You must first confirm the information: \x0d\1. How high is the water level? (This is the vertical height from the water intake to where you plan to install the turbogenerator)\x0d\2. How many cubic meters per second the flow rate (or what diameter water pipe can be used to supply continuously) (water to full pipe)\x0d\3. Can the water source withstand it? Affected by rainy season and dry season, what is the flow during the dry season? \x0d\To clarify the above points, you can consult the manufacturer of the micro hydroelectric generator, they will recommend a suitable machine for you. \x0d\If it is a water source with low water head and large flow rate, the "scroll axial flow turbine generator" is your best choice. \x0d\If it is a water source with a high head and low flow, and the flow changes significantly in winter and summer, theThis “double-tube, double-jet oblique impact turbine generator” should work for you. \x0d\However, the principle is that you must first confirm the relevant information about your water source.
You need to have information about your rivers, including annual runoff, dam height, high water flow, low flow, low water height, etc.
Based on these materials, you can plan the total installed capacity of your hydroelectric plant and determine the shape of the unit. If your dam has sufficient head, I suggest using a horizontal mixed flow unit. If runoff is high and head is low, use a low head axial flow unit. You can also choose the impact type which is very popular nowadays.
If it is a small hydroelectric plant, it is recommended to use the two units per plant method. ManyForeign small and medium-sized hydropower plants use one plant and one unit.
>The voltage of small units is generally 6KV. A suitable step-up or step-down transformer is required.