| CPC G21D 3/00 (2013.01) [F01D 15/10 (2013.01); F01K 7/22 (2013.01); F01K 11/02 (2013.01); F03D 9/11 (2016.05); F22G 1/16 (2013.01); F24S 20/20 (2018.05); F24S 23/00 (2018.05); F24S 60/10 (2018.05); F24S 60/20 (2018.05); F24S 60/30 (2018.05); F24S 80/20 (2018.05); G21D 1/00 (2013.01); G21D 3/12 (2013.01); H02J 2300/22 (2020.01); H02J 2300/28 (2020.01); H02J 2300/40 (2020.01); Y02E 10/76 (2013.01); Y02E 30/00 (2013.01); Y02E 60/36 (2013.01)] | 12 Claims |
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1. A wind-solar reactor system comprising:
a balance energy system;
a nuclear reactor system with a reactor, a superheater, a high-pressure cylinder, a steam-water separation reheater, a low-pressure cylinder, a condenser, a condensate pump, a low-pressure heater, a deaerator, a feed water pump, a high-pressure heater, and a nuclear power generator, wherein a reactor core outlet of the reactor is communicated with a shell side steam inlet of the superheater through a pipeline, the shell side steam outlet of the superheater is communicated with a steam inlet of the high-pressure cylinder, a steam outlet of the high-pressure cylinder is communicated with a steam inlet of the steam-water separation reheater, a steam outlet of the steam-water separation reheater is communicated with a steam inlet of the low-pressure cylinder, a liquid outlet of the steam-water separation reheater is communicated with a water inlet of the deaerator through a drain pump, a steam outlet of the low-pressure cylinder is connected with inlets of the condenser, the condensate pump and the low-pressure heater are in sequence, an outlet of the low-pressure heater is communicated with another water inlet of the deaerator, an outlet of the deaerator is connected with inlets of the feed water pump and the high-pressure heater in sequence, an outlet of the high-pressure heater is communicated with an inlet of the reactor, the high-pressure cylinder and the low-pressure cylinder are connected with the nuclear power generator (13) through bearings, respectively, the nuclear power generator is connected with an inlet of a power controller through a power path, two outlets of the power controller are connected with a balance energy system and an inlet of a transformer, respectively;
a wind power generation system with a fan, a speed increaser, a wind turbine, and a control system, wherein the fan is connected with the speed increaser through bearings, the speed increaser is connected with the wind turbine through bearings, there are signal paths between the control system and the fan and between the speed increaser and the wind turbine, and the wind turbine is connected with another inlet of the transformer, and an outlet of the transformer is connected with a power grid; and
a solar power storage system with a solar absorber, a heliostat, a high-temperature molten salt tank, a low-temperature molten salt tank, and a molten salt pump, the heliostat is arranged outside the solar absorber, an outlet of the solar absorber is communicated with an inlet of the high-temperature molten salt tank through a molten salt pipeline, an outlet of the high-temperature molten salt tank is communicated with a tube-side molten salt inlet of the superheater, a tube-side molten salt outlet of the superheater is connected with inlets of the low-temperature molten salt tank and a molten salt pump in sequence, an outlet of the molten salt pump is communicated with an inlet of the solar absorber.
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