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To calculate the theoretical maximum energy that can be produced from a microhydro plant, a few pieces of information are needed. Among these is the Hazen-Williams equation, which allows for the calculation of loss due to friction. The equation is as follows: f=0.2083*(100/c)<sup>1.852</sup>*Q<sup>1.852</sup>/d<sup>1.852</sup>, where c is the hazen-williams coefficient and is unique the piping used, Q is the flow in gallons per minute, and d is the diameter of the pipe in inches.
For instance, to find the friction loss of a 500 gpm flow through an 8" PVC pipe with a c value of 150, the Hazen-williams equation provides a loss of 0.395 feet-loss per 100 feet pipe.
This theoretical maximum is prevented by real world obstacles, such as turbine efficiency, pipe friction, and the conversion from potential to kinetic energy. To determine how much energy can be produced by a plant with a given efficiency, simply multiply the theoretical by the plant's efficiency. For instance, if the same plant had 90% efficiency, 5.65 kW*0.9= 5.085kW.
== Hydropower plants ==