Difference between revisions of "Chapter Nine: Design of Water Structures"
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=== Tanks === | === Tanks === | ||
| − | Storage tanks | + | Storage tanks<br> |
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The primary purpose of water storage tank is to balance supply during peak hour demand. It is typical to have two peak times during the day, one in the morning the other in the evening when large amounts of water is collected. Water storage tanks should be positioned on higher ground relative to the supply area so as to command pressure. | The primary purpose of water storage tank is to balance supply during peak hour demand. It is typical to have two peak times during the day, one in the morning the other in the evening when large amounts of water is collected. Water storage tanks should be positioned on higher ground relative to the supply area so as to command pressure. | ||
The following design points should be considered as procedures when estimating the water tank volume/capacity | The following design points should be considered as procedures when estimating the water tank volume/capacity | ||
| − | •Estimate tank capacity by calculating the water demand at various times of the day and comparing that to the yield of the water supply scheme, | + | •Estimate tank capacity by calculating the water demand at various times of the day and comparing that to the yield of the water supply scheme, <br> |
| − | •Establish the demand and supply patterns for a typical day during the assessment phase of the project, | + | |
| − | •The supply yield pattern of the project depends on the design operation period for pumping systems, | + | •Establish the demand and supply patterns for a typical day during the assessment phase of the project,<br> |
| − | •Consider the providing tanks for solar powered projects as they have limited pumping hours, | + | |
| − | •Establish the tank volume based on the amount of water needed from the time when there is more water leaving the tank than entering the tank (demand> supply) until the time when there is more water entering the tank than leaving it (Supply > Demand), | + | •The supply yield pattern of the project depends on the design operation period for pumping systems,<br> |
| − | •Size the water tank volume so that it is able to meet the deficit during these hours, | + | |
| − | •Calculate the volume of the tank by comparing the supply with demand at incremental time periods and balance to the existing storage, | + | •Consider the providing tanks for solar powered projects as they have limited pumping hours,<br> |
| − | •The balance should start at zero, then calculated for each time period (iteration) by adding the surplus or deficiency to the balance of previous iteration. | + | |
| + | •Establish the tank volume based on the amount of water needed from the time when there is more water leaving the tank than entering the tank (demand> supply) until the time when there is more water entering the tank than leaving it (Supply > Demand),<br> | ||
| + | |||
| + | •Size the water tank volume so that it is able to meet the deficit during these hours,<br> | ||
| + | |||
| + | •Calculate the volume of the tank by comparing the supply with demand at incremental time periods and balance to the existing storage,<br> | ||
| + | |||
| + | •The balance should start at zero, then calculated for each time period (iteration) by adding the surplus or deficiency to the balance of previous iteration.<br> | ||
Revision as of 11:51, 21 December 2020
1 Chapter Nine: Design of Water Structures
The main components of a water project include water intakes, break pressure tanks, water points, valve chambers and storage/sedimentation tanks. The following sections describe the design procedures for various water structures.
1.1 1.1 Sizing and Locating Water Structures
1.1.1 Tanks
Storage tanks
The primary purpose of water storage tank is to balance supply during peak hour demand. It is typical to have two peak times during the day, one in the morning the other in the evening when large amounts of water is collected. Water storage tanks should be positioned on higher ground relative to the supply area so as to command pressure.
The following design points should be considered as procedures when estimating the water tank volume/capacity
•Estimate tank capacity by calculating the water demand at various times of the day and comparing that to the yield of the water supply scheme,
•Establish the demand and supply patterns for a typical day during the assessment phase of the project,
•The supply yield pattern of the project depends on the design operation period for pumping systems,
•Consider the providing tanks for solar powered projects as they have limited pumping hours,
•Establish the tank volume based on the amount of water needed from the time when there is more water leaving the tank than entering the tank (demand> supply) until the time when there is more water entering the tank than leaving it (Supply > Demand),
•Size the water tank volume so that it is able to meet the deficit during these hours,
•Calculate the volume of the tank by comparing the supply with demand at incremental time periods and balance to the existing storage,
•The balance should start at zero, then calculated for each time period (iteration) by adding the surplus or deficiency to the balance of previous iteration.
