˌflɔkjə'leɪ ʃ(ə)n] flotation [fləu'teɪʃ(ə)n] geographic [ʤɪə'græfɪk] hydraulic [haɪ'drɔːlɪk] hydrologic [ˌhaıdrəˈlɒdʒık] industrial [ɪn'dʌstrɪəl] method ['meθəd] modern ['mɔd(ə)n] natural ['næʧ(ə)r(ə)l] region ['riːʤ(ə)n] reservoir ['rezəvwɑː] resource [rɪ'sɔːs] reverse [rɪ'vɜːs] sedimentation [ˌsedɪmen'teɪʃ(ə)n] serious ['sɪərɪəs] standard ['stændəd] structure ['strʌkʧə] system ['sɪstəm] tank [tæŋk] term [tɜːm] transmission [trænz'mɪʃ(ə)n], [træns'-] transport 1. v [træn'spɔːt] 2. n ['trænspɔːt] transportation [ˌtrænspɔː'teɪʃ(ə)n] underground 1. adv [ˌʌndə'graund] 2. n, adj ['ʌndəgraund] variety [və'raɪətɪ] 2. Translate the following words and phrases and memorize them. NOUNS AND NOUN PHRASES abundance appurtenance arrangement delivery distribution pipe maintenance occurrence pipeline plumbing fixtures pollutant purpose quality quantity reservoir shortage storage tank sufficiency [availability] of water supply water acquisition [col- lection] water conservation water consumer water distribution water distribution sys- tem water purification plant water resources water storage water storage facility water supply water supply system [network] water transmission [transportation] water treatment [purifi- cation] water treatment facility water use 29 VERBS AND VERBAL PHRASES to accomplish to be aimed at to be intended for to be situated to carry out to deliver to include to increase to provide to refer to to remove to require ADJECTIVES AND PARTICIPLES additional adequate available conventional domestic elaborate engineered palatable pure purified satisfactory sufficient suitable treated wholesome 3. Match the English and Russian equivalents. 1. adequate quantity 2. adequate supply 3. carbon adsorption 4. complex of activities 5. complex of engineering structures 6. deferrization and fluori- dation 7. engineering task 8. firefighting equipment 9. industrial enterprise 10. inland lakes or rivers 11. natural water source 12. populated locality 13. reverse osmosis 14. soil moisture 15. to take advantage of 16. undesirable impurity 17. water softening a. адсорбция активированным уг- лем b. внутренние озера или реки c. воспользоваться чем-л., исполь- зовать в своих интересах, с вы- годой для себя d. достаточное количество e. достаточный запас f. инженерная задача g. комплекс инженерных соору- жений h. населенный пункт i. нежелательная примесь j. обезжелезивание и фторирова- ние (воды) k. обратный осмос l. почвенная влага; влажность (почво)грунта m. природный источник воды n. промышленное предприятие o. противопожарное вооружение p. совокупность мероприятий q. умягчение воды 30 4. Read the text. Using a dictionary, translate it in writing. Text A. Water Supply Systems In the English language, “water supply” is a broad term which may have the following definitions: The proper Russian equivalents for the term “water supply” are:  запас воды  водообеспеченность  водоснабжение, снабжение водой  водоподача, подача воды  водопровод  водные ресурсы 1. water storage or sufficiency [availability] of water for a com- munity or region; the water available for a community WATER SUPPLY 2. the supply [delivery] of treated and purified water for a com- munity 3. the delivery system of such water (a complex of reservoirs, wa- ter purification plants, distribution pipes, etc., for providing water to a community) 4. water resources (water of rivers, lakes, reservoirs, seas and oceans, as well as groundwater, soil moisture, water (ice) of glac- iers, icecap and snow cover which is suitable for use in economy) READING PRACTICE 31 An adequate supply of pure, wholesome and palatable water is essen- tial to the maintenance of high standards of health and life and to provide the convenience modern society demands. So, the importance of a suffi- cient supply of water for domestic and industrial purposes has long been a deciding factor in the location of settlements, towns and cities. Even early people realized this need and took advantage of natural water sources. In some regions water is available in unlimited quantities and con- verting it to use is not a difficult problem. This is especially true of popu- lated localities which are situated on large inland lakes or rivers. Howev- er, there are towns and cities whose geographic location requires elabo- rate systems of water supply, and providing a satisfactory supply of water in these inhabited localities becomes a serious engineering task. Water supply is a complex of activities intended for the provision of various water consumers (community, industrial enterprises, transport) with water. The term may also refer to the supply of water provided in this way. A water supply system, or water supply network, is a complex of en- gineering structures or a system of engineered hydrologic and hydraulic components which are aimed at providing water supply for various water uses. These structures carry out the supply of water including acqui- sition of water from a variety of natural water sources, its treatment, transmission, storage, and distribution to the water consumers. A water supply system is arrangements for trans- porting water from are- as of abundance to an area of shortage. 1. Water acquisition is collection of water from a variety of natural water sources (both surface and underground ones). 32 2. Water treatment is purification of water to make it suitable for human consumption or for any other purpose. It is any of several pro- cesses (or their combination) in which undesirable impurities or pollu- tants are removed or neutralized. Water treatment is accomplished at var- ious water treatment facilities. Conventional water treatment processes include coagulation and flocculation, sedimentation and flotation, filtra- tion, disinfection, as well as some additional treatment methods (water softening, aeration, carbon adsorption, distillation, deferrization, desali- nation, fluoridation, reverse osmosis). 3. Water transmission is transportation of water over long distances, especially in those areas where there is a significant mismatch between water supply and water demand. 4. Water storage is conservation of water in a variety of water storage facilities for future use. 5. A water distribution system is an elaborate network of pumps, pipelines, storage tanks, and other appurtenances. It must deliver ade- quate quantities of water at pressures sufficient for operating plumbing fixtures and firefighting equipment, yet it must not deliver water at such high pressures as to increase the occurrence of leaks and pipeline breaks. 5. Decide whether the following statements are true or false accord- ing to the text. 1. The English term “water supply” has several meanings. 2. The presence of water supply systems has long been a deciding fac- tor in the location of settlements, towns and cities. 3. Providing some regions where water is available in unlimited quan- tities with a satisfactory supply of water becomes a serious engi- neering task. 4. Every town and city in the world needs elaborate water supply sys- tems. 5. Water supply is a complex of engineering structures intended for the provision of various consumers with water. COMPREHENSION CHECK 33 6. A water supply system is a complex of activities aimed at the provi- sion of water to various consumers and for various water uses. 7. Water supply is the same as a water supply system. 8. The terms “a water supply system” and “a water supply network” are synonymous. 9. Water supply systems carry out the supply of water including acqui- sition of water from a variety of natural water sources, its treatment, transmission, storage, and distribution to the consumers. 10. Water acquisition is storage of water in a variety of natural water sources (both surface and underground ones). 11. Natural water sources include both surface and subsurface ones. 12. The aim of water treatment is to make water suitable for human consumption or for any other purpose. 13. Water purification is accomplished at various sewage treatment fa- cilities. 14. Water treatment is necessarily a combination of several processes in which undesirable impurities or pollutants are removed or neutral- ized. 15. A significant mismatch between water supply and water demand in an area requires transportation of water over long distances. 16. Water distribution systems must deliver adequate quantities of water at pressures sufficient for operating plumbing fixtures. 6. Answer the following questions. 1. What are the definitions of the term “water supply”? 2. What are the proper Russian equivalents for the term “water sup- ply”? 3. Why has the importance of a sufficient supply of water long been a deciding factor in the location of settlements, towns and cities? 4. Why does providing a satisfactory supply of water in some inhabit- ed localities become a serious engineering task? 5. What is a water supply system, or water supply network? 6. The supply of water includes water acquisition, treatment, transmis- sion, storage, and distribution to the water consumers, doesn’t it? 7. Do natural sources of water include surface or underground ones? 8. What is water treatment? Where is it accomplished? 34 9. What do conventional water treatment processes include? 10. For what purpose is water storage accomplished? 11. How is an elaborate network of pumps, pipelines and storage tanks called? 7. Choose the right variant according to the text. 1. An adequate supply of pure, wholesome and palatable water … A. is especially true of towns situated on large inland lakes or rivers B. is essential for the maintenance of high standards of health C. may be taken from any source of water D. should be protected from contamination by filtration 2. There are cities whose geographical location … . A. makes water pass through an elaborate cycle of treatment B. requires elaborate systems of water supply C. makes the problem of water supply very difficult D. calls for modern systems of water treatment 3. The geographic location of some towns and cities requires … . A. the removal of undesirable impurities at various water treatment facilities B. the application of additional water treatment methods C. elaborate water supply systems D. transporting water from areas of shortage to an area of abun- dance 4. Even early people took advantage of natural water sources by … . A. building water power stations on them B. establishing their settlements near them C. providing sufficient water supply for their needs D. using water without much preliminary treatment 5. A water supply system is a complex of … . A. engineers B. engineering structures C. hydrology and hydraulics D. water purification plants 6. Too high pressures in a water distribution system increase the oc- currence of … . 35 A. undesirable impurities and pollutants B. coagulation, sedimentation, filtration and disinfection C. a significant mismatch between water supply and water demand D. leaks and pipeline breaks 8. Match 1-9 to a-i to form complete sentences. 1. Water supply … 2. A water supply sys- tem, or water supply network, … 3. Water acquisition … 4. Water treatment … 5. Conventional water treatment processes … 6. Water transmission … 7. Water storage … 8. A water distribution system … 9. Water sources … a. … include coagulation and floccula- tion, sedimentation and flotation, fil- tration, disinfection, as well as some additional treatment methods. b. … include underground and surface sources, as well as water accumula- tion and conservation. c. … is a complex of activities intend- ed for the provision of various con- sumers with water. d. … is a complex of engineering structures aimed at providing water supply for various water uses. e. … is an elaborate network of pumps, pipelines, storage tanks, and other appurtenances aimed at delivering adequate quantities of water. f. … is collection of water from a vari- ety of natural water sources. g. … is conservation of water in a vari- ety of water storage facilities for fu- ture use. h. … is purification of water to make it suitable for human consumption or for any other purpose. i. … is transportation of water over long distances. 36 9. Translate the following pairs of derivatives and memorize them. Verb – Noun to accomplish - accomplishment to accumulate – accumulation to acquire – acquisition to arrange – arrangement to collect – collector / collection to conserve – conservation to consume – consumer / consump- tion to define – definition to deliver – delivery to distribute – distribution to equip - equipment to maintain – maintenance to neutralize – neutralization to operate – operator / operation to plumb – plumber / plumbing to pollute – pollutant / pollution to press – pressure to provide – provision to pump – pumping to purify – purification to remove – removal to require – requirement to store – storage to transmit – transmission to treat – treatment Noun – Verb aim – to aim break – to break cover – to cover demand – to demand increase – to increase leak – to leak mismatch – to mismatch pump – to pump supply – to supply transport – to transport Noun – Adjective addition – additional convention – conventional desire – desirable / undesirable hydraulics – hydraulic hydrology – hydrologic industry – industrial Noun – Adjective engineering – engineering future – future Adjective – Noun abundant – abundance available – availability convenient – convenience important – importance moist – moisture pure – purity / impurity short – shortage sufficient – sufficiency Adjective – Verb LANGUAGE FOCUS 37 pure – to purify soft – to soften Verb – Adjective to avail – available to elaborate – elaborate to suit - suitable to vary – various Compound Nouns / Adjectives firefighting hydrologic network pipeline 10. Translate the following pairs of derivatives paying attention to the meaning of prefixes. adequate – inadequate available – unavailable desirable – undesirable limited – unlimited match – mismatch natural – unnatural pure – impure purified – unpurified purity – impurity satisfactory – unsatisfactory sorption – adsorption source – resource sufficient – insufficient suitable – unsuitable to move – to remove treated – untreated 11. Transform as in the models. Model 1 “Verb  Noun”: to define a term  definition of a term To deliver water; to supply water; to disinfect water; to treat sewage; to soften hard water; to provide water supply; to pump water; to add flu- orine; to fluoridate water; to acquire, treat, transmit, store and distribute water; to remove pollutants; to neutralize undesirable impurities; to pro- vide consumers with water; to accomplish water purification; to con- struct a plant; to build an industrial enterprise. Model 2 “Noun  Noun”: distribution of water  water distri- bution Supply of water; systems of water supply; demand for water; water for drinking; high standards of purity; acquisition, treatment, transmis- sion, storage and distribution of water; collection of water; extreme shortage of water; facilities for water storage; conservation of water; 38 plants for water purification; a facility for water storage; breaks of pipe- lines; filtration and disinfection of water; transportation of water. 