随着社会发展与人民生活水平的提高，冷库需求显著增加，而制冷系统能耗已 占冷库能耗的 70% 以上，故降低制冷系统能耗将有助于冷库的可持续发展。针对以往 研究中用于冷库的太阳能制冷系统经济可行性较差的问题，文中提出将高效的太阳能吸 收 － 过冷压缩式复合制冷系统用于冷库供冷，将低品位太阳能驱动的吸收子系统用于为 压缩子系统提供过冷，提高了制冷系统的节能效果和经济性。文中基于广州地区全年气 象数据与冷库冷负荷对该系统进行了准静态模拟，并结合模拟结果进行热力经济评价。结 果显示，该复合制冷系统单位集热器面积年节电量为 63 kW·h，投资回收期仅为 6. 74 年。 因此，将太阳能吸收 － 过冷压缩式复合制冷系统用于冷库具有良好的节能效果和经 济性。

: Ｒecently，the demand for cold storages has increased significantly with the development of society and people＇s living standards． The energy consumption of cooling system occupies 70% of total energy consumption of a cold storage，so to reduce the energy consumption of the cooling system is conducive to the sustainable development of cold storages． Focusing on the poor economic performance of solar cooling system in previous studies，this study put forward the solar absorption-subcooled compression hybrid cooling system ( SASCHCS) ． The absorption subsystem driven by low grade solar energy is used to subcool the compression subsystem，so as to improve the energy-saving and economic performance． The corresponding techno-economic analysis was performed based on quasi-static simulation taking into account the annual meteorological data and cooling load of Guangzhou． It shows that the annual electricity saving for each unit collector area is 63 kW·h and the payback period is only 6. 74 years． Thus，the energy saving and economic performance of SASCHCS is remarkable for the cold storages.