模块化光伏空调机组研发及性能实测分析
摘要:针对岛礁等孤立区域远离内陆、设备系统维修不便、安全可靠性要求高的问题,本文设计出直流型、交流型蓄电模块化新型光伏空调机组,对蓄电、逆变、制冷等机组部件进行了集成设计,对集成热堆积造成的机组性能衰减进行了理论分析。搭建了性能实验平台,实测了晴天、多云和雨天等不同天气工况下模块化空调机组的运行性能,得到2类机组的COP范围为2.80~3.35。模块化光伏空调机组可满足太阳能丰富的孤立区域的空调需求,具有更换灵活方便的特点。
关键词:太阳能光伏空调模块化机组孤立区域实验测试机组性能
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[10] 王旭.高效率光伏逆变器研究[D].成都:电子科技大学,2015:59- 63.
[11] 李钟实.太阳能光伏发电系统设计施工与维护[M].北京:人民邮电出版社,2010:83- 86.
[12] 孙翰墨,申烛,郭宗军,等.不同天气类型对光伏电站理论发电量影响的研究[J].太阳能,2017(6):38- 42.
[13] 韩林俊,靳亚楠,周兴业.风冷模块机组部分负荷性能的试验研究[J].流体机械,2019,47(8):66- 70,31.
[14] 张剑飞,秦妍,刘忠赏.吸气过热对R404A涡旋式压缩机性能影响的研究[J].制冷与空调,2011,11(2):89- 90,88.
[15] 中国建筑科学研究院有限公司,建科环能科技有限公司,上海建筑设计研究院有限公司,等.建筑节能与可再生能源利用通用规范:GB 55015—2021[S].北京:中国建筑工业出版社,2022:21- 31.
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Development and performance measurement analysis of modular photovoltaic air conditioning units
Abstract: In view of the problems of isolated areas such as islands and reefs far away from the inland, inconvenient maintenance of equipment systems, and high requirements for safety and reliability, this paper designs the new DC-type and AC-type power storage modular photovoltaic air conditioning units. The integrated design of power storage, inverter and cooling unit components is carried out, and the performance degradation caused by integrated heat accumulation is analysed theoretically. A performance experiment platform is built, and the operational performance of the modular air conditioning units under different weather conditions such as sunny, cloudy and rainy days is measured. The COP range of the two types of units is 2.80 to 3.35. The modular photovoltaic air conditioning units can meet the demand for air conditioning in isolated areas with abundant solar energy and have the characteristics of flexible and convenient replacement.
Keywords: solar energy; photovoltaic air conditioning; modular unit; isolated area; experimental testing; unit performance;
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