12. Insert the appropriate word. (1) contamination, demand, disastrous, engineering, methods, sewage dis- posal systems, supply of water, treatment, water sources The importance of a sufficient ______ for domestic and industrial purposes has long been a deciding factor in the location of cities and towns. Early people realized this need and look advantage of natural ______ by establishing their settlements in close proximity to them. Early people had no need of ______ structures to supply their water. As man`s communities grew on population, the ______ for water in- creased and the need for protection of the source of water increased and the need for protection of the source of water supply against the possibil- ity of ______ became evident. Progress and civilization have called for elaborate and various systems and ______ of water treatment. Today water may be taken from any sources of water for human con- sumption after it has undergone a preliminary ______ to assure its puri- ty. Man uses water for domestic and sanitary purposes and returns it to the source through ______ . Industry likewise replaces water diverted to its use. Hence the cycle is completed but it is of prime importance that the supply be protected against pollution, for if it fouls no one can pre- dict how ______ may be the results. (2) abundance, conduit, distribution system, fire, industry, reservoir, short- age, street, treatment plant, well A water supply system is an arrangement for transporting water from areas of ______ to an area of ______ . This includes works for the col- lection, transmission, treatment, storage, and distribution of water for 39 homes, commercial establishments, ______ and irrigation, as well as for such public needs as ______ fighting and ______ flushing. A water-supply system consists essentially of the following elements:  a source of supply which may be a lake, stream, spring, or ______;  a ______ for storing water for use during periods when demand is greater than the daily flow of water;  conveying the water from the source of supply to the community is accomplished by means of a pipeline or a ______;  removing impurities from the water to make it suitable for use re- quires a ______;  a ______ of pipes is used for delivering the water throughout the various streets of the community. 13. Match the terms and their definitions. aqueduct, component, delivery, elaborate, engineered, engineering, maintenance, occur, pipeline, reservoir, treatment a. a large natural or artificial lake used as a source of water supply b. a long pipe, typically underground, for conveying oil, gas, etc., over long distances c. a part or element of a larger whole d. an artificial channel for conveying water, typically in the form of a bridge supported by tall columns across a valley e. designed, developed, constructed f. happen; take place; exist g. involving many carefully arranged parts or details; detailed and complicated in design and planning h. the branch of science and technology concerned with the design, building, and use of engines, machines, and structures i. the process of keeping something in good condition j. the supply or provision of something k. the use of a chemical, physical, or biological agent to preserve or give particular properties to something 40 14. Make a summary of the text according to the following plan. 1. The title of the text is “…” . 2. The text is devoted to … . 3. Such problems as… are touched upon in the text. 4. The text consists of … parts. 5. The first part deals with … . 6. The second (third, forth, etc.) part describes … . 7. The main idea of the text is to show … (to underline … / to prove … / to inform the reader about ...). 8. In my opinion, the text is useful / informative / interesting. It is worth reading. 15. Skim over the text. Answer the following questions. Text B. The Scheme of Water Supply In general, water supply can be represented as the following scheme: Pict. 6. The General Scheme of Water Supply Water supply systems get water from a variety of sources. Water sources include: 1. underground sources (groundwater from aquifers, artesian water); SUMMARIZING READING PRACTICE water acquisition [collection]  water storage  water treatment [purification]  water distribu- tion  water consumption  wastewater [sewage] disposal 41 2. surface water (water from rivers, lakes, reservoirs, as well as seas through desalination); 3. water accumulation and conservation. The water is then, in most cases, purified, disinfected through chlo- rination and sometimes fluoridated. Treated water then either flows by gravity or is pumped to reservoirs which can be elevated (e.g. water tow- ers) or can be on the ground. Having been treated, water is to be distributed to all the water con- sumers served by the area water undertaking. Methods of water distribu- tion vary. For towns and cities, water companies treat water collected from wells, lakes, rivers, and ponds and distribute it to individual build- ings. In rural areas water is commonly obtained directly from wells. The construction and maintenance of a water distribution system for a large city is a complex operation since there must be at least one water main in each street. A water main is a main line in a water supply sys- tem. The basic elements of a typical distribution system are shown be- low: Pict. 7. The Main Elements of a Water Distribution System The layout of water mains is greatly dependent on local conditions and topography. Water mains can be divided into three classes: 1. a trunk main is the main supply line between the treatment plant and service reservoirs or water towers; 2. a secondary main is a supply line distributing water from the service reservoirs to the street service mains. In some cases they provide sup- plies to large industrial consumers; 3. service mains are the pipes along each street to which individual con- sumers are connected. water treatment plant trunk main service reservoir secondary main street mains 42 Once water is used, wastewater is typically discharged into sewerage and treated in a wastewater treatment plant (also called a sewage treat- ment works) before being discharged into a river, lake or the sea or re- used for landscaping, irrigation or industrial use. Sewerage (also called a sewerage system, a sewage system, a sewer system, a collecting system, drainage, sanitary piping) is intended for the provision of drainage (sewage disposal) by sewers. A sewerage network (also called a sewer network or a drainage sys- tem) is a part of the sewerage system; it is a complex of underground pipes (pipelines) and sewers for the collection and disposal of sewage from populated localities and industrial enterprises to the sewage treat- ment works. Plumbing [a plumbing system] is installed in a building and designed for the supply of water and the elimination of wastes. It is the system of pipes, tanks, fittings, and other apparatuses required for the water supply, heating and sanitation in a building. The general scheme of water supply may vary depending on specific conditions. 1. What is the general scheme of water supply? 2. What sources do water supply systems get water from? 3. In most cases, water is treated and disinfected, isn’t it? 4. How is water distributed to the water consumers? 5. Is a water main a main line in a water supply system? 6. What are the basic elements of a typical distribution system? 7. What classes can water mains be divided into? 8. Where is wastewater typically discharged into? 9. Is sewerage intended for the provision of drainage or water stor- age? 10. A sewerage system is a complex of underground pipes and sewers, isn’t it? What do they serve for? 11. What is a plumbing system designed for? 12. What apparatuses does plumbing include? 13. What does the general scheme of water supply depend on? 43 16. Read the following text and speak on the main components and facilities of water supply systems. Text С. The Main Components and Facilities of a Water Supply System A water supply system typically consists of the following compo- nents: 1. a watershed or geographic area that collects water; 2. a source of supply, or a reservoir of raw (untreated) water (above or below ground) where the water accumulates (e.g. a lake, river, stream, spring, well, groundwater from an underground aquifer); 3. a reservoir for storing the water for use during periods when de- mand is greater than the daily consumption of water; 4. an underground pipeline or a ground-level conduit (an aqueduct) for conveying the water from the source of supply to the community; 5. water treatment facilities (also called “water treatment plants [sta- tions / works]” or “water purification plants [stations / works]”) for re- moving impurities from the untreated water to make it suitable for vari- ous uses; 6. a pipe network (a distribution system of pipes, usually under- ground) for delivering the treated water to the consumers (which may be residential apartment buildings and private houses, industrial and com- mercial establishments, educational and medical institutions) and other usage points (such as fire hydrants); 7. wastewater treatment facilities (also called “wastewater treatment plants [stations / works]”, or “sewage treatment plants [stations / works]”); 8. water storage facilities (reservoirs, water tanks, or water towers for larger water systems; cisterns or pressure vessels for smaller water sys- tems). Tall buildings may also need to store water locally in pressure vessels in order for the water to reach the upper floors. Some systems are simpler and consist only of a source of supply, a main pipeline, and a small number of distribution piping; others are more complicated and include, in addition to elements previously listed, distri- bution reservoirs, additional water pressurizing components (pumping plants / stations), and other accessories. 44 All these water supply system components are integrated into water infrastructure - the stock of basic water facilities and capital equipment needed for the functioning of a country or area. For the purposes of acquisition of water from a variety of natural wa- ter sources, its treatment, transmission, storage, and distribution to the consumers a number of water supply facilities are utilized:  water intake structures [facilities];  water-pumping facilities [stations / plants] supplying water to the point of its treatment;  water treatment facilities [structures / stations / plants / works], also called water purification facilities [structures / stations / plants / works];  collection [collecting / accumulator / pipeline] tanks for puri- fied water;  water-pumping facilities [stations / plants] supplying the puri- fied water to towns, cities or industrial enterprises;  water conduits, aqueducts, and water mains [water-supply net- works] serving for water delivery to the consumers; 45  plumbing [plumbing systems] installed in a building and de- signed for the supply of water and the elimination of wastes. Plumbing is a system of pipes and fixtures installed in a building for the distribution and use of potable (drinkable) water and the removal of waterborne wastes. It is usually distinguished from water and sewage systems that serve a group of buildings or a city. A complete water supply system is known as a waterworks. Some- times this term is specifically applied to pumping stations, treatment sta- tions, or storage facilities. Storage facilities are provided to reserve extra water for use when demand is high and, when necessary, to help main- tain water pressure. Treatment stations are places in which water may be filtered to remove suspended impurities, aerated to remove dissolved gases, or disinfected with chlorine, ozone, ultraviolet light, or some other agent that kills harmful bacteria and microorganisms. Sometimes hard water is softened through ion exchange. Salts of iodine and fluorine which are considered helpful in preventing goiter and tooth decay are sometimes added to water in which they lack. Not all water supply systems are used to deliver drinking water. Sys- tems used for purposes such as industry, irrigation and fire fighting oper- ate in much the same way as systems for drinking water, but the water need not meet such high standards of purity. In most municipal systems hydrants are connected to the drinking water system except during peri- ods of extreme water shortage. Because many cities draw water from the same water body into which they discharge sewage, proper sewage treatment has become increasingly essential to the preservation of sup- plies of useful water. 17. Read the following text and characterize domestic, public and industrial water supply. Text D. Domestic, Public and Industrial Water Supply Water supply is available water provided to fulfill a particular need. If the need is domestic, public, commercial, industrial, or agricultural, the water must fulfill both quality and quantity requirements. Water supply systems are subdivided into several branches according to the purpose of facilities they service: 46 1. domestic water supply; 2. public water supply; 3. industrial and commercial water supply. Water use in agriculture (for irrigation) is considered separately. Domestic and Public Water Supply. Of all municipal services, pro- vision of potable water is perhaps the most vital. All people depend on water for satisfying numerous domestic (household) needs indoors and outdoors. Domestic water use just covers self-supplied domestic water with- drawals by those people and organizations that use their own wells to supply their water, as opposed to public-supplied (public-service) water. Water generally gets to our homes in one of two ways. Either it is de- livered by a city water supply organization (utility), or people supply their own water, usually from a well. So, water delivered to homes is called “public-supplied / public-service” and water supplied by people themselves is called “self-supplied”. No doubt, the first public-supply water system was when Jack the Caveman* was hired by his neighbours to fetch a bucket of water from the Dinosaur River in exchange for some delicious prehistoric bran muf- fins**. Today organized systems exist all over the world. Their aim is to get water, clean it and deliver it to local residents. When the population was a lot more rural, people used to have to dig their own wells and create storage tanks for their water sup- ply. But with the majority of urban popula- tion the public-supply water systems do that work for us. All we do is turn on the tap and pay the bills! During times of droughts, floods, earthquakes, or other emergencies, vigorous efforts must be made to maintain public water supplies. Industrial Water Supply. Water supply systems must also meet re- quirements for commercial and industrial activities. The Industrial Revolution was the rapid development of industry that occurred in Britain in the late 18th and 19th centuries and brought about the introduction of machinery. It was characterized by the use of steam 47 power, the growth of factories, and the mass production of manufactured goods. Water has always played a critical part in implementation of eve- ry industrial process. It is estimated that now about 22% of world-wide water use is industrial. The demand for water is sure to increase in fu- ture. Though water consumption depends on the region, as a whole, in- dustrial water usage is lower than agricultural use. The most important purposes of industrial water consumption are cooling, scouring, washing, dampening, steam generation, hydraulic transport, etc. The use of water for cooling exceeds all other kinds of water consumption as it is used in such branches of industry as metallur- gy, oil-refining industry, chemical industry, etc. In general, the largest water users are enterprises of metallurgical, chemical, oil-refining, petro- chemical, and machine-building industry, as well as thermal power sta- tions. Industry also uses water to dissipate and transport waste materials. In fact, many streams are now overused for this purpose, especially water- courses in urban centres. The use of watercourses for waste dispersal degrades the quality of the water and may reduce its usefulness for other purposes. This is especially true if the industrial wastes are toxic. *Jack the Caveman пещерный человек **bran muffins оладьи из отрубей 18. Read the texts of Unit 2 again and make notes under the follow- ing headings. Then use your notes to talk about Water Supply Sys- tems and The General Scheme and the Main Components and Facili- ties of Water Supply Systems. 