A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Air refrigeration water taking system powered by solar energy and design method
The invention relates to the technical field of water taking systems, in particular to a solar energy powered air refrigeration water taking system and a design method, and the solar energy powered air refrigeration water taking system comprises a solar energy power supply system, a refrigeration cycle system, a fan and a water collector; the solar power supply system is mainly composed of a solar cell panel, a controller and a storage battery, the refrigeration circulation system is composed of an evaporator, a condenser, a compressor and an expansion valve, a refrigerant flows in the refrigeration circulation system to complete circulation of heat absorption and heat release, and fans are arranged at the evaporator and the condenser to provide air for heat exchange with the refrigerant. The design method comprises the steps that the minimum heat exchange amount is determined according to the air temperature, humidity and air flow, so that the minimum heat exchange area needed by the evaporator is obtained, the heat exchange amount of the condenser is obtained according to the heat exchange amount of the evaporator and the heat exchange amount of the compressor, and then the heat exchange area needed by the condenser is obtained; the problems that an existing water taking mode is easily limited by the environment, cannot be widely used and causes energy consumption pollution are solved.
本发明涉及取水系统技术领域,具体地说是一种太阳能供能的空气制冷取水系统及设计方法,包括太阳能供电系统、制冷循环系统、风机和集水器;所述太阳能供电系统主要由太阳能电池板、控制器、蓄电池组成,制冷循环系统由蒸发器、冷凝器、压缩机、膨胀阀组成,制冷剂在其中流动完成吸热、放热的循环,蒸发器、冷凝器处均有风机提供空气与制冷剂进行热交换,集水器入口与蒸发器空气出口通过管道相连,设计方法为:根据空气温度、湿度以及空气流量确定最小换热量,由此得到蒸发器所需最小换热面积,由蒸发器和压缩机的换热量得到冷凝器的换热量,进而求得冷凝器所需的换热面积,解决了现有取水方式易受环境限制、无法广泛使用、有能耗污染的问题。
Air refrigeration water taking system powered by solar energy and design method
The invention relates to the technical field of water taking systems, in particular to a solar energy powered air refrigeration water taking system and a design method, and the solar energy powered air refrigeration water taking system comprises a solar energy power supply system, a refrigeration cycle system, a fan and a water collector; the solar power supply system is mainly composed of a solar cell panel, a controller and a storage battery, the refrigeration circulation system is composed of an evaporator, a condenser, a compressor and an expansion valve, a refrigerant flows in the refrigeration circulation system to complete circulation of heat absorption and heat release, and fans are arranged at the evaporator and the condenser to provide air for heat exchange with the refrigerant. The design method comprises the steps that the minimum heat exchange amount is determined according to the air temperature, humidity and air flow, so that the minimum heat exchange area needed by the evaporator is obtained, the heat exchange amount of the condenser is obtained according to the heat exchange amount of the evaporator and the heat exchange amount of the compressor, and then the heat exchange area needed by the condenser is obtained; the problems that an existing water taking mode is easily limited by the environment, cannot be widely used and causes energy consumption pollution are solved.
本发明涉及取水系统技术领域,具体地说是一种太阳能供能的空气制冷取水系统及设计方法,包括太阳能供电系统、制冷循环系统、风机和集水器;所述太阳能供电系统主要由太阳能电池板、控制器、蓄电池组成,制冷循环系统由蒸发器、冷凝器、压缩机、膨胀阀组成,制冷剂在其中流动完成吸热、放热的循环,蒸发器、冷凝器处均有风机提供空气与制冷剂进行热交换,集水器入口与蒸发器空气出口通过管道相连,设计方法为:根据空气温度、湿度以及空气流量确定最小换热量,由此得到蒸发器所需最小换热面积,由蒸发器和压缩机的换热量得到冷凝器的换热量,进而求得冷凝器所需的换热面积,解决了现有取水方式易受环境限制、无法广泛使用、有能耗污染的问题。
Air refrigeration water taking system powered by solar energy and design method
一种太阳能供能的空气制冷取水系统及设计方法
CONG LIXIN (author) / WEI DUIHONG (author) / ZHOU JUNWEI (author) / GAO RENXI (author)
2022-04-15
Patent
Electronic Resource
Chinese
A Solar-Powered In-Vehicle Semiconductor Refrigeration System
| British Library Conference Proceedings | 2014
Circulating adsorption refrigeration complementary solar air water-taking device
| European Patent Office | 2021
Radiation refrigeration/semiconductor refrigeration dual-mode all-weather air water taking device
| European Patent Office | 2023