A kind of solar receiving device and heat absorber
A technology of receiving device and solar energy, applied in the field of solar energy, can solve the problems of reducing power generation time, easily generating thermal stress, damaging the heat collector, etc., achieving sufficient and uniform heat exchange, improving energy density, and increasing the effect of flow path
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Embodiment 1
[0028] The solar receiving device includes a first container 1 , a first working medium 2 is arranged in the first container 1 , and a driving device 3 for driving the first working medium 2 is connected to the first container 1 . Preferably, the driving device 3 is a pump. The first container 1 is also provided with a second container 4, the second container 4 is provided with a second working fluid 5, the second container 4 is provided with an inlet 41 and an outlet 42 of the second working fluid 5, the first working fluid 2 The thermal conductivity is greater than the thermal conductivity of the second working fluid 5, and the first container 1 is also provided with a main side plate 11 for forming the return flow channel 13 of the first working fluid 2 and a plurality of flow guides for forming the first working fluid 2 The guide plate 12 of the channel 14 and the driving device 3 are arranged at one end of the return channel 13 , and both ends of the return channel 13 are...
Embodiment 2
[0040] This embodiment is based on Embodiment 1, and the difference between this embodiment and Embodiment 1 is: the first working medium 2 is a lead-tin alloy, and the second working medium 5 is air.
[0041] This embodiment also provides a solar heat absorber, which includes a tower body, a heat collector is arranged on the top of the tower body, and the heat collector includes at least one of the above-mentioned solar energy receiving devices. Preferably, the heat collector includes six of the above solar receiving devices.
[0042] The heat of sunlight heats the lead-tin alloy in the above-mentioned solar receiver to 1000 degrees, and the lead-tin alloy evenly heats the pipeline soaked in it, and heats the air flowing in the pipe to about 990 degrees to drive the heat engine to generate electricity.
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