1. Water supply. 2. Water supply systems. 3. The general scheme of a water supply system. 4. Water distribution systems. 5. The main components and facilities of a water supply system. 6. Domestic, public and industrial water supply. FOLLOW-UP ACTIVITIES 48 Unit 3 Conventional Water Treatment “Water has no taste, no color, no odor; it cannot be defined, art relished while ever mysterious. Not necessary to life, but rather life itself. It fills us with a gratification that exceeds the delight of the senses.” ANTOINE DE SAINT-EXUPERY (1900-1944) “If there is magic on this planet, it is contained in water.” LORAN EISELY 1. Read the following international words and guess their meaning. Mind the stressed syllables. Prove that these words are international ones. Model: atom ['ætəm] – атом, мельчайшая частица analysis [ə'næləsɪs] (pl. analyses [ə'næləsiːs]) analyze ['æn(ə)laɪz] atmospheric [ˌætməs'ferɪk] bacteriologically [bækˌtɪərɪə'lɔʤɪk(ə)lɪ] chlorine ['klɔːriːn] climatic [klaɪ'mætɪk] colloidal [kə'lɔɪd(ə)l] microbiological [ˌmaɪkrəuˌbaɪə'lɔʤɪk(ə)l] microorganism [ˌmaɪkrəu'ɔːg(ə)nɪz(ə)m] nature ['neɪʧə] nitrate ['naɪtreɪt] objective [əb'ʤektɪv] organic [ɔː'gænɪk] original [ə'rɪʤ(ə)n(ə)l] VOCABULARY WORK 49 composition [ˌkɔmpə'zɪʃ(ə)n] concentration [ˌkɔns(ə)n'treɪʃ(ə)n] copper ['kɔpə] crystal ['krɪst(ə)l] cyanobacteria [saɪˌænəubækˈtɪəriə] detergent [dɪ'tɜːʤ(ə)nt] geology [ʤɪ'ɔləʤɪ] hepatitis [ˌhepə'taɪtɪs] identify [aɪ'dentɪfaɪ] industry ['ɪndəstrɪ] inorganic [ˌɪnɔː'gænɪk] ion ['aɪən] irrigation [ˌɪrɪ'geɪʃ(ə)n] landscape ['læn(d)skeɪp] manganese [ˌmæŋgə'niːz] matter ['mætə] mechanical [mɪ'kænɪk(ə)l] mercury ['mɜːkjurɪ] methyl ['meθ(ə)l] microbial [maɪ'krəubɪəl] parameter [pə'ræmɪtə] period ['pɪərɪəd] pesticide ['pestɪsaɪd] physicochemical [ˌfɪzɪkəuˈkemɪk(ə)l] product ['prɔdʌkt] progress ['prəugres] protection [prə'tekʃ(ə)n] radiological [ˌreɪdɪəu'lɔʤɪk(ə)l] radium ['reɪdɪəm] safe [seɪf] special ['speʃ(ə)l] suspension [sə'spenʃ(ə)n] technological [ˌteknə'lɔʤɪk(ə)l] tendency ['tendənsɪ] topography [tɔ'pɔgrəfɪ] toxic ['tɔksɪk] type [taɪp] typically ['tɪpɪk(ə)lɪ] universal [ˌjuːnɪ'vɜːs(ə)l] uranium [juə'reɪnɪəm] 2. Translate the following words and phrases and memorize them. NOUNS AND NOUN PHRASES alga (pl. algae) bacterium (pl. bacte- ria) compound detergent dimension environment fertilizer foreign matter fungus (pl. fungi) impurity microorganism origin particle pesticide plumbing polluted [contaminat- ed] water solution solvent suspension untreated water virus waste effluents water analysis (pl. analyses) water pollutant [con- taminant] water pollution [con- tamination] water quality water sampling water source water treatment [puri- fication] water user 50 VERBS AND VERBAL PHRASES to analyze to contain to deteriorate to determine to dissolve to take into account ADJECTIVES AND PARTICIPLES clean coarse colloidal crystal clear disease-causing dissolved fine harmful impure inorganic microbial non-settling organic palatable potable pure suspended undesirable 3. Match the English and Russian equivalents. (1) 1. aquatic health 2. composition of natural water resources 3. health of the commu- nity 4. human activities 5. natural landscape fea- tures 6. naturally occurring 7. of natural and man- made origin 8. palatable potable wa- ter 9. particular purpose 10. premises 11. primary objective 12. scientific measure- ments 13. technological progress 14. water sampling and analysis a. (научно-)технический прогресс (единое поступательное развитие науки и техники) b. вкусная питьевая вода c. встречающийся в природе; природ- ный (о явлении) d. главная [основная] цель e. деятельность человека f. естественные особенности местно- сти g. здание (напр., предприятия) с при- легающими постройками и участком h. здоровье населения i. конкретная цель j. научные подсчеты k. отбор проб воды и анализ ее хими- ческого состава l. природного и искусственного про- исхождения m. санитарное состояние водоема n. состав естественных [природных] водных ресурсов 51 (2) 1. (undesirable) foreign matter [impurity / ma- terial] 2. coarse suspension 3. colloidal state 4. cyanobacteria (blue- green algae) 5. dissolved organic mat- ter 6. dissolved solids 7. fine non-settling parti- cles 8. in solution 9. in suspension 10. suspended solids [par- ticles] 11. to be free from / of a. (нежелательная) примесь; посторон- нее вещество b. в растворе c. взвешенные (твердые) частицы, частицы во взвешенном состоянии d. во взвешенном состоянии, взвешенный e. грубая [грубодисперсная] суспензия f. коллоидное состояние g. мелкие не оседающие [не отстаива- ющиеся] частицы h. не содержать; не иметь i. растворенное органическое вещество j. растворённые в воде вещества; общее количество органических и неорга- нических соединений, содержащихся в воде или сточных водах k. цианобактерии, сине-зелёные водо- росли (группа крупных бактерий, способных к фотосинтезу, сопро- вождающемуся выделением кислоро- да) 4. Read the text. Using a dictionary, translate it in writing. TEXT A. Water Quality. Water Pollution and Water Treatment “High quality water is more than the dream of the conservationists, more than a political slogan; high quality water, in the right quantity at the right place at the right time, is essential to health, recreation, and economic growth.” EDMUND S. MUSKIE, U.S. Senator, speech, 1 March 1966 READING PRACTICE 52 The development of human society, the growth of civilization and so- cial and technological progress has resulted in the changing of the com- position of natural water resources. Natural waters contain a considerable amount of the products of mechanical, chemical and biological pollution. Untreated water contains a number of contaminants of natural and man- made origin, the presence of which is undesirable or dangerous. For better understanding the process and objectives of water treat- ment, we should consider the nature of water pollution and the notion of water quality. Water pollution is contamination of water by undesirable foreign matter (materials such as waste effluents, chemicals, detergents, and fer- tilizers and pesticides) which deteriorates water quality. Water quality has a microbiological and a physicochemical dimension. There are thou- sands of parameters of water quality. The type and extent of water treatment depends on the quality of the water source. The better the quality, the less treatment is needed. In its purest form, water is simply H2O; that is, two atoms of hydro- gen attached to each atom of oxygen. Water is called the "universal sol- vent" because of its strong tendency to dissolve other substances. Be- cause water is such a good solvent, in the environment it will always contain dissolved or suspended impurities. The quality of water is determined by the presence of various sub- stances of organic and inorganic origin, as well as microorganisms in it. Undesirable impurities can be contained in water in three different states: 1 – in suspension – as separate suspended solids (coarse suspension); 2 – in colloidal state; 3 – in solution – as dissolved solids. All identified water contaminants [pollutants] are typically divided into the following types:  suspended solids (fine, non-settling particles of any solid);  heavy metal ions (ions of metals of relatively high density);  dissolved organic matter (compounds, chiefly of biological origin, containing carbon);  microorganisms (microscopic organisms, esp. a bacterium, virus, or fungus); 53  phytoplankton (plankton consisting of microscopic plants) / zoo- plankton (plankton consisting of small animals and the immature stages of larger animals). Another classification of pollutant foreign matter can be made into:  non-living water contaminants;  living water contaminants (many of which are disease-causing). The types of impurities found in water can be divided into four groups: microbial, physical, chemical, and radiological. Types of Impurities Examples Microbial (Microorganisms) Bacteria Viruses Protozoa Other Campylobacter, Legionella Hepatitis Cryptosporidium, Giardia Cyanobacteria (blue-green algae) Physical Colour Taste and odour Appearance Iron, dissolved organic matter Methyl isoborneol Silt, suspended particles, plankton Chemical Naturally occurring Agricultural Water treatment Plumbing Industrial Manganese, nitrate Atrazine, chlordane Chlorine, fluoride Lead, copper Polyaromatic hydrocarbons, mercury Radiological Naturally occurring Radium, uranium Pict. 8. Types of Impurities Found in Water “Water quality” is a term used to describe the chemical, physical, and biological characteristics of water, usually in respect of its suitability for a particular purpose (for drinking, industrial purposes, irrigation, recrea- tion, etc.) Although scientific measurements are used to define water quality, it’s not a simple thing to say “this water is good/ pure”, or “this water is bad/ impure”. There are complex interconnections among fac- 54 tors such as surface and ground water, atmospheric and climatic factors, natural landscape features (such as geology, topography, and soils), hu- man activities, and aquatic health which must be taken into account in analyzing water quality. The quality of water from natural water sources as well as water qual- ity requirements for various water users vary greatly. By analyzing water from natural sources the presence of various sub- stances and microorganisms is determined. For obtaining the correct characteristics of water from the given water source, water sampling and analyses should be done for a long period of time in order to take into account seasonal changes of water quality. Water treatment is purification of water to make it suitable (i.e. pota- ble and palatable) for human consumption or for other purposes. It is any of several physical and chemical processes (or a combination of these processes) in which undesirable impurities and pollutants in water are removed or neutralized. The primary objective of water treatment is the protection of the health of the community. Palatable potable water is the water that must be bacteriologically safe, free from toxic or harmful microorganisms, chemicals or substances, as well as crystal clear and comparatively free of turbidity, colour, odour and taste. Excessive hardness and high con- centration of dissolved solids are also undesirable, particularly for indus- trial purposes. Industrial requirements may be even more stringent; many industries provide special treatment on their own premises. 5. Decide whether the following statements are true or false accord- ing to the text. 1. Factors such as the development of human society, the growth of civi- lization and social and technological progress have resulted in the changing of the composition of natural water resources. 2. There is no obvious interconnection among water quality, water pollu- tion and water treatment. 3. Water treatment is the presence of undesirable impurities in water. COMPREHENSION CHECK 55 4. Water pollution is the removal of undesirable foreign matter from wa- ter. 5. Water pollution is contamination of water by undesirable foreign mat- ter which improves water quality. 6. There are no parameters of water quality. 7. The worse the quality of water, the more water treatment is needed. 8. In its purest form, water is simply H2O; that is, two atoms of hydrogen attached to one molecule of oxygen. 9. Since water is a good solvent, in the environment it will always contain dissolved or suspended impurities. 10. Undesirable impurities can be contained in water in three different states: in suspension, in colloidal state and in solution. 11. Water contaminants include dissolved solids and suspended organic matter. 12. Pollutants may be either living or non-living, either of natural or of man-made origin. 13. Many living microorganisms in water are disease-causing ones. 14. The types of impurities found in water can be divided into microbio- logical, physicochemical and radioactive. 15. Manganese, chlorine, copper, lead and mercury are examples of physi- cal water impurities. 16. “Water quality” is a term which describes chemical and physical char- acteristics of water. 17. Water can be used for various purposes: for drinking, industrial pur- poses, irrigation, recreation, etc. 18. In analyzing water quality, numerous factors must be taken into ac- count. 19. Water sampling and analyses are done to determine the presence of various substances and microorganisms in water from natural sources. 20. Only a combination of several physical and chemical processes in which undesirable impurities in water are removed or neutralized can be called water treatment. 21. Palatable drinking water must not contain toxic or harmful microorgan- isms, chemicals or substances. 22. Drinking water must always be purer than water for industrial purpos- es. 56 6. Answer the following questions. 1. What are the main reasons for the recent changing of the composi- tion of natural water resources? 2. Why should we consider the nature of water pollution and the no- tion of water quality? 3. What is water pollution? 4. What dimensions does water quality have? 5. Is there the only one parameter of water quality? 6. What does the type and extent of water treatment depend on? 7. What are the classifications of water pollutants? 8. What does the term “water quality” describe? 9. Is it easy to say “this water is good/ pure” or “this water is bad/ im- pure”? Why? Why not? 10. What are the factors which must be taken into account in analyzing water quality? 11. What is water treatment? 12. What is the primary objective of water treatment? 13. What is palatable potable water? 14. Why do many industries provide special water treatment on their own premises? 