Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Energy storage power station
The invention provides an energy storage power station, and relates to the technical field of electric energy storage. The energy storage power station comprises a power station body and a partition wall, and the partition wall is arranged in the power station body and divides the power station body into a battery bin and a system equipment bin. The wall of the battery compartment is provided with a first air inlet, the partition wall is provided with a first air outlet communicated with the battery compartment and the system equipment compartment, and the wall of the system equipment compartment is provided with a second air outlet. The battery compartment is used for placing a battery pack, and the system equipment compartment is used for placing equipment such as an energy storage converter and a transformer. When the energy storage power station operates, the temperature of equipment such as the energy storage converter and the transformer is higher, and heat generated by the equipment heats air near the first air outlet, so that the air is heated and expanded, and then negative pressure is formed at the first air outlet to push the air at the first air inlet to move towards the first air outlet, so that air draft and heat dissipation are formed; while the battery pack is cooled, the cost of an air conditioner is saved, the building and control difficulty of an energy storage power station is reduced, and the failure probability of the energy storage power station is reduced.
本发明提供一种储能电站,涉及电能储存技术领域。储能电站包括电站本体和分隔墙,分隔墙设于电站本体内,及分隔电站本体形成电池仓和系统设备仓;电池仓的壁设有第一进风口,分隔墙设有连通电池仓和系统设备仓的第一排风口,系统设备仓的壁设有第二排风口。电池仓用于放置电池包,系统设备仓则用于放置储能变流器和变压器等设备。当储能电站运行时,储能变流器和变压器等设备的温度更高,其产生的热量对第一排风口附近的空气进行加热,使空气受热膨胀,进而在第一排风口处形成负压,推动第一进风口的空气向第一排风口移动,形成抽风散热,在给电池包降温的同时节省空调费用,降低储能电站的组建与控制难度,降低储能电站的失效概率。
Energy storage power station
The invention provides an energy storage power station, and relates to the technical field of electric energy storage. The energy storage power station comprises a power station body and a partition wall, and the partition wall is arranged in the power station body and divides the power station body into a battery bin and a system equipment bin. The wall of the battery compartment is provided with a first air inlet, the partition wall is provided with a first air outlet communicated with the battery compartment and the system equipment compartment, and the wall of the system equipment compartment is provided with a second air outlet. The battery compartment is used for placing a battery pack, and the system equipment compartment is used for placing equipment such as an energy storage converter and a transformer. When the energy storage power station operates, the temperature of equipment such as the energy storage converter and the transformer is higher, and heat generated by the equipment heats air near the first air outlet, so that the air is heated and expanded, and then negative pressure is formed at the first air outlet to push the air at the first air inlet to move towards the first air outlet, so that air draft and heat dissipation are formed; while the battery pack is cooled, the cost of an air conditioner is saved, the building and control difficulty of an energy storage power station is reduced, and the failure probability of the energy storage power station is reduced.
本发明提供一种储能电站,涉及电能储存技术领域。储能电站包括电站本体和分隔墙,分隔墙设于电站本体内,及分隔电站本体形成电池仓和系统设备仓;电池仓的壁设有第一进风口,分隔墙设有连通电池仓和系统设备仓的第一排风口,系统设备仓的壁设有第二排风口。电池仓用于放置电池包,系统设备仓则用于放置储能变流器和变压器等设备。当储能电站运行时,储能变流器和变压器等设备的温度更高,其产生的热量对第一排风口附近的空气进行加热,使空气受热膨胀,进而在第一排风口处形成负压,推动第一进风口的空气向第一排风口移动,形成抽风散热,在给电池包降温的同时节省空调费用,降低储能电站的组建与控制难度,降低储能电站的失效概率。
Energy storage power station
一种储能电站
SHANG YUQI (Autor:in) / QI SHAOJUN (Autor:in)
28.03.2023
Patent
Elektronische Ressource
Chinesisch
IPC:
H01M
Verfahren oder Mittel, z.B. Batterien, für die direkte Umwandlung von chemischer in elektrische Energie
,
PROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
/
E04B
Allgemeine Baukonstruktionen
,
GENERAL BUILDING CONSTRUCTIONS
/
H02B
BOARDS, SUBSTATIONS, OR SWITCHING ARRANGEMENTS FOR THE SUPPLY OR DISTRIBUTION OF ELECTRIC POWER
,
Schalttafeln, Unterstationen oder Schaltanordnungen für die Abgabe oder Verteilung elektrischer Energie
/
H02J
CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER
,
Schaltungsanordnungen oder Systeme für die Abgabe oder Verteilung elektrischer Leistung
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