Disclosed is a power generation device with
complementation of
solar energy and
biomass energy achievable. The power generation device with the
complementation of the
solar energy and the
biomass energy achievable comprises a heat preservation water tank, wherein an evacuated collector is installed at the lower end of the heat preservation water tank, a small water tank is connected with one lateral side of the heat preservation water tank, a water inlet
pipe and a water outlet
pipe are communicated with the small water tank and the heat preservation water tank to form a circulation circuit, an adiabatic device is installed on the outer wall of a
heat pipe in a surrounding mode, a
biomass energy heater is connected with one end face of the
heat pipe, a radiator is connected with the outer wall of a thermoelectric power generation component, a heat collection plate is immersed in hot water in the small water tank and is connected with the inner wall of the thermoelectric power generation component, a valve is installed near the opening of the water outlet
pipe, the evacuated collector is used for collecting the
solar energy, the heat preservation water tank and the small water tank are used for storing the hot water, the biomass energy heater transmits heat to the heat collecting plate through the
heat pipe, the adiabatic device is installed on the outer wall of the heat pipe in a surrounding mode, and the thermoelectric power generation component generates thermal
electromotive force when inside temperature is different from outside temperature to provide
electric energy for lights. The power generation device with the
complementation of the solar energy and the biomass energy achievable is compact in design, simple in installation, free of
mechanical transmission component, and high in reliability.