7. Choose the right variant according to the text. 1. Water pollution is the presence of undesirable foreign matter which … water quality. A. improves B. guarantees C. deteriorates D. controls 2. Water contaminants are typically divided into suspended …, dis- solved organic …, heavy metal …, etc. A. solids, ions, matter B. particles, matter, compounds C. solids, compounds, density D. solids, matter, ions 57 3. Dissolved organic matter is … of biological origin, containing carbon. A. components B. compounds C. a mixture D. particles 4. Microorganisms are microscopic organisms including … . A. microscopic plants, small animals and immature stages of larger animals B. bacteria, viruses, or fungi C. phytoplankton and zooplankton D. non-living and living water contaminants 5. Water treatment is the … of undesirable impurities and pollu- tants. (several answers possible) A. neutralization B. concentration C. consumption D. removal 6. There are complex … among factors such as surface and ground water, atmospheric and climatic factors, natural landscape fea- tures, human activities, and aquatic health. A. scientific measurements B. purposes C. requirements D. interconnections 8. Translate the following pairs of derivatives and memorize them. Verb – Noun to analyze – analysis to classify – classification to combine – combination to compose – composition to concentrate – concentration to fertilize – fertilizer to grow – growth to irrigate – irrigation to measure – measurement to pollute – pollutant / pollution LANGUAGE FOCUS 58 to consume – consumption to contaminate – contaminant / contamination to develop – development to drink – drinking to protect – protection to purify – purification to require – requirement to suit – suitability to treat – treatment Noun – Verb change – to change compound – to compound progress – to progress result – to result sample – to sample taste – to taste Noun – Adjective aqua – aquatic atmosphere – atmospheric bacteriology – bacteriological biology – biological chemistry – chemical climate – climatic danger – dangerous excess – excessive harm – harmful / harmless mechanic – mechanical microscope – microscopic nature – natural organism – (in)organic physics – physical prime – primary science – scientific society – social technology – technological Noun – Adjective chemical – chemical complex – complex human – human objective – objective sample – sample solid – solid Adjective – Noun dense – density hard – hardness present – presence suitable – suitability turbid – turbidity Noun – Noun pest – pesticide sample – sampling Adjective – Verb neutral – to neutralize Adjective – Adverb bacteriological – bacteriologically comparative – comparatively particular – particularly relative – relatively Verb – Participle II to contaminate – contaminated to dissolve –dissolved to pollute – polluted to suspend – suspended 59 to identify – identified to treat – (un)treated Compound Nouns / Adjectives disease-causing landscape man-made microscopic physicochemical phytoplankton topography zooplankton 9. Translate the following pairs of derivatives paying attention to the meanings of prefixes. biological – microbiological connection – interconnection danger – to endanger desirable – undesirable living – non-living mature – immature natural – unnatural organic – inorganic organism – microorganism pure – impure purity – impurity settling – non-settling soluble – dissoluble/ insoluble/ nonsoluble / unsoluble suitable – unsuitable to move – to remove to solve – to dissolve treated – untreated 10. Transform as in the models. Model 1 “Verb  Noun”: to pollute water  pollution of water To treat water, to purify water, to remove undesirable impurities, to neutralize an impurity, to contaminate water resources, to divide into types, to deteriorate water quality, to describe the characteristics of wa- ter, to protect the health of the community, to provide special treatment, to classify pollutants. Model 2 “Noun  Noun”: quality of water  water quality Treatment of water, purification of water, contamination of water re- sources, pollution of a water source, removal or neutralization of impuri- ties, properties of water, water on the surface, water in the ground, fea- tures of landscape, life of plants and animals, characteristics of water, requirements for water quality, sampling and analyses of water. 60 11. Insert the appropriate word or word combination. (1) disposal sites, dump, fertilizers, harmful wastes, leak, reduces, sewerage systems, wastes, water pollution There are several kinds of environmental pollution. They include air pollution, ______, soil pollution, and pollution caused by solid wastes, noise, and radiation. Water pollution ______ the amount of pure, fresh water that is avail- able for such necessities as drinking and cleaning, and for such activities as swimming and fishing. The pollutants that affect water come mainly from industries, farms, and sewerage systems. Industries ______ huge amounts of wastes into bodies of water each year. These ______ include chemicals, wastes from animal and plant matter, and hundreds of other substances. Some of these wastes may be hazardous. Industries dispose of much hazardous waste in ______ on land. But improperly-managed sites may ______ the wastes into underground water supplies that people use. Wastes from farms include animal wastes, ______ , and pesticides. ______ carry wastes from homes, offices, and industries into water. Nearly all cities have waste treatment plants that remove some of the most ______ from sewage. But even most of the treated sewage contains material that harms water. (2) algal blooms, contaminated, disease-causing, drinking water quality, green algae, lead and mercury, microbe, microbiology, microorganisms, naturally occurring 1. A microorganism, or ______, is a microscopic single-cell or multicel- lular organism (including bacteria, viruses, protozoa, fungi, algae, as well as microscopic plants such as ______ ). 2. The study of microorganisms is called ______, a subject that began with Anton van Leeuwenhoek's discovery of ______ in 1675, using a microscope of his own design. 61 3. Some microorganisms and chemical substances that can contaminate water supplies cause human disease. So, there are two broad categories of pathogenic ( ______ ) contaminants: 1. pathogenic microorganisms and 2. toxic substances, including:  Cyanobacteria (or blue-green algae) are very widespread in the envi- ronment and cause ______.  Chemicals. Organic contaminants include pesticides, industrial sol- vents, and chloroform. Inorganic contaminants include arsenic, nitrate, fluoride, and toxic metals such as ______ .  Radioactive contaminants. Strontium-90 and tritium are found in water as a result of nuclear weapons testing; radium, uranium and radon gas are ______ substances found in some groundwater sources. Pict. 9. Substances that Pollute Drinking Water Sources 4. There are also some nonpathogenic microorganisms in water. The most important microbiological measure of ______ is a group of bacteria called coliforms. Escherichia coli (E. coli) is a bacterium used as an indicator that water has been ______ with faeces. Polluted ground and surface water Livestock waste from farming Fertilizers and pesticides from agriculture and forestry Human waste from urban development Runoff from mining and quarrying Leaks from landfill sites Hazardous wastes from industry 62 12. Translate the words and word combinations in brackets. Water is called the "universal (растворитель)" because of its strong tendency to dissolve other (вещества). Since pure water is not found in nature (i.e., outside chemical laboratories), any distinction between clean water and polluted water (зависит от) the type and (концентрация) of impurities found in the water as well as on its intended use*. Water is said to be polluted when it contains enough (примеси) to make it (не- пригодный) for a particular use, such as drinking, swimming, or fishing. Although the (качество) of water is affected by natural conditions, the word “pollution” usually implies human activity as the source of (за- грязнение). Water pollution is caused primarily by the drainage of con- taminated waters into (поверхностные воды) or (грунтовые воды). Water pollution control, therefore, primarily involves the (удаление) of impurities before they reach natural (водоемы) or aquifers. *intended use – использование по назначению; предполагаемое использование 13. Match the terms and their definitions. anthropogenic, impurity, insoluble / nonsoluble / unsoluble / unsolvable, pollution, pure, quality, soluble/ dissoluble / solvable, suspended, treat- ment, water pollutant a. (chiefly of environmental pollution and pollutants) originating in hu- man activity b. (of a substance) able to be dissolved, esp. in water c. (of a substance) incapable of being dissolved, esp. in water d. a contaminant (contaminating material or agent) in water; in a broad sense, any physical, chemical, biological or radioactive matter in wa- ter e. a thing or constituent that impairs the purity of something f. being in suspension; not dissolved g. free from dirt, pollutants or unpleasant substances; free from any con- tamination h. the presence in or introduction into the environment of a substance or thing that has harmful or poisonous effects 63 i. the standard of something as measured against other things of a simi- lar kind; the degree of excellence of something j. the use of a chemical, physical, or biological agent to preserve or give particular properties to water 14. Choose the correct word. 1. coagulation / coagulants / to coagulate _______ is clumping together of very fine particles into larger particles using chemicals (_______) that neutralize the electrical charges of the fine particles and destabilize the particles. During _______, different chemical additives cause particles _______ and thus to settle. 2. flocculation / flocculants / to flocculate _______ is the process in which small particles clump together through gentle stirring. 3. filtration / filters / to filtrate _______ is the process in which particulate matter in water is removed by passage through porous media. _______ through beds of fine sand or through crushed anthracite coal can trap the suspended matter. 4. disinfection / disinfectants / to disinfect _______ is the the process designed to kill most microorganisms in wa- ter, including essentially all disease-causing bacteria. _______ destroy harmful bacteria and deactivate viruses. 5. aeration / aerator / air / to aerate _______ mixes air with water either by spraying the water into the air or by forcing small _______ bubbles through the water and is used primari- ly to reduce unpleasant odours and tastes. 6. softening / softener / to soften _______ is the process of removing calcium and magnesium from the water either by chemical precipitation or by ion exchange. 14. Make a summary of the text according to the following plan. 1. The title of the text is “…” . SUMMARIZING 64 2. The text is devoted to … . 3. Such problems as… are touched upon in the text. 4. The text consists of … parts. 5. The first part deals with … . 6. The second (third, forth, etc.) part describes … . 7. The main idea of the text is to show … (to underline … / to prove … / to inform the reader about ...). 8. In my opinion, the text is useful / informative / interesting. It is worth reading. 15. Skim over the text. Answer the following questions. Text B. Conventional Water Treatment. Pretreatment. Coagulation and Flocculation The conventional water treatment processes of greatest importance are coagulation and flocculation, sedimentation and flotation, filtra- tion, disinfection, as well as some additional treatment methods (sof- tening, aeration, carbon adsorption, distillation, deferrization, desali- nation, fluoridation, reverse osmosis, etc.). Preliminary treatment (pretreatment) is any physical, chemical or mechanical process used before water undergoes the main treatment pro- cess. During pretreatment:  coarse and fine screens or microstrainers may be used to remove rocks, sticks, leaves and other debris (screening);  presedimentation settles out sand, grit and gravel from raw wa- ter. Sedimentation occurs naturally in reservoirs and is accomplished in treatment plants by settling basins (also called sedimentation basins or settling [settlement / sedimentation] tanks). Plain sedimentation will not remove extremely fine or colloidal material within a reasonable time, and the process is used principally as a preliminary to other treatment methods;  adding of chemicals may be added to control the growth of al- gae. READING PRACTICE 65 Pict. 10. Conventional Water Treatment Process Coagulation is a separation or precipitation from a dispersed state of suspensoid particles. Coagulation removes small particles made up of microbes, silt, and other suspended material in the water. By adding chemicals called coagulants (coagulating agents) to the water, fine non- settling particles and colloidal material form larger, heavier masses of solids by coagulation. These masses, called floc, are large enough to set- tle in basins and to be caught on the surface of filters. A precipitate forms and causes a clumping of the bacteria and other foreign particles which then settle out during the several hours of sedimentation. In this way about 85% of the bacteria and suspended particles, as well as some 66 of the mineral elements (such as certain forms of iron) can be removed. The 3 main types of coagulants are inorganic electrolytes (alum, lime, ferric chloride, ferrous sulfate), organic polymers, and synthetic poly- electrolytes. Their application may have serious disadvantages because of possible negative effect on water consumers’ health. Considerable attention is focused on the development of new coagulants and floccu- lants, preferably from natural and renewable sources, which are safe for human health and biodegradable. Coagulation is usually accomplished in 2 stages: rapid mixing and slow mixing.  Rapid mixing serves to disperse the coagulants evenly through- out the water and to ensure a complete chemical reaction.  Slow mixing (also called flocculation) is longer gentle agitation for promoting particle collisions and enhancing the growth of flocs. A flocculant (flocculating agent) is a reagent added to a dispersion of solids in water to bring together the fine particles to form flocs. After flocculation the water flows into the sedimentation tanks where sedimentation or flotation is accomplished. 1. What are the most important conventional water treatment processes? 2. What is pretreatment (preliminary treatment)? 3. What is used to remove debris during pretreatment? How is this pro- cess called? 4. What is the purpose of presedimentation? 5. Where is sedimentation accomplished in water treatment plants? 6. Why is presedimentation used as a preliminary to other treatment methods? 7. What may be added to control the growth of algae during pretreat- ment? 8. What is coagulation? What is the purpose of this method? 9. What are coagulants (coagulating agents)? What are the three main types of coagulants? 11. How are heavier masses of solids formed by coagulation called? 10. Why may the application of coagulants and flocculants have serious disadvantages? 11. What are two stages of coagulation? How is slow mixing called? 12. For what purpose is a flocculant (flocculating agent) added? 67 13. Where are sedimentation and flotation accomplished? 