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Distribution system

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The document discusses water distribution systems. A distribution system receives treated water from pumping stations and delivers it through a network of pipes, valves, meters, pumps, reservoirs and hydrants. There are different types of layouts including dead-end, gridiron and circular systems. Distribution can occur via gravity, pumping or a dual system. Gravity relies on elevation while pumping requires energy. A dual system combines both for reliability and economy. The goal is to convey water at sufficient pressure and quantity to consumers while maintaining quality and providing emergency capacity.

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DISTRIBUTION SYSTEM
What is Distribution System? • Distribution system is the part of the water works which receives the water from the pumping station in the form of gravity flow or pumping system and delivers it throughout the town which is to be served. • The distribution system consists of pipes of various sizes, valves, meters, pumps, distribution reservoirs, hydrants etc.
Distribution system
Requirements of distribution system? • The pipe lines carry the water to each and every street, road. • Valves control the flow of water through the pipes. • Meters are provided to measure the quantity of water consumed by the town. • Hydrants are provided to connect the water to the fire fighting equipments during fire. • Service connections are done to connect the individual building with the water line passing through the streets.
• Pumps are provided to pump the water to the elevated service reservoirs or directly in the water mains to obtain the required pressure in the pipe lines.
Requirement for good distribution system? • It should convey the treated water up to the consumers with the same degree of purity. • The water should reach to every consumer with the required pressure head. • Sufficient quantity of treated water should reach for the domestic and industrial use. • It should be able to transport sufficient quantity of water during emergency such as fire- fighting. • It should be reliable so that even during breakdown or repairs of one line water should reach that locality from other line.
Layout of distribution system: Generally there are four different systems of distribution which are used, Depending upon their layout and direction of supply, they are classified as follows: 1.Dead end or tree system. 2.Grid Iron system. 3.Circular or ring system. 4.Radial system.
1)DEAD END OR TREE SYSTEM:
2)GRID IRON SYSTEM:
3)CIRCULAR OR RING SYSTEM:
4) RADIAL SYSTEM:
Types of distribution system: • Depending upon the methods of distribution , the distribution system is classified as follows: 1. Gravity system 2. Pumping system 3. Dual system or combined gravity and pumping system.
1) Gravity system:
• This method is much suitable when source of supply such as lake, river or impounding reservoir is at sufficient height than city. • The water flows in the mains due to gravitational force, as no pumping is required, therefore it is most reliable system for the distribution of water. • In this system usually pumping is not required at any stage, in case the source of water supply is lake situated at the hill, low lifting pumping is required to lift the water up to water treatment plant.
• ADVANTAGES: • This will reduce the Leakage and waste to the Minimum. • DISADVANTAGES: • But in case of fire attack the water had to be pumped.
Distribution system
2)Pumping system:
• In this system water is directly pumped in the mains • Since the pumps have to work at different rates of the day, the maintenance cost increases. • High lift pumps are required and their operations are continuously watched. • If power fails, the whole supply of the town will be stopped, therefore it is better to have diesel pumps also in addition to the electric pumps as stand bye. • ADVANTAGE: • During fires, the water can be pumped in the required quantity by the stand-bye units also.
Distribution system
Distribution system
3)Dual system:
• This is the combination of both gravity and pumping system. • The pump is connected to the mains as well as to an elevated reservoir. • In the beginning when water demand is small the water is stored in the elevated reservoir, but when demand increases the rate of pumping, the flow in the distribution system comes from the both the pumping station as well as from elevated reservoir.
Distribution system
• ADVANTAGES: • This system is more reliable and economical. • The water stored in elevated reservoir meets the requirements of demand during breakdown of pumps and for fire fighting. • The balance reserve in the storage reservoir will be utilized during fire. In case the fire demand is more, and if required the water supply of few localities may be closed.
Distribution system
Distribution system

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Distribution system

  • 2. What is Distribution System? • Distribution system is the part of the water works which receives the water from the pumping station in the form of gravity flow or pumping system and delivers it throughout the town which is to be served. • The distribution system consists of pipes of various sizes, valves, meters, pumps, distribution reservoirs, hydrants etc.
  • 4. Requirements of distribution system? • The pipe lines carry the water to each and every street, road. • Valves control the flow of water through the pipes. • Meters are provided to measure the quantity of water consumed by the town. • Hydrants are provided to connect the water to the fire fighting equipments during fire. • Service connections are done to connect the individual building with the water line passing through the streets.
  • 5. • Pumps are provided to pump the water to the elevated service reservoirs or directly in the water mains to obtain the required pressure in the pipe lines.
  • 6. Requirement for good distribution system? • It should convey the treated water up to the consumers with the same degree of purity. • The water should reach to every consumer with the required pressure head. • Sufficient quantity of treated water should reach for the domestic and industrial use. • It should be able to transport sufficient quantity of water during emergency such as fire- fighting. • It should be reliable so that even during breakdown or repairs of one line water should reach that locality from other line.
  • 7. Layout of distribution system: Generally there are four different systems of distribution which are used, Depending upon their layout and direction of supply, they are classified as follows: 1.Dead end or tree system. 2.Grid Iron system. 3.Circular or ring system. 4.Radial system.
  • 8. 1)DEAD END OR TREE SYSTEM:
  • 12. Types of distribution system: • Depending upon the methods of distribution , the distribution system is classified as follows: 1. Gravity system 2. Pumping system 3. Dual system or combined gravity and pumping system.
  • 14. • This method is much suitable when source of supply such as lake, river or impounding reservoir is at sufficient height than city. • The water flows in the mains due to gravitational force, as no pumping is required, therefore it is most reliable system for the distribution of water. • In this system usually pumping is not required at any stage, in case the source of water supply is lake situated at the hill, low lifting pumping is required to lift the water up to water treatment plant.
  • 15. • ADVANTAGES: • This will reduce the Leakage and waste to the Minimum. • DISADVANTAGES: • But in case of fire attack the water had to be pumped.
  • 18. • In this system water is directly pumped in the mains • Since the pumps have to work at different rates of the day, the maintenance cost increases. • High lift pumps are required and their operations are continuously watched. • If power fails, the whole supply of the town will be stopped, therefore it is better to have diesel pumps also in addition to the electric pumps as stand bye. • ADVANTAGE: • During fires, the water can be pumped in the required quantity by the stand-bye units also.
  • 22. • This is the combination of both gravity and pumping system. • The pump is connected to the mains as well as to an elevated reservoir. • In the beginning when water demand is small the water is stored in the elevated reservoir, but when demand increases the rate of pumping, the flow in the distribution system comes from the both the pumping station as well as from elevated reservoir.
  • 24. • ADVANTAGES: • This system is more reliable and economical. • The water stored in elevated reservoir meets the requirements of demand during breakdown of pumps and for fire fighting. • The balance reserve in the storage reservoir will be utilized during fire. In case the fire demand is more, and if required the water supply of few localities may be closed.

Editor's Notes

  1. The difference between two elevations can be expressed p2-p1= -y(z2-z1)