unit 1 EEppc
- 1. • Water supply system • Sanitary Engineering • Pollution control Course Code : 15O - 1305 Course Name : Environmental Engineering and Pollution Control (E.E)
- 2. COURSE OUTCOMES C502.1 : Illustrate the quantity and quality of water, intake and conveyance of water supplying system C502.2 : Treatment of water and distribution systems C502.3 : The collection and conveyance of sewage and sewer appurtenances C502.4 : Explain sewage treatment, disposal of sewage and solid waste C502.5 : Identify the various pollution and their preventions and Illustrate about environment impacts assessments
- 3. Unit – 1 ( Water Supply Engineering) Quantity of Water : Water Supply - Need For Protected Water Supply - Objectives of Public Water Supply System – Demand -Types of Demand - Per Capita Demand - Prediction of Population - Problems In Arithmetical Increase Method, Geometrical Increase Method, Incremental Increase Method - Sources of Water - Surface And Subsurface Sources- Reuse And Recycle of Waste Water
- 4. QUANTITY OF WATER Introduction The important requirement of any life including human is water. It is nature’s gift to lives. It is available in various forms such as rivers, lakes, streams, ponds etc. The development of any city is based on the source of water supply. Need of protect water supplies: The water when exposed to atmosphere definitely contains several contaminants which are dangerous to any living organisms. Consumption of polluted water may cause serious diseases to the health of living beings. Hence it is very much needed to protect water supplies. Objectives of water supply: The following are the objectives of water supply system 1. Through the supply of whole some water, the public health will be improved 2. Sanitation of surroundings will be improved 3. Fire safety will be ensured 4. The living standards of people will be improved by industrialization
- 5. DEMAND: when an engineer has to design a water supply scheme for a community, he has to ascertain the required quantity of water and its availability. The quantity of water required to meet out the various needs of communities is called demand of water. The following are the types of demand. 1. Domestic demand 2. Civic or public demand 3. Industrial demand 4. Waste and loss Domestic Demand 1. Drinking - 2 lit 2. Cooking - 5 lit 3. Bathing - 40 lit 4. Washing hands, face etc., - 10 lit 5. House hold sanitary purpose - 50 lit 6. Gardening - 15 lit 7. Domestic animals & vehicles - 13 lit thus the quantity of water required for domestic purposes can be calculated as above. Normally it varies from 100 lit – 135 lit per head per day.
- 6. Public: The quantity of water for these purposes can be divided into road washing, sanitation purposes ornamental purposes and fire demands. Normally this category is taken as 10 lit per head per day Industrial purposes: The quantity of water required for this purpose is taken into account as factories, power stations, railways etc. And it will be taken as 50 lit per head per day. Waste and losses: The quantity of water for these categories is taken into account as careless use of water, leakages, unauthorized usage of water etc., Normally it is assumed as 75 lit per head per day per capita demand or rate of demand : The quantity of water required by a person per day for his personal use is termed as an average Indian towns per capita consumption of water per day for domestic, civic or public, industries and waste and loss are worked out between 150 and 300 litres.
- 7. Factors affecting per capita demand: 1. Climatic condition 2. Cost of water 3. Distribution pressure 4. Habits of population 5. Industries 6. Metering 7. Quality of water 8. Sewerage 9. Size of city 10. System of water supply
- 8. 1. Climatic condition: The climate of nature will affect the per capita demand. The requirement of water in summer is more than that in winter. Hotter places require more water than cooler places. 2. Cost of Water: If the water supplied to the consumers is charged, it will affect the per capita demand. The higher is the cost, the lower will be the consumption. If it is free supply, the consumption will be more. 3. Distribution pressure: More pressure leads to more consumption and less pressure leads to low consumption.
- 9. 4. Habits of population: The living standards of people influence the rate of consumption. Rich peoples may consume more quantity of water, middle class peoples use an average quantity and poor people consume less quantity of water. 5. Industries: The presence and absence of industries in a town may affect the rate of demand. 6. Metering: The quantity of water supplied is recorded by a meter and the consumption will be charged accordingly. The installation of meter may affect the rate of demand.
- 10. 7. Quality of water: The good quality of water may increase the rate of consumption. Poor quality of water leads to less consumption. 8. Sewerage: The existence of good sewerage system will increase the consumption of water and thus affect the rate of demand. 9. Size of city: Smaller the town, the lower is the rate of consumption. But the presence of water consuming industries in small towns results more consumption and thus affects the rate of demand.
- 11. 10. System of water supply: The continuous supply of water may increase the rate of consumption and the intermittent system of supply leads to less consumption of water POPULATION : The total number of human beings residing in an area is taken as population. Population is an important factor for the estimation of a water supply project. Hence it is necessary to predict the future population with the help of any suitable method. Usually the population will be predicted in terms of decades. A decade contains of ten years. Normally the design period of a water supply project varies from 30 years to 50 years.
- 12. Prediction of Population: The design of water supply project is not designed only for present population. But it is made to accommodate the future population. Hence it is necessary to predict the future population. The following methods are adopted to forecast the future population. 1. Arithmetical increase method 2. Geometrical increase method 3. Incremental increase method 4. Graphical method 5. Zoning method 6. Comparative method