线槽

使用热储存和抛物线槽收集器的弹射器冷却和热电发电机系统的瞬态自我分析

摘要。大量能源消耗吸引了利用可再生能源的关注，其中最重要的是在炎热气候中的太阳能应用，以满足冷却和功率的需求。本研究的新颖性在于在弹出器冷却循环中将瞬态自我分析应用于两个喷射器和两个蒸发器。Furthermore, the study uses solar data specific to Tehran in Iran.第三，通过吸收冷凝器热部位的废热，热电发电机系统提供了运行泵送和电气控制系统所需的能量，从而创建了一个完全自主的系统。Thermodynamic model have been designed using EES software.桑迪亚国家实验室（SNL）和国家可再生能源实验室（NERL）的结果验证了抛物线槽太阳能模型。The comparison with the experimental data collected by SNL during the LS-2 tests on the AZTRAK platform has shown good agreement.Weather conditions were analyzed as transients using Meteonorm software.The results show that the solar system produced the most heat in June and the least in December, with 816 kW and 262.3 kW, respectively.Additionally, production power and cooling in June are 5.9 kW and 86 kW, and in December: 2.7 kW and 28 kW.Regarding exergy destruction percentages, the solar collector has 86% and the storage tank has 6.5%.