4. Estimates of Water Storage

4.0 Amount of water to be stored
You must first compare your pond water requirements - the water needed to initially fill your pond and to compensate for seepage and evaporation losses (see Section 2) - with the water available from your source (see Section 3). If you find that your water source provides enough water to fill the pond in a reasonable period of time, to fill it when you want to fill it, and to compensate for water losses throughout the year, you will not need a reservoir.

If you find that your water source does not provide enough water to fill the pond and to compensate for water losses at certain times of the year, but there is enough water available over the year, you may decide to build a reservoir and store the water you will need. If you decide to build a reservoir, you will encounter one of two situations: Your source provides a supply of water throughout the year; Your source dries up completely and provides no water at certain times of the year.

Example

Your water flow is sufficient to compensate for water losses but not enough for filling the pond.
To fill your pond initially, you need 4 l/s for six days.
Your source supplies only 1 l/s during those six days.
Using Table 2 (Section 2.3), you find that a flow of 1 l/s provides 86.4 m³ of water per day.
In six days, your source will supply 86.4 m³ /day x 6 = 518.4 m³.
Therefore, the volume of your reservoir can be reduced by 518.4 m³.

If your daily flow is not great enough throughout the year to fill the pond in a reasonable period of time when you want to fill it, and to compensate for water losses by seepage and evaporation, the reservoir will have to be large enough to provide for the total water requirements.

Example

Your water flow is insufficient to compensate for the total water requirements (filling plus water losses).

The volume of your pond is 2 073 m³.

You have calculated that the water losses will average, during the culturing period (240 days), the following: seepage 34.56 m³ /day and evaporation 8.64 m³ /day. Total water losses will therefore be 34.56 + 8.64 = 43.2 m³ /day.

During this period, your water source supplies only 0.25 l/s or 21.6 m³ /day (see Table 2). But much more water is available outside this period to fill your reservoir in 60-80 days.

You will need to store in this reservoir the water needed for pond filling (2 073 m³) plus the water required to compensate for the losses during 240 days.

Water losses each day: 43.2 m³
Water available each day: 21.6 m³
Stored water used each day: 43.2 - 21.6 = 21.6 m³
For 240 days, your storage will need to be 21.6 m ³ x 240 = 5184 m³
Total water volume to be stored: 2 073 m³ + 5184 m³ = 7257 m³.

Water losses by seepage and evaporation from a reservoir A reservoir is subject to water losses by seepage and evaporation just as a pond is. To offset water losses from a reservoir, plan the water volume of the reservoir 1.5 times greater than the water volume you require to satisfy total water requirements.
VOLUME OF RESERVOIR EQUALS 1.5 x TOTAL WATER REQUIREMENTS FOR PONDS		Example Your total stored water requirements for pond culture are 7257 m3. Your storage reservoir should have a storage capacity of 7 257 m3. x 1.5 or 10 886 m3.

4.1 Selecting a site for a reservoir If you are going to build a reservoir, look for a site that will allow you to retain the greatest volume of water with the smallest dam possible. Dams require a great deal of work to build and to maintain, and the smaller the dam, the better. Avoid a site in a valley, relatively open and wide at the downstream end. At such a site you will have to build a large dam.

An unsatisfactory site for a reservoir Wide contours
The ideal site for a reservoir is in a wide valley which narrows suddenly, with steep sides at the downstream end. The narrower the valley end, the smaller the dam will have to be.

Example A satisfactory site for a reservoir Close contours
Choose a site with good soil, which will hold water well. Avoid a sandy site. The place you choose should not have areas of sand that are too large to seal against water loss. If there are large sandy areas, it may be better to look for another site. It is good to clear the site of vegetation before building a reservoir. If you plan to do this, avoid choosing a site with too many large trees, which may be difficult to remove.

You should choose a site where you can build a reservoir large enough to satisfy your total water requirements. It may be to your advantage to find more than one possible site and choose among them on the basis of: Your water requirements (see Section 2.3); How large a reservoir is possible at each site (see Section 4.2); The topography, soil and vegetation present at each site, as you have seen in this section.

Example There are two possible sites on a stream at points A and B where conditions are suitable to build a dam for a reservoir. Both sites are equally suited as far as topography, soil and vegetation are concerned. Points A and B are near one another but note that point A is supplied by catchment basins 3, 4 and 5 while point B is supplied only by catchment basins 3 and 4. Therefore, more water can be collected at point A than at point B. But, before you decide which site to use, estimate your water requirements and pick the site with the smallest water capacity which best fits your requirements. Note: if the water flow of a stream increases greatly during the rainy season, it may be difficult to maintain a dam during this period. If the water level becomes too high the dam may be washed away. Example If the water flow increases greatly at points A and B during the rainy season, it will be safer to build a dam at point B where the water flow will be smaller.

 

 

4.2 Determining characteristics of a reservoir

When you have chosen a suitable site for a reservoir and have decided on the place to build the dam, you will have to determine the height of the dam you should build to store the volume of water required. To do this you will need to make one or more approximations to find the reservoir size that will give you the volume desired.

But first you will have to decide on the type of dam you will build. A dam may be built either without a spillway (when the stream water flow is relatively small and constant throughout the year) or with a spillway (when the stream flow is relatively large and/or when it greatly varies from one season to another). If conditions allow it, you should build a dam without a spillway, since it is easier to build. What is a spillway?

Estimating the volume for a reservoir without a spillway This is a relatively simple method that will give you a rough estimate of reservoir volume. If you plan to build a dam without a spillway, this rough approximation will be enough.

First approximation Begin by assuming a maximum water depth at the dam of 1.5 m.
Determine and mark the contour line at this assumed maximum water level using topographical measuring devices. The contour, when marked, will outline the extent of the planned reservoir.
Now measure this contour line (in m) and calculate the approximate volume of water (in m3) that can be held in a reservoir of this size and maximum depth (1.5 m). To do this: Square the length of the contour line; Divide the result by 37.5 (conversion factor); Multiply by the assumed maximum water depth (in this case, 1.5 m) to find the approximate reservoir volume.

 

Example

You have measured the length of the contour line at the assumed water level of 1.5 m and find it to be 289 m.

Square the length of the contour line :289 x 289 = 83 521 m².