Due to the depletion of fossil fuels and increasing the atmospheric greenhouse gas emissions, employing equipment with low energy consumption levels, while benefiting the renewable energy sources have been wide spread these days. In this research, the application of a solar assisted absorption chiller/cooling system in a high cooling load required region of Iran was investigated. A building located in southeast region of the country as a high cooling load required region was considered for this purpose. The performance of the building existing cooling system was studied in terms of the provided indoor air conditions and energy consumption was using TRNSYS software. Then, the feasibility of replacing the existing cooling system with a solar assisted absorption chiller was explored. Three recommended standard solar panels, namely Evacuated Tube, Glazed Painted, and Unglazed solar collectors were examined to recommend the most desired configuration. The study was conducted based on two operating hours of 24 h. and 8 h. (office working hours) scenarios. The results showed that within the regular office working hours, the solar assisted absorption chiller system equipped with the Evacuated Tube, Glazed Painted, and Unglazed solar collectors improves the indoor temperature up to 3.08 °C, 1.68 °C, and 1.46 °C, respectively. It was also found that the reduction in power consumption by application of the solar assisted absorption chiller could be up to 84 %, 64 %, and 48 %, respectively compared to the currently used cooling system in the building. The performance comparison between the three examined solar thermal panels revealed that the solar absorption chiller equipped with the Evacuated Tube solar collector has the capability to provide the most desired indoor air conditions and power consumption level.

由于化石燃料的枯竭和大气温室气体排放量的增加，采用低能耗水平的设备，同时使可再生能源受益，如今已广泛普及。在这项研究中，研究了太阳能辅助吸收式制冷机/冷却系统在伊朗高冷负荷地区的应用。为此目的，考虑了位于该国东南部地区的一座建筑，该地区是需要高冷负荷的地区。使用TRNSYS软件，根据提供的室内空气条件和能耗对建筑现有冷却系统的性能进行了研究。然后，探讨了用太阳能辅助吸收式制冷机替代现有冷却系统的可行性。三个推荐的标准太阳能电池板，即真空管，对上釉和未上釉太阳能集热器进行了检查，以推荐最理想的配置。该研究基于 24 小时的两个工作小时进行。和 8 小时。（办公室工作时间）场景。结果表明，在正常的办公室工作时间内，配备真空管、釉面漆和非釉面太阳能集热器的太阳能辅助吸收式制冷机系统将室内温度分别提高了 3.08°C、1.68°C 和 1.46°C . 研究还发现，与建筑物中目前使用的冷却系统相比，应用太阳能辅助吸收式制冷机可分别减少高达 84%、64% 和 48% 的电力消耗。