Adsorption cycle can produce cooling generation efficiently by exploiting sunlight. The study aims to analyze the performance and advantages of the adsorption cycle run by sunlight working with a novel activated carbon. The latter is CarboTech A35/1. A new model equation of the cycle is based on the adsorption thermodynamic at a constant temperature. For the proposed study, a simulation program was developed to solve the model equation predicting the best cycle performance. The main obtained results were validated with simulated and experimental data and revealed considerable concordance. The study showed that, under a typical operating temperature, the best coefficient of performance and the produced ice were 0.778 and 13.87 kg, respectively. Also, those results indicate that the produced ice is improved by reducing the temperature water inside a water tank. In comparison with the non-solar refrigeration cycle, the advantages of the novel one, concerning the daily saving electricity and avoiding penalty tax for CO₂ emissions, were 25.42 kWh and 1.13 €, respectively.

吸附循环可以通过利用阳光有效地产生冷却。该研究旨在分析日光与新型活性炭一起进行的吸附循环的性能和优势。后者是CarboTech A35 / 1。一个新的循环模型方程是基于恒定温度下的吸附热力学。对于拟议的研究，开发了一个仿真程序来求解预测最佳循环性能的模型方程。主要获得的结果已通过模拟和实验数据验证，并显示出相当大的一致性。研究表明，在典型的工作温度下，最佳性能系数和产生的冰分别为0.778和13.87 kg。也，这些结果表明，通过降低水箱内的水温可以改善冰的产生。与非太阳能制冷循环相比，该新型制冷循环的优势在于每天节省电力并避免了二氧​​化碳的罚款₂排放量分别为25.42 kWh和1.13€。