16. Read the following text and speak on every stage of water treat- ment. Text C. Conventional Water Treatment. Sedimentation and Flotation. Filtration Sedimentation is the process of precipitation of sediment (matter that settles to the bottom of a liquid under the force of gravity) which is ac- complished in the sedimentation tank. A settling [sedimentation / precip- itation] tank is a tank in which suspended matter is removed either by quiescent settlement or by continuous flow and extended retention time to allow deposition. Sedimentation is used to remove settleable suspend- ed solids from waters which are high in sediment content after coagula- tion and flocculation processes. The sedimentation basin is located close to the flocculation basin so the transit between does not allow settlement or floc break up. Types of sedimentation tanks include:  rectangular with horizontal flow;  circular with radial flow;  hopper-bottomed with upward flow. The amount of floc settling out of the water depends on the retention time of the water in the basin (minimum 4 hours) and the depth of the basin (there are shallow or deep basins). As particles settle, a layer of sludge is formed at the bottom of the tank. Sludge is thick, soft, wet mud or a similar viscous mixture of liquid and solid components which is then removed and treated. The amount of sludge is usually 3-5% of the total volume of water treated. The cost of treating and disposing of sludge is a significant part of the operation cost of a water treatment plant. An alternative technique to sedimentation is flotation. It is the use of gas bubbles for increasing the buoyancy of suspended solids and rising the particles through the water to float on the surface of the water to be collected by a skimmer. The advantage of flotation over sedimentation is more complete removal of small or light particles in a shorter time. Filtration is the process of separating particles from a liquid by pass- ing the liquid through a medium (filter) that will not pass the particles. 68 Even after coagulation and flocculation, sedimentation does not remove all suspended impurities from the water to make it crystal clear and safe. The remaining non-settling floc still causes turbidity and contains micro- organisms. Suspended solids, colloidal material (algae, silt, iron, manga- nese), bacteria, germs, and other microorganisms are filtered out by pass- ing the water through a bed (a layer) of granular material (usually fine sand, gravel, garnet, pulverized coal or related substances), or through a matrix of fibrous material supported on a perforated core*. However, soluble materials such as salts and metals in ionic form are not removed by filtration. There are several classifications of filters:  according to the direction of flow through the filter bed (down- flow, upflow, biflow, radial flow, horizontal flow);  according to the type of filter media used (sand, coal, anthracite, coal-sand, multilayered);  according to flow rate (slow, rapid). Most modern water treatment plants now use rapid dual-media filters following coagulation and sedimentation. A dual-media filter consists of a layer of anthracite coal (for trapping most of the large floc) above a layer of fine sand (for trapping smaller impurities). This process is called in-depth filtration. In order to enhance in-depth filtration, mixed-media filters (with a third layer of fine-grained, dense mineral called garnet at the bottom of the bed) are used in some treatment plants. Rapid filters have certain advantages over slow filters: they require much less surface area, they are easier to clean and more reliable. Backwashing [backwash / back-flushing] is the reverse of the direction of flow through the filter for cleaning the filter bed clogged by particles removed from the water. The development in filter technology doesn’t stand still. Membrane fil- tration is increasingly becoming popular as an advanced water and wastewater treatment process. There are various possibilities of mem- brane filtration: microfiltration; ultrafiltration; reverse osmosis; nanofil- tration. After filtration, the water moves into a disinfection chamber. *a matrix of fibrous material supported on a perforated core – ре- шетка (сетка) из волокнистого материала, закрепленная на перфо- рированном каркасе 69 17. Read the following text and say what the purposes and charac- teristics of every stage of water treatment are and what activities each of them includes. Text D. Conventional Water Treatment. Disinfection. Additional Treatment Disinfection is the complex of measures for destroying agents of in- fection in the water with the help of various disinfectants. It is accom- plished both by filtering out harmful microorganisms and by adding dis- infectant chemicals for killing any pathogens which pass through the filters. There are several methods of treatment of water to kill living organ- isms, particularly pathogenic bacteria; chlorination (the application of chlorine or chlorine compounds – chloramine and chlorine dioxide) is the most common. Chlorine is a strong oxidant and a toxic gas. Chlorine dioxide has more recently been found effective as a destroyer of bacteria, as well as a means of removing undesirable tastes and odours. Chlorine has limited effectiveness against protozoans that form cysts in the water. Less frequently used methods include the use of ozone, ultraviolet light, or silver ions. Boiling is the favored household emergency meas- ure. The advantage of ozonation over chlorination is the production of fewer dangerous by-products and the absence of taste and odour. Ozone gas is a colourless toxic gas with powerful oxidizing properties, formed from oxygen by electrical discharges or ultraviolet light. It is an effective method to destroy harmful protozoans that form cysts in the water and to kill almost all other pathogens. Ozone is a very strong, broad spectrum disinfectant widely used in Europe. UV radiation (light) is very effective against inactivating cysts. The main disadvantage of ozonation and UV radiation is that they leave no disinfectant residual in the water, and it is sometimes necessary to add a residual disinfectant afterwards. 70 Some additional treatment methods include: 1. softening (the process of removing the dissolved calcium and magnesium salts that cause hardness in water, either by adding chemicals or by ion exchange); 2. aeration (the process of spraying water into the air used for taste and odour control and for removal of dissolved iron and manganese); 3. (activated) carbon adsorption (the process of adsorption impuri- ties by activated carbon (saturation carbon with impurities) used for re- moving dissolved organic substances that cause tastes, odours, or col- ours); Pict. 11. Water from the Source through the Water Treatment Process 71 4. distillation (the separation of dissolved solids from water by evap- oration and condensation); 5. deferrization (the removal of iron from water); 6. desalination (desalinization) (any of several processes that remove excess salt and other minerals from water); 7. fluoridation (the addition of sodium fluoride or other fluorine compounds to filtered water for reducing tooth decay); 8. reverse osmosis (a process by which water passes through a porous membrane which passes the water, but does not pass the impurities dis- solved in it). Water treatment plants employ a variety of treatment methods. These processes are used in varying combinations, depending on the character- istics of water and on its intended use. 18. Read the texts of Unit 3 again and make notes under the follow- ing headings. Then use your notes to talk about Water Quality, Water Pollution and Water Treatment and Conventional Water Treatment. 1. The interconnection among water quality, water pollution and water treatment. 2. Water composition. Types of water impurities. 3. Conventional water treatment. FOLLOW-UP ACTIVITIES 72 Pict. 12. Drinking Water Treatment: through the Ages before 1000 AD TURBIDITY •VISUAL CLARITY = WATER PURITY • TREATMENT: filtration through charcoal, exposing to sunlight, boiling, straining 1600's BIOLOGY • INVENTION OF THE MICROSCOPE leads to the discovery of bacteria in water • TREATMENT: percolation, filtration, boiling, distillation, coagulation 1700's MINERALS • ENLIGHTENMENT PERIOD PHILOSOPHY: right to pure, clean water = right of humanity • TREATMENT: filtration established an effective means of purification 1800's CHEMICALS •PHILOSOPHY BECOMES REALITY with first municipal water plant in Scotland • Dr. Snow proves WATERBORNE DISEASES in cholera outbreak • TREATMENT: slow and fast sand filtration, the beginning of chlorination 1900's INDUSTRIAL POLLUTION •GOVERNMENT REGULATION of clean water becomes standard •Man-made WATER POLLUTION becomes concern - pesticides, industrial sludge, organic chemicals • TREATMENT: chlorination becomes widespread 2000's WATERHEALTH purifies any local water source to WHO drinking water standards •ALWAYS PURE DRINKING WATER for healthy communities • TREATMENT: filtration, ultraviolet 73 Unit 4 Sewage (Wastewater) Treatment and Sludge Disposal “Between earth and earth's atmosphere, the amount of water remains constant; there is never a drop more, never a drop less. This is a story of circular infinity, of a planet birthing itself.” LINDA HOGAN 1. Read the following international words and guess their meaning. Mind the stressed syllables. Prove that these words are international ones. Model: problem ['prɔbləm] – проблема, задача, вопрос agent ['eɪʤ(ə)nt] apartment [ə'pɑːtmənt] basin ['beɪsn] channel ['ʧæn(ə)l] cosmetics [kɔz'metɪks] detergent [dɪ'tɜːʤ(ə)nt] establishment [ɪs'tæblɪʃmənt] fraction ['frækʃ(ə)n] fragment ['frægmənt] parasitic [ˌpærə'sɪtɪk] parking ['pɑːkɪŋ] pathogen ['pæθəʤən] pharmaceuticals [ˌfɑːmə'sjuːtɪk(ə)lz] recycle [ˌriː'saɪk(ə)l] residence ['rezɪd(ə)ns] risk [rɪsk] sanitary ['sænɪt(ə)rɪ] VOCABULARY WORK 74 institution [ˌɪnstɪ'tjuːʃ(ə)n] laboratory [lə'bɔrət(ə)rɪ] machine [mə'ʃiːn] manufacturing [ˌmænjə'fækʧ(ə)rɪŋ] material [mə'tɪərɪəl] microbe ['maɪkrəub] nutrient ['njuːtrɪənt] sedimentation [ˌsedɪmen'teɪʃ(ə)n] separator ['sep(ə)reɪtə] service ['sɜːvɪs] specific [spə'sɪfɪk] storm [stɔːm] technical ['teknɪk(ə)l] toilet ['tɔɪlət] 2. Translate the following words and phrases and memorize them. NOUNS AND NOUN PHRASES black water [blackwa- ter] discharge disposal domestic [sanitary / residential / house- hold] sewage grey water [graywater / gray water] effluent impurity industrial sewage [ef- fluent] remainder runoff sewage sewage [waste- water] treatment sewage [waste- water] treatment plant sewer storm sewage sullage waste wastewater [waste water ] VERBS AND VERBAL PHRASES to contain to convey to cope with to create to discharge to dispose of to flush to handle with to maintain to pick up to recycle to release to remove to require to water ADJECTIVES AND PARTICIPLES coarse domestic household identifiable putrescible raw sanitary untreated used 3. Match the English and Russian equivalents. 1. animal waste 2. black water [black- water] 3. commercial estab- a. серая вода (бытовые сточные воды, которые не включают смывы от туа- летов) b. вихревой сепаратор [водоотделитель] 75 lishment 4. dissolved and sus- pended impurities 5. domestic [sanitary, residential, house- hold] sewage 6. grey water [gray- water / gray water / sullage] 7. human waste 8. industrial sewage [effluent] 9. process waste 10. putrescible materials 11. raw sewage 12. storm sewage [wa- ter] 13. vortex separator 14. wastewater treatment plant c. водоочистная станция, станция водо- очистки; станция очистки сточных вод d. коммунально-бытовые сточные воды e. ливневые воды, сточные воды ливне- вой канализации, атмосферные сточ- ные воды f. неочищенные [необработанные] сточ- ные воды g. отходы животноводства h. подверженные гниению [разложению] вещества i. продукты жизнедеятельности человека j. производственные [технические] отхо- ды k. промышленные [производственные] сточные воды l. растворенные и взвешенные примеси m. торговое предприятие n. чёрная вода (сточные воды бытового и промышленного происхождения, включающие смывы от туалетов, продовольственные производственные отходы и др.) 4. Read the text. Using a dictionary, translate it in writing. Text A. Sewage. Types of Sewage Sewage is waste water that is created by residences, institutions, in- dustrial enterprises and commercial establishments, and is conveyed and disposed of via sewers. Wastewater is used water. Untreated wastewater in the underground pipes is badly contaminated and it can damage the environment and cause serious illnesses in humans. It needs to be made safe before send- READING PRACTICE 76 ing it back into the environment. Wastewater is commonly treated at the sewage treatment plant (STP). Sewage treatment is essential to maintain clean aquatic environment, as well as people’s health and quality of life. There are three types of sewage (wastewater): domestic sewage, in- dustrial sewage, and storm sewage. Domestic sewage carries used water from houses and apartments; it is also called sanitary sewage, residential sewage or household wastewater. Domestic sewage is slightly more than 99.9% pure water by weight. The rest, less than 0.1%, contains a wide variety of dissolved and suspended impurities. Although amounting to a very small fraction of the sewage by weight, the nature of these impurities and the large volumes of sewage in which they are carried make disposal of domestic wastewater a significant technical problem. The principal impurities are putrescible organic materials and plant nutrients, but domestic sewage is also very likely to contain pathogens (disease-causing microbes, bacteria, viruses) and parasitic worms. In addition to human wastes, raw sewage contains such substances as metals, dissolved gases, dirt particles, food fragments, oil and grease, soaps, detergents, bleaches, other cleaning agents, solvents, paint, pharmaceuticals, and cosmetics. Sanitary sewage can be divided into two types: grey water (sullage, or wastewater from kitchen and bathroom sinks, baths, showers, washing machines, dishwashers, and laundry) and black water (wastewater from toilets). Black water is a health risk if not treated properly because it con- tains human waste. Grey water is a lesser health risk. The separation of household waste into grey water and black water is becoming more common in the developed world (grey water is used for watering plants or recycled for flushing toilets). Industrial sewage, also called industrial effluent, is used water from manufacturing or chemical processes. Industrial wastewater usually con- tains specific and readily identifiable chemical compounds, depending on the nature of the industrial process. Process wastes from industries 77 can include, for example, silver from photofinishing laboratories, sol- vents from dry-cleaning services, and inks and dyes from printing hous- es. Storm sewage, or storm wa- ter, is runoff from precipitation that collects in a system of pipes or open channels. As rainfall runs over rooftops, roads, parking lots and the surface of the ground, it may pick up various contami- nants including suspended and dissolved solids, soil particles and other sediment, heavy met- als, organic materials and com- pounds, animal waste, and oil and grease. Some level of treat- ment is required before storm water is discharged directly into waterways. Examples of treatment processes include sedimentation ba- sins, wetlands, or vortex separators for removing coarse solids. 