Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Tidal power generation system and tidal power generation method
The tidal power generation system comprises a base body, the base body is provided with a cavity, a water gap and an air outlet, the cavity extends in the height direction of the base body, the water gap is located at the bottom of the base body and communicates with the lower portion of the cavity, the water gap is used for enabling water to enter and exit the cavity in the rising and falling processes, and the air outlet communicates with the upper portion of the cavity; the turbine power generation device is provided with a turbine cavity, a first air inlet and a second air inlet, a turbine in the turbine cavity is located between the first air inlet and the second air inlet, the first air inlet communicates with the turbine cavity and the air outlet, and the second air inlet is used for communicating the turbine cavity with the outside; the control valve is arranged between the air outlet and the first air inlet, and the control valve is used for controlling connection and disconnection of the air outlet and the first air inlet; the pressure monitoring device is used for monitoring the pressure in the cavity; and the control device is connected with the turbine power generation device, the control valve and the pressure monitoring device. The energy conversion efficiency of the turbine can be improved.
本申请提出一种潮汐能发电系统,包括:基体,基体具有腔体、水口以及出气口,腔体沿基体的高度方向延伸,水口位于基体的底部且和腔体的下部连通,水口用于在涨潮退潮过程中使水体进出腔体,出气口和腔体的上部连通;涡轮发电装置,涡轮发电装置具有涡轮腔、第一进气口和第二进气口,涡轮腔中的涡轮位于第一进气口和第二进气口之间,第一进气口连通涡轮腔和出气口,第二进气口用于连通涡轮腔和外界;控制阀,控制阀设于出气口和第一进气口之间,控制阀用于控制出气口和第一进气口两者的通断;压力监测装置,压力监测装置用于监测腔体内的压力;以及控制装置,控制装置连接涡轮发电装置、控制阀以及压力监测装置。其能够提高涡轮的能量转换效率。
Tidal power generation system and tidal power generation method
The tidal power generation system comprises a base body, the base body is provided with a cavity, a water gap and an air outlet, the cavity extends in the height direction of the base body, the water gap is located at the bottom of the base body and communicates with the lower portion of the cavity, the water gap is used for enabling water to enter and exit the cavity in the rising and falling processes, and the air outlet communicates with the upper portion of the cavity; the turbine power generation device is provided with a turbine cavity, a first air inlet and a second air inlet, a turbine in the turbine cavity is located between the first air inlet and the second air inlet, the first air inlet communicates with the turbine cavity and the air outlet, and the second air inlet is used for communicating the turbine cavity with the outside; the control valve is arranged between the air outlet and the first air inlet, and the control valve is used for controlling connection and disconnection of the air outlet and the first air inlet; the pressure monitoring device is used for monitoring the pressure in the cavity; and the control device is connected with the turbine power generation device, the control valve and the pressure monitoring device. The energy conversion efficiency of the turbine can be improved.
本申请提出一种潮汐能发电系统,包括:基体,基体具有腔体、水口以及出气口,腔体沿基体的高度方向延伸,水口位于基体的底部且和腔体的下部连通,水口用于在涨潮退潮过程中使水体进出腔体,出气口和腔体的上部连通;涡轮发电装置,涡轮发电装置具有涡轮腔、第一进气口和第二进气口,涡轮腔中的涡轮位于第一进气口和第二进气口之间,第一进气口连通涡轮腔和出气口,第二进气口用于连通涡轮腔和外界;控制阀,控制阀设于出气口和第一进气口之间,控制阀用于控制出气口和第一进气口两者的通断;压力监测装置,压力监测装置用于监测腔体内的压力;以及控制装置,控制装置连接涡轮发电装置、控制阀以及压力监测装置。其能够提高涡轮的能量转换效率。
Tidal power generation system and tidal power generation method
潮汐能发电系统及潮汐能发电方法
HAO MENG (Autor:in) / SHANG HAOLIANG (Autor:in) / JI WENDONG (Autor:in) / XIA YU (Autor:in) / ZHANG WENJING (Autor:in) / HU WEI (Autor:in) / LI YINIAN (Autor:in) / MOU JINRONG (Autor:in) / PENG WEI (Autor:in) / CHENG WENTAO (Autor:in)
08.12.2023
Patent
Elektronische Ressource
Chinesisch