5. Decide whether the following statements are true or false accord- ing to the text. 1. There are three types of sewage: domestic sewage, sanitary sewage, and industrial sewage. 2. Wastewater is treated in the underground pipes. 3. Household wastewater is more than 99.9% dissolved and suspended impurities by weight. 4. Pathogens are disease-causing microbes, bacteria, viruses and para- sitic worms. 5. Grey water is wastewater from kitchen and bathroom sinks, baths, showers, washing machines, dishwashers and laundry which can be recycled for flushing toilets. Pict. 13. A Canadian harbor fouled with sewage COMPREHENSION CHECK 78 6. Industrial effluent contains specific biological compounds, depend- ing on the nature of the industrial process. 7. Such contaminants as oil and grease can be found in both domestic and storm sewage. 6. Answer the following questions. 1. What is wastewater? 2. Why does sewage need to be made safe before sending it back into the environment? 3. Where is sewage usually treated? 4. What is the main purpose of sewage treatment? 5. What types of sewage are there? What are the sources of these types of sewage? 6. What substances and impurities does domestic sewage contain? 7. What is the classification of sanitary sewage? 8. What does the nature of chemical compounds in industrial effluent depend on? 9. Why is some level of storm sewage treatment required before storm water is discharged into waterways? 7. Choose the right variant according to the text. 1. Wastewater is created … . (several answers possible) A. by residences B. by industrial enterprises C. by commercial establishments D. by pathogens (disease-causing microbes, bacteria and viruses) 2. Household wastewater is also called … . A. residential or domestic wastewater B. storm sewage C. industrial effluent D. sullage 3. Grey water is … than black water. A. more dangerous B. cleaner C. lesser 79 D. a more health risk 4. Grey water is used for watering plants or … for flushing toilets. A. recirculates B. reused C. discharged D. disposed of 5. Storm water is runoff from … . A. photofinishing laboratories, dry-cleaning services and printing houses B. kitchen and bathroom sinks, baths, showers, washing machines, dishwashers, and laundry C. toilets D. precipitation 6. Sanitary sewage may contain … . (several answers possible) A. putrescible organic materials and plant nutrients B. pathogens (disease-causing microbes, bacteria and viruses) and parasitic worms С. human wastes D. metals, dissolved gases, dirt particles, food fragments, oil and grease, cleaning agents, solvents, paint, pharmaceuticals, and cosmet- ics 8. Translate the following pairs of derivatives and memorize them. Verb – Noun to dispose – disposal to environ – environment to establish – establishment to flush – flushing to maintain – maintenance to manufacture – manufacturing to precipitate – precipitation to recycle – recycling to separate – separator / separation to serve – service to sew – sewer / sewage / sewerage to solve – solvent / solution to vary – variety to weigh – weight Noun – Adjective commerce – commercial pathogen – pathogenic LANGUAGE FOCUS 80 industry – industrial organ – (in)organic parasite – parasitic residence – residential sanitation – sanitary significance – significant Noun – Verb cause – to cause clean – to clean compound – to compound flush – to flush need – to need process – to process Verb – Adjective to identify – identifiable to process – process to vary – various Adjective – Noun ill – illness pure – (im)purity Adjective – Adverb bad – badly direct – directly proper – properly slight – slightly Verb – Participle II to call – called to develop – developed to dissolve – dissolved to suspend – suspended to treat – (un)treated to use – used Compound Nouns/ Adjectives bathroom dishwasher dry-cleaning household percent photofinishing rainfall rooftop runoff wastewater waterway wetland 9. Translate the following pairs of derivatives paying attention to the meanings of prefixes. (to) cycle – (to) recycle common – uncommon developed – undeveloped ground – underground human – inhuman likely – unlikely metal – nonmetal pure – impure purification – self-purification purity – impurity safe – unsafe surface – subsurface to move – to remove to solve – to dissolve 81 organic – inorganic treated – untreated 10. Transform as in the models. Model 1 “Verb  Noun”: To treat wastewater  treatment of wastewater To dispose of sludge, to contaminate waterways, to damage the envi- ronment, to maintain clean aquatic environment, to divide into types, to separate and drain waste, to water plants, to recycle grey water, to identi- fy chemical compounds, to discharge into waterways, to remove solids. Model 2 “Noun  Noun”: treatment of wastewater  wastewater treatment Particles of soil and dirt, sinks in kitchens and bathrooms, fragments of food, watering of plants, a system of pipes, processes of treatment, lots for parking, the surface of the ground, a basin for sedimentation, disposal of wastewater, disposal of sludge, discharge of water, recycling of grey water. 11. Insert the appropriate word or word combination. (1) effluent, large, origin, rain, remainder, reuse, secondary, suspended sol- ids, wash off, wastewater 1. All the water we use inside our houses and workplaces becomes ___ in the wastewater, or sewer pipes. 2. Wastewater from houses is 99.9% water, and the ___ (0.1%) is im- purities, organic and inorganic in ___ . 3. Many ___ industries have wastewater management systems to col- lect, treat, and ___ (where feasible) their own process waters*, while using public sewers** to discharge the human component of their wastewater. 4. Although some people assume that the ___ that runs down the street isn’t quite clean. Harmful substances that ___ roads, parking lots, and rooftops can harm waterways. 82 5. The major aim of wastewater treatment is to remove as much of the ___ as possible before the remaining water, called ___ , is dis- charged back into the environment. Primary treatment removes 50- 60% of suspended solids. ___ treatment removes more than 90% of suspended solids. *process water – производственная, техническая вода, отрабо- тавшая [отработанная] вода **public sewers – коллекторы городской канализации (2) composition, depending on, drain water, eutrophication, foundations, grey water, industrial process, microorganisms, mixture, pollutants, pro- cess water, surfaces Wastewater is a ___ of toilet water, grey water, industrial wastewater, drainage water, and, in a combined sewerage system*, also storm water. The composition of wastewater is a mixture of ___ coming from the dif- ferent sources. Principal pollutants in wastewater include organic material, ___ (bacteria, viruses, protozoa, microscopic fungi and algae), suspended solids, plant nutrients, pollutants from agriculture, and ___ . Domestic wastewater contains ___ from washing dishes, washing and bathing and toilet water urine and faeces. The content of industrial wastewater can vary greatly and depends on the type of ___ used. Source control and demand of treatment of ___ have gradually decreased the pollutants originating from industrial wastewater. Wastewater from restaurants and offices has a ___ similar to domes- tic wastewater. Drainage water is water from house ___ and groundwater leaking in- to the sewer pipes. The water originates from rainwater that has infiltrat- ed in the soil. The content of ___ is the same as that of groundwater. Storm water is runoff of rainfall that collects in a system of pipes or open channels. Pollutants in storm water originate from ___ such as streets and roofs that are washed with the rainwater. Pollutant content varies ___ the type of surface that the runoff comes from. 83 *a combined sewerage system - общесплавная [комбинированная] канализационная система 12. Translate the words and word combinations in brackets. Domestic (сточные воды) goes to a sewage treatment plant, where it is purified and recycled; much industrial wastewater, however, is fun- neled* into a (река), (ручей), or (океан) for subsequent recycling** by nature. Though nature can handle small quantities of certain wastes, (временный) or (долговременный / постоянный) damage has resulted from widespread disposal of this type. In some cases, legislation has prohibited the (сброс) of harmful (отходы), while in others (предварительная очистка) has been required. *to funnel - просачиваться, выходить наружу **recycling - переработка отходов 13. Match the terms and their definitions. discharge, disposal, putrescible, sanitary, sewage sludge, sludge, sullage, waste, wastewater / sewage a. liable to decay; subject to putrefaction or decomposition b. material or substance that is not wanted; the unusable remains or byproducts of something c. of or relating to the conditions that affect hygiene and health, esp. the supply of clean drinking water; hygienic and clean d. semiliquid waste obtained from the processing of municipal sewage, often used as a fertilizer e. the action or process of throwing away or getting rid of something f. thick, soft, wet mud or a similar viscous mixture of liquid and solid components, esp. the product of an industrial or refining process g. to allow a liquid, gas, or other substance to flow out from where it has been confined; the action of allowing a liquid, gas, or other sub- stance to flow out from where it is confined h. waste from household sinks, showers, and baths, but not toilets i. waste water and excrement conveyed in sewers 84 14. Make a summary of the text according to the following plan. 1. The title of the text is “…” . 2. The text is devoted to … . 3. Such problems as… are touched upon in the text. 4. The text consists of … parts. 5. The first part deals with … . 6. The second (third, forth, etc.) part describes … . 7. The main idea of the text is to show … (to underline … / to prove … / to inform the reader about ...). 8. In my opinion, the text is useful / informative / interesting. It is worth reading. 15. Skim over the text. Answer the following questions. Text B. Sewage Treatment Process Sewage (wastewater) treatment is the process of removing contami- nants from wastewater, both industrial and domestic. It includes physi- cal, chemical, and biological processes to remove physical, chemical, and biological contaminants. Its objective is to produce environmentally safe sewage water (treated effluent) and a solid waste (sludge or biosol- ids) suitable for discharge or reuse back into the environment. Reuse is often for agricultural purposes, but more recently, sludge is being used as a fuel source. It used to be said that "the solution to pollution is dilution". Nature has an amazing ability to cope with small amounts of water wastes and pollution discharged into a body of water. A natural process of stream self-purification occurs. Densely populated communities generate such large quantities of sewage, however, that dilution alone does not prevent SUMMARIZING READING PRACTICE 85 pollution. This makes it necessary to treat wastewater to some degree before disposal. Sewage treatment plants (STPs) reduce pollutants in sewage to a level which nature can handle. The sewage treatment plant plays vital role in the process of removing the contaminants from sewage to produce liquid and solid (sludge) suitable for discharge to the envi- ronment or for reuse. Sewage can be treated close to where it is created (in septic tanks, biofilters, aerobic wastewater treatment systems), or collected and trans- ported via a network of pipes and pump stations to a municipal wastewater treatment plant. Industrial wastewater often requires special- ized treatment processes. Stages of conventional sewage treatment at the wastewater treatment plant involve: 1. pretreatment (preliminary treatment); 2. primary treatment; 3. secondary treatment; 4. tertiary treatment. Here is step-by-step guide describing what happens at each stage of the treatment process. Preliminary treatment removes materials that can be easily collected from the raw wastewater before they damage or clog the pumps and skimmers of primary treatment clarifiers. Pretreatment includes: screen- ing, grinding, sand and grit removal, dissolved air flotation, wastewater flocculation, prechlorination or preaeration, equalization. Screening (straining) is the removal of all large objects (wood, stones, dead animals) in the influent sewage water using a screen (a trash rake, a mechanically cleaned bar screen, a manually cleaned screen in smaller or less modern plants); the materials are then sent to a landfill. Sand and grit settlement is accomplished in a sand trap or a grit cham- ber where the velocity of the incoming wastewater is carefully controlled to allow the materials to settle. Screens, grinders, and sand and grit traps are provided for the protection of other equipment in the STP. Dissolved air flotation and wastewater flocculation aid in the removal of suspend- ed solids and oil in the primary clarifier and reduce the biological load- ing on secondary treatment processes. Prechlorination or preaeration may be required to prevent odour problems and to eliminate septic con- ditions where wastewater has abnormally long runs to the plant. Equali- 86 zation structures are used to regulate diurnal flow variations and to equalize flows to treatment facilities. Pict. 14. Process flow* diagram for a typical large-scale wastewater treatment plant *process flow – технологический маршрут; последовательность технологических операций 1. What is sewage (wastewater) treatment? 2. What is the purpose of sewage treatment? 3. What amazing ability does nature have? 4. Why doesn’t dilution alone prevent pollution in densely populated communities? 5. Industrial wastewater requires specialized treatment processes, doesn’t it? 6. What do stages of conventional sewage treatment involve? 7. What kinds of materials does pretreatment remove? 8. What methods does preliminary treatment include? 9. How are all large objects removed during screening (straining)? 87 10. Where is sand and grit settling accomplished? 11. Is prechlorination used to eliminate septic conditions, to remove suspended solids and oil, or to equalize diurnal flow variations? 16. Read the following text and speak on every stage of sewage (wastewater) treatment. Text C. Sewage Treatment Process (continuation) Primary treatment consists in temporarily holding the sewage in a quiescent basin called “primary clarifier” or “primary sedimentation/ settling tank”. The main purpose of primary treatment is the physical separation of solids and grease from the wastewater (heavy solids settle to the bottom while oil, grease and lighter solids float to the surface to be skimmed off). The settled and floating materials (sludge) are removed, separately treated or processed, and a homogeneous liquid is subjected to secondary (biological) treatment. As a result of primary treatment, 30- 40% of Biological Oxygen Demand (BOD) and 50% of Total Suspended Solids are removed. Primary clarifiers are equipped with mechanically driven scrapers that continually drive the collected sludge towards a hopper in the base of the tank from where it can be pumped to further sludge treatment stages. Secondary treatment is designed to degrade the biological content of the sewage (dissolved and suspended biological matter derived from human waste, food waste, soaps and detergent) using aerobic biological processes. The purpose of biological treatment is BOD reduction. The principle of the process is that simple bacteria (cells) eat the organic mat- ter which is transformed into cellular mass (floc) through their metabo- lism. The floc is precipitated at the bottom of a settling tank or retained as slime on solid surfaces. There are two broad types of biological treat- ment: 1. the treatment that includes mechanical means to create contact be- tween wastewater, cells and oxygen:  activated sludge (aerated sewage containing aerobic microorgan- isms that help to break it down); such aerobic biological wastewater treatment is accomplished in activated sludge tanks; 88  trickling filters and rotating biological contactors where the bi- omass (biological films of bacteria, protozoa and fungi) grows on the media’s surface and eats or otherwise reduces the organic content. 2. the treatment without mechanical means:  the sewage is made to flow by gravity through specially con- structed lagoons or wetlands where vegetation acts as a biological filter to the water. Tertiary treatment provides a final treatment stage to remove disease- causing organisms and to increase the effluent quality (of 10 parts per million BOD and 10 parts per million Total Suspended Solids) before it is discharged back into the environment. Tertiary treatment processes can be physical, biological, or chemical including:  sand filtration (to remove residual suspended matter) or activated carbon filtration (to remove residual toxins);  lagooning (to provide further biological improvement through storage in large artificial ponds or lagoons);  nitrogen and phosphorus removal;  disinfection (to reduce the number of microorganisms) using chlo- rine, ozone O3, or ultraviolet (UV) light;  odour removal. More than one tertiary treatment process may be used at any treat- ment plant. 17. Read the following text and say what the purposes of sludge treatment and disposal are. Text D. Sludge Treatment and Disposal Sludge is the residue that accumulates in the STP. It is solid matter that has settled out of suspension in sewage undergoing sedimentation in tanks or basins. Since a considerable quantity of sludge is produced dur- ing the sewage treatment process, treatment and disposal of sewage sludge are major factors in the design and operation of all water pollution control plants. Two basic goals of sludge treatment before final disposal are: 89  the reduction of sludge volume, which, in turn, reduces the costs of pumping and storage;  the stabilization of the organic materials (stabilized sludge does not have an offensive odour and can be handled without causing a nui- sance or health hazard). Treatment methods of sewage sludge may include a combination of the following processes:  thickening,  digestion,  dewatering,  disposal. Thickening is usually the first step in sludge treatment, because it is impractical to handle thin sludge, slurry of solids suspended in water. Thickening is usually accomplished in a tank called a gravity thickener. An alternative to gravity thickening is dissolved-air flotation. Digestion is a biological process in which organic solids are decom- posed into stable substances. Digestion reduces the total mass of solids, destroys pathogens, and makes it easier to dewater or dry the sludge. Most large STPs use a digestion system in which organics are metabo- lized by bacteria anaerobically (in the absence of oxygen), and in some STPs sludge digestion takes place aerobically (in the presence of oxy- gen). Both aerobic and anaerobic digestion converts about half of the organic sludge solids to liquids and gases. Dewatering is dehydration, or water removal. Digested sewage sludge is usually dewatered before disposal. Dewatered sludge still con- tains a significant amount of water (about 70%), but even at that mois- ture content, sludge no longer behaves as a liquid and can be handled as a solid material. Sludge drying beds provide the simplest method of de- watering. Drying is a combination of evaporation and gravity drainage through the sand. After about six weeks of drying, the sludge cake may have a solids content of about 40%. Alternatives to sludge drying beds include the rotary-drum vacuum filter and the centrifuge. Disposal. The final destination of treated sewage sludge usually is the land. Dewatered sludge can be:  buried underground in a sanitary landfill;  spread on agricultural land as a soil conditioner and fertilizer; 90  incinerated if a suitable site for land disposal is not available, as in urban areas (in the case of incineration, air pollution control is a very important factor);  dumped in the ocean (once an economical disposal method for many coastal communities, it is no longer considered a viable option);  reutilized as an energy resource in many advanced countries. 18. Read the texts of Unit 4 again and make notes under the follow- ing headings. Then use your notes to talk about Types of Sewage and Sewage Treatment. 1. Sewage. Types of sewage. 2. Wastewater composition. 3. Sewage treatment. 4. Sludge disposal. FOLLOW-UP ACTIVITIES 91 Pict. 15. How a water purification plant works 92 It is easy for us to take the quality of our drink- ing water for granted — when we turn on the tap, we expect safe, pleasant-tasting water to flow out. Long before water reaches our tap, carefully man- aged systems are in place protecting our water and making it safe to drink, from the water falling as rain to the point when it reaches our tap. Safe water is essential to sustain life — we all have a responsibility to make every effort to en- sure the quality of our drinking water. Water is essential for life. Our health depends on having an adequate supply of safe water — every day. It is important that we all take responsibility for the management of our water resources and work together with those responsible for the pro- vision of drinking water to ensure its use is sus- tainable. Water is important; let’s work together to maintain this precious resource! 93 Topical Vocabulary Aa (activated) carbon adsorption адсорбция активированным углем accessories приспособления; вспомогательное оборудование acid кислота acidity кислотность activated carbon активированный уголь activated sludge tank аэрационный бассейн activated sludge активный [активированный] ил (масса, состоящая из органических веществ и микроорганизмов, образующаяся в аэра- ционном бассейне и ускоряющая процессы окисления и очистки сточных вод) aeration аэрация aerobic digestion аэробное сбраживание [перегнивание] aerobic wastewater treatment аэробная (биологическая) очистка сточных вод (очистка сточных вод от органических загрязнений в специальных водоотстойниках с помощью аэробных микроорга- низмов) agent of infection возбудитель инфекционного заболевания alga (pl. algae) морская водоросль algal bloom "цветение воды", вызванное массовым развитием водо- рослей alkali щёлочь alkalinity щелочность, основность, щелочные свойства anaerobic digestion анаэробное сбраживание [перегнивание] appurtenance дополнительное устройство, дополнительное приспо- собление aquatic водяной; водный; акватический 94 aqueduct акведук; мост-водовод; водопровод; магистральный водо- провод; дюкер aqueous водный, водяной; водянистый aquifer водоносный слой [пласт, горизонт] (почвы) artesian [confined] water артезианская вода, артезианские [напор- ные] воды availability of water водообеспеченность Bb back-flushing обратная промывка (фильтра), промывка обратным потоком backwashing [backwash] обратная промывка (фильтра), промывка обратным потоком bed слой; горн. пласт; русло (реки); дно (океана, реки); водоносный пласт; водоупор; загрузка (фильтра); среда, наполнитель в фильтре или умягчителе biofilter биологический фильтр, биофильтр biosolids твёрдые вещества биологического происхождения; "био- солидс" (органический материал, получаемый в результате обра- ботки сточных вод) BOD (biochemical oxygen demand) БПК, биохимическая потреб- ность в кислороде boiling point температура [точка] кипения bore скважина buoyancy плавучесть, выталкивающая сила Cc cake кек, осадок на фильтре (слой твёрдых частиц, остающийся на фильтрующей поверхности после фильтрации суспензий) characteristic характерная черта; (характерная) особенность, свой- ство, атрибут, качество, признак chemical химическое вещество, химикат; pl. химикалии; химиче- ские продукты, реагенты  химический chlorination хлорирование chlorine хлор, Cl 95 cistern цистерна, бак; ёмкость, резервуар (для хранения воды) civil engineer инженер-строитель civil engineering гражданское строительство clarification осветление cleansing очистка; очищение coagulant коагулянт, коагулятор, коагулирующий агент, сгущающее вещество, сгуститель coagulating agent коагулянт, коагулятор, коагулирующий агент coagulation коагуляция, коагулирование, свёртывание; хлопьеобра- зование, флок(к)уляция coliform bacteria колиформные бактерии collecting system канализация, канализационная система collection [collecting / accumulator / pipeline] tank сборный резер- вуар, сборник colour цвет; цветность (воды) commercial (water) demand потребность торговли в воде; потреб- ность торговых предприятий в воде commercial (water) use водоснабжение на коммерческой основе complex of activities совокупность мероприятий complex of engineering structures комплекс инженерных сооруже- ний complex совокупность, комплекс, группа комплексный, сме- шанный, составной; трудноразрешимый, сложный; запутанный component компонент; составная часть, составной элемент compound состав; смесь; (химическое) соединение смешивать, комбинировать, сочетать, составлять conduit трубопровод; водопровод; водопроводная труба; акведук; водовод; канал contaminant загрязняющее вещество; загрязнение, (нежелательная) примесь continuity of water supply бесперебойность водоснабжения corrosive коррозийный; корродирующий, разъедающий corrosiveness коррозионная активность; агрессивность corrosivity коррозионная активность; агрессивность Dd 96 debris отходы; мусор deep water глубинная вода; донная вода; глубоководный участок (водоёма) deep well глубокая скважина deferrization обезжелезивание, удаление железа (из воды) demand спрос; потребность; требование; потребление, расход; нор- мативное водопотребление требовать; нуждаться desalination опреснение desalinization опреснение detergent очищающее [моющее] средство; детергент deteriorate ухудшать(ся), портить(ся), разрушаться, изнашиваться development развитие, расширение, развёртывание, рост; эволюция; разработка, опытно-конструкторские работы; создание; новое стро- ительство, застройка; pl. события dilution разжижение, разбавление; растворение; разведение; рас- твор; растворённое состояние discharge сброс, слив; спуск, выпуск сбрасывать; сливать; спускать, выпускать disease-causing болезнетворный (о микроорганизмах) disinfection дезинфекция, обеззараживание dispersal рассеивание dispose of удалять; устранять; избавляться от; сбрасывать, отводить (сточные воды) dissolve растворять(ся) dissolved air растворённый (в жидкости) воздух dissolved растворенный distillation дистилляция distribution pipe распределительная (водопроводная) труба domestic (water) demand потребность в воде для коммунально- бытовых нужд domestic (water) use коммунально-бытовое водопотребление, водо- потребление коммунально-бытового водоснабжения domestic water supply коммунально-бытовое водоснабжение drainage system канализационная сеть drainage дренаж; дренажная система; слив, сток, дренажная канава; канализация, канализационная система; дренирование, осушение; водосбор, водосборный бассейн 97 drinking water quality качество питьевой воды drinking water питьевая вода Ee effluent сток; сброс, отвод сточных вод (после очистки нечистот); сточные воды; промышленные отходы, отбросы;pl.(частично) очи- щенные сточные воды element элемент; составная часть engineering прикладной (о науке); технический, инженерный; ин- женерное искусство; машиностроение; инженерия; инжиниринг; строительство; техника, аппаратура; проектирование; конструиро- вание; разработка environmental engineer специалист в области охраны окружающей среды eutrophication эвтрофикация (зарастание водоёма водорослями) evaporation испарение; парообразование evapotranspiration эвапотранспирация, суммарное испарение (ис- парение плюс транспирация) Ff facilities оборудование, приспособления; здания (заводов и т.п.) filtration фильтрация, фильтрование floc флок, флоккулят, флоккулированный осадок (очень мелкая пу- шистого типа масса, образующаяся из мелкодисперсных частиц) flocculant флоккулянт, хлопьеобразующий (флоккулирующий) агент flocculating [flocculation] agent флоккулирующий агент, флокку- лянт; коагулянт, осаждающее вещество flocculation флок(к)уляция (вид коагуляции), хлопьеобразование, выпадение хлопьеобразного осадка flotation флотация fluoridation фторирование fluorine compound соединения фтора foamability вспенивание; пенообразование foreign matter (нежелательная) примесь; постороннее вещество 98 fractured rock раздробленная порода (с образованием осколков по плоскостям спайности минералов) fresh water пресная вода fungus (pl. fungi) гриб; плесень; древесная губка Gg gas газ; газообразное состояние  газообразный gaseous газовый, газообразный glacier глетчер, ледник gravity drainage самотечный дренаж gravity thickener гравитационный сгуститель gravity thickening гравитационное сгущение grit chamber [trap] песколовка; гравиеловка groundwater [ground water] грунтовые [подземные] воды, почвен- ная [грунтовая, подпочвенная, подземная] вода Hh H2O химическая формула воды handle управлять; справляться c; перемещать; обрабатывать; рабо- тать c; транспортировать; обращаться c; подавать hardness жесткость (воды) health здоровье homogeneous liquid однородная жидкость hopper-bottomed с воронкообразным дном horizontal flow горизонтальный поток hydrogen водород, H hydrologic cycle круговорот воды, влагооборот hydrologic гидрологический; водный Ii icecap ледниковый покров (в горах); полярный лёд impounding reservoir водохранилище impurity загрязнение, загрязненность; грязь; примесь, загрязняю- щее вещество 99 industrial (water) demand потребность промышленности в воде; потребность промышленных предприятий в воде industrial (water) use промышленное водопотребление industrial water supply промышленное [производственное] водо- снабжение infrastructure инфраструктура (промышленная, городская); сети обслуживания населения; инженерные коммуникации intake приёмное, впускное отверстие или устройство; водозаборное сооружение, водозабор; водоприёмник Ll lagoon лагуна; отстойный бассейн, отстойный пруд lagooning сброс и очистка сточных вод в прудах-отстойниках land disposal захоронение (отходов) в землю liquid жидкость жидкий, текучий Mm main магистраль; главный канал; трубопровод; pl. (водопроводная) сеть; линии энерго-, тепло-, газо- и водоснабжения; коммуникации главный, основной main line магистральный трубопровод; магистраль main pipeline магистральный трубопровод maintenance поддержание; сохранение; содержание и техническое обслуживание, уход; текущий ремонт; эксплуатация mechanically driven с механическим приводом medium (pl. media) способ, средство; середина, промежуточная ступень, промежуточная стадия; среда (вещество, в котором суще- ствует что-л.) melting point температура [точка] плавления [таяния] microorganism микроорганизм microscopic микроскопический; не видимый без микроскопа microstrainer сетчатый микрофильтр moisture влажность, сырость; влага molecule молекула, мельчайшая частица municipal water consumption городское водопотребление 100 Oo odour запах (обычно неприятный) oxygen кислород, О ozonation озонирование Pp palatable вкусный, приятный на вид, по запаху particle частица pathogen(e) патогенный [болезнетворный] микроорганизм, патоген pathogenic патогенный, болезнетворный, вызывающий заболевание per capita лат. на человека, на душу населения pH (hydrogen ion exponent) водородный показатель, отрицатель- ный логарифм концентрации ионов водорода (способ выражения кислотности или щёлочности среды по шкале от 0 до 14) physical state физическое [агрегатное] состояние phytoplankton растительный планктон, фитопланктон pipe network водопровод plankton планктон plumbing fixture водопроводная арматура; санитарно-техническое оборудование plumbing system водопровод, водопроводно-канализационная сеть (здания); внутридомовая система водоснабжения, газоснабжения и канализации; инженерное оборудование (зданий), сантехника plumbing водопроводное дело; водопроводно-канализационные ра- боты; слесарные работы; слесарно-водопроводные работы; про- кладка труб (в здании, сооружении); санитарно-технические рабо- ты; водопровод (в здании); водопроводно-канализационная сеть (здания); водопроводная система (здания); сантехническое оборудо- вание pond пруд; маленькое озеро; искусственный водоем, бассейн, за- пруда potable water питьевая вода preaeration предварительная аэрация prechlorination предварительное хлорирование 101 precipitate осадок  осаждать; осаждаться precipitation отстаивание; выпадение осадков; осадки; осаждение; выпадение осадка; осадок preliminary treatment предварительная очистка, обработка presedimentation предварительное осаждение, отстаивание pressure vessel сосуд под давлением; резервуар под давлением pressurizing для поддержания давления pretreatment предочистка, предварительная очистка, обработка (сточных вод) primary clarifier первичный отстойник primary treatment clarifier установка [отстойник] первичной очистки сточных вод primary treatment первичная обработка property свойство; характеристика; качество; способность; харак- терная [отличительная] особенность protozoan (pl. protozoa / protozoans) простейшее (животное) public (water) demand потребность в воде для коммунальных нужд public (water) use муниципальное водопотребление, водопотребле- ние для общегородских нужд public water supply коммунальное водоснабжение; коммунальная водопроводная система public-service компания общественного обслуживания (по снабже- нию газом, электроэнергией, водой); коммунальный (связанный со снабжением населения электричеством, водой, газом и т. п.) public-supplied коммунальный (связанный со снабжением населе- ния электричеством, водой, газом и т. п.) public-supply water system система коммунально-бытового водо- снабжения pulverized coal пылевидный уголь; угольная пыль pump насос; помпа; накачивание, выкачивание, откачивание (про- цесс действия насоса) pumping plant [station] насосная установка; насосная станция pumping system система накачки, система накачивания Qq 102 quality качество; высокое качество; свойство; особенность; харак- терная черта quantity количество; численность, число; величина; размер quiescent находящийся в покое, неподвижный Rr radial flow радиальный поток rapid dual-media filter быстрый фильтр с двойной загрузкой raw sewage [wastewater] неочищенные сточные воды, необрабо- танные сточные воды raw water необработанная [неочищенная] вода recycle перерабатывать; повторно использовать (отходы) recycling переработка отходов (для повторного использования); утилизация отходов; повторное использование материалов, отходов (после вторичной переработки); оборотная система производствен- ного водоснабжения reservoir резервуар; бассейн; водохранилище residual остаток; вещества, остающиеся в воде после обработки resources запасы, ресурсы, средства; природные богатства retention time время задержания reverse osmosis обратный осмос rotary-drum ротационно-барабанный Ss salt [saline] water соленая вода; минерализованная вода; вода, со- держащая соли sand filtration песчаная фильтрация sand trap песколовка sanitary engineering санитарная техника sanitation оздоровление, улучшение санитарных условий; санитар- но-профилактические мероприятия; санитария; канализация; обес- печение санузлом; водопровод и канализация; ассенизация screening улавливание (загрязнений) сетчатыми фильтрами или ре- шётками; очистка сточных вод от механических включений [приме- сей] с использованием скринов [решёток] 103 secondary main трубопровод второго подъема secondary treatment доочистка (сточных вод); вторичная очистка (сточных вод) sedimentation [settling] tank отстойный резервуар, отстойник sedimentation осаждение, седиментация, отстаивание, образование осадка self-supplied domestic water withdrawals отбор воды для хозяй- ственных нужд из природного источника septic tank септик(тенк), отстойник, септический резервуар, септик (сооружение для предварительной очистки сточных вод) service main служебный трубопровод service reservoir расходный резервуар; расходный бак; буферное наливное водохранилище settleable suspended solids оседающие [осаждаемые] взвешенные твёрдые частицы sewage [wastewater] collection сбор [прием] сточных вод sewage [wastewater] discharge сброс сточных вод sewage [wastewater] disinfection обеззараживание сточных вод sewage [wastewater] sanitation обезвреживание сточных вод sewage [wastewater] treatment plant завод [установка] по перера- ботке сточных вод, станция аэрации sewage [wastewater] treatment очистка сточных вод sewage disposal водоотведение; отведение [отвод, удаление] сточ- ных вод sewage pipe фановая труба (предназначенная для отвода нечистот, грязной воды) sewage sludge осадок сточных вод sewage system канализация, система канализации, канализационная система sewage treatment plant завод по переработке сточных вод, станция аэрации; установка по переработке сточных вод sewage treatment works сооружения по очистке сточных вод sewage сточные воды sewer [sewerage] network канализационная сеть sewer system канализационная система 104 sewerage system система канализации, канализационная система; система трубопроводов и туннелей для сбора и транспортировки сточных вод до станций аэрации sewerage канализация, канализационная система shallow well неглубокая скважина skim off очищать поверхность; снимать (накипь и т.п.) sludge густая грязь; ил, тина; осадок; отстой; шлам; осадок сточных вод; осадок в резервуаре со сточными водами очищать от гря- зи; превращать в осадок, отстой; давать осадок, образовывать оса- док sludge drying bed иловая площадка sludge thickener илоуплотнитель, сгуститель осадка sodium fluoride фторид натрия (стоматологическое профилакти- ческое средство) softening умягчение (воды) soil conditioner почвоулучшитель soil грунт, земля, почва solid твёрдое вещество; твёрдое тело; твердая частица  твёрдый (а не жидкий или газообразный) solution решение, разрешение (проблемы и т.п.); растворение; рас- твор solvent растворитель spring источник, ключ, родник storage tank бак-хранилище, резервуар-хранилище stream поток, ручей, река; струя, течение street main распределительная уличная сеть; основная водопровод- ная магистраль substance вещество; материал subsurface source подземный источник sufficiency of water (supply) водообеспеченность supply line линия водоснабжения; питающий трубопровод; подво- дящий трубопровод supply снабжение, поставка; pl. ресурсы, запасы снабжать (чем- л.), поставлять; доставлять surface source поверхностный источник surface water поверхностные воды, поверхностная вода surface поверхность; земная поверхность 105 suspended matter взвешенное, суспендированное (напр. в воде) ве- щество, взвесь suspended взвешенный suspension взвешенное состояние; суспензия; взвесь Tt tank бак, резервуар, цистерна; искусственное озеро, пруд; бассейн; водоем; небольшое водохранилище tap water водопроводная вода tap кран (водопроводный, газовый и т.п.) taste вкус temperature температура tertiary treatment доочистка, третичная очистка (сточных вод) tooth decay кариес Total Suspended Solids общее содержание взвешенных частиц; об- щее количество суспендированного, взвешенного в воде материала; нефильтруемый остаток transpiration испарение, транспирация treated water очищенная [обработанная] вода treatment обработка, очистка trickling filter биофильтр; капельный фильтр trunk main главная магистраль, основная магистраль turbidity мутность Uu underground source подземный источник undertaking предприятие (организация) untreated water необработанная [неочищенная] вода upward flow восходящий поток usefulness применимость; пригодность UV (ultraviolet) radiation ультрафиолетовое излучение Vv vapour пар 106 virus вирус Ww waste [wastewater] disposal водоотведение; сброс [отведение, удаление] сточных вод; удаление отходов wastewater [waste water] сточные воды wastewater treatment plant [works] водоочистная станция, станция водоочистки, станция очистки сточных вод, сооружения по очистке сточных вод water accumulation накопление воды water acquisition сбор [добывание, получение], водосбор water body водоем; водный объект water collection сбор воды, водосбор, добывание воды, получение воды water company компания водоснабжения water conduit водопровод; водовод, акведук water conservation охрана водных ресурсов; сохранение воды; накопление воды water consumer водопользователь, водопотребитель water consumption водопотребление; водопользование; водопо- требность, потребность в воде; расход воды water cycle круговорот воды, влагооборот water delivery водоснабжение, снабжение водой, доставка воды, подача воды, водоподача, обеспечение водой water demand водопотребление; водопользование; водопотреб- ность, потребность в воде water distribution system система водоснабжения, система распределения воды, водораспределительная система water distribution водораспределение, распределение воды water facilities водохозяйственные сооружения; система водоснаб- жения water intake [structure / facility] водозаборное сооружение, водоза- бор; водоприёмник water main водопроводная магистраль; магистральный водопровод; главная [основная] магистраль; pl. водопроводная сеть water pollutant вещество, загрязняющее воду; загрязнитель воды 107 water pollution control борьба с загрязнением воды water purification очистка воды, водоочистка water quality качество воды water recycling оборотное [повторное] водоснабжение water requirement водопотребление; водопользование; водопо- требность, потребность в воде water resources водные ресурсы water scarcity недостаток воды water service водоснабжение; pl. водное хозяйство; служба водо- снабжения water shortage нехватка воды water source водный источник, водоисточник, источник воды; pl. водные ресурсы water storage facility водохранилище water storage водохранилище; хранение воды; аккумулирование воды; запас воды, водные запасы; водные ресурсы water supplier владелец или сотрудник системы коммунального водоснабжения water supply and sewerage водоснабжение и канализация water supply facilities водохозяйственные сооружения water supply network система водоснабжения water supply organization [utility] водохозяйственная организация, предприятие водоснабжения; предприятие коммунального водо- снабжения; компании водоснабжения общего пользования water supply system система водоснабжения; водопровод water supply водоснабжение, снабжение водой; водоподача, подача воды; доставка воды, обеспечение водой, водопровод; водообеспе- ченность; запас воды (напр. в конкретном водоеме); pl. водные ре- сурсы water system водохозяйственная система; система водоснабжения water tower водонапорная башня water transmission [transportation] транспортирование воды; пода- ча воды, водоподача water treatment [purification] facility сооружение для очистки воды water treatment [purification] plant установка для обработки воды; станция водоподготовки; водоочистная станция (водоснабжения) water treatment [purification] station водоочистная станция 108 water treatment [purification] structure сооружение для очистки воды water treatment [purification] works водопроводная станция; водо- очистные [водопроводные] сооружения water treatment обработка [очистка] воды water use водопотребление; водопользование, использование воды water user водопользователь, водопотребитель water вода; водоем; pl. воды  водный; морской; речной; водяной; относящийся к воде; гидросиловой; гидротехнический; водопроводный; относящийся к водоснабжению смачивать, мочить; поливать, орошать, снабжать влагой; увлажнять; поливать мостовую, тротуар; обводнять; просачиваться, давать течь; поить; пить water-bearing stratum (pl. strata) водоносный горизонт [пласт] waterborne передающийся через воду (об инфекции) watercourse поток; река; ручей; канал, течение water-pumping station [facility / plant] насосная станция watershed водосбор, (водосборный) бассейн; водораздел water-supply engineer инженер-проектировщик по водоснабжению и канализации water-supply engineering водоснабжение (отрасль инженерии) water-supply network система водоснабжения; водопроводная сеть waterway водный путь waterworks водохозяйственная система; водохозяйственный объ- ект; водохозяйственные мероприятия; водопроводная станция; во- допроводное сооружение; гидротехническое сооружение; станции водоподготовки, водообработки, водоочистки; водонапорная стан- ция; водонапорная башня; фонтан well water колодезная вода; вода из скважины well колодец; источник; скважина; резервуар; водоём; родник, ключ withdraw извлекать; отводить; откачивать; удалять withdrawal отбор (воды из природного источника) Zz zooplankton зоопланктон REFERENCES The New Encyclopedia Britannica. 15th Edition, Encyclopedia Britanni- ca, Inc., 2002 Britannica Student Encyclopedia. Encyclopædia Britannica, Inc., 2010 The World Book Encyclopedia. – Chicago: World Book, Inc., 1994 McGraw-Hill Dictionary of Scientific and Technical Terms. 2nd Edition. McGraw-Hill Book Company, 1978 en. wikipedia. org degremont.com www.knowh2o.org www.water-pollution.org.uk ga.water.usgs.gov.edu e-dulink.com dic.academic.ru Абрамов Н.Н. Водоснабжение. М., Стройиздат, 1974 Англо-русский, русско-английский словарь по водоснабжению, водоотведению и охране вод. – Сост. Л.М. Кулакова. – М.: АВОК- ПРЕСС, 2007 Компьютерная программа Encyclopedia Britannica DELUXE Millen- nium Edition Электронный словарь Lingvo x3 Учебное издание ЗОЗОН Наталья Александровна ПУЧКО Антонина Николаевна WATER-SUPPLY ENGINEERING AND SEWAGE DISPOSAL ВОДОСНАБЖЕНИЕ И ВОДООТВЕДЕНИЕ Учебно-методическое пособие для студентов заочной формы обучения специальности 1-70 04 03 «Водоснабжение, водоотведение и охрана водных ресурсов» Технический редактор Д. А. Исаев Подписано в печать 16.01.2014. Формат 6084 1/16. Бумага офсетная. Ризография. Усл. печ. л. 6,39. Уч.-изд. л. 5,0. Тираж 150. Заказ 731. Издатель и полиграфическое исполнение: Белорусский национальный технический университет. ЛИ № 02330/0494349 от 16.03.2009. Пр. Независимости, 65. 220013, г. Минск.