The theoretical performance investigation of the adsorption chiller system integrated with a partially covered N-PVT Collector is mathematically modeled and presented in the paper. The study employs a MATLAB-Simulink integrated interface, and the silica gel-water combination serves as the working pair. The average weather conditions of Shiv Nadar Institute of Eminence for the month of May are taken into account the study. The investigation shows that solar energy integrated with an adsorption cooling system could efficiently provide a cooling effect. The results suggested that, due to the direct integration of the PVT with the chiller system, the influence of cycle operation is significant at the minimum and maximum solar radiation times. An optimization research for the optimal number of collectors for silica gel regeneration revealed that using N = 5 collectors results in an outlet hot water temperature range of 110 C. During operation, the maximum adsorption capacity of 0.21 kg of water/Kg desiccant is obtained, for providing an adequate cooling effect. The system achieved a specific cooling power of between 50 and 200 W/kg during the process, and a coefficient of performance between 0.15 and 0.23.

中文翻译：

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与部分覆盖的 N-PVT 集热器集成的双床吸附式制冷机的性能研究

本文对与部分覆盖的 N-PVT 收集器集成的吸附式制冷机系统的理论性能研究进行了数学建模并提出。本研究采用MATLAB-Simulink集成接口，以硅胶-水组合作为工作对。该研究考虑了希夫纳达尔杰出研究所五月份的平均天气条件。研究表明，太阳能结合吸附式制冷系统可以有效地提供制冷效果。结果表明，由于PVT与制冷系统直接集成，循环运行在最小和最大太阳辐射次数时的影响显着。对硅胶再生最佳收集器数量的优化研究表明，使用N=5收集器时，出口热水温度范围为110℃。运行过程中，获得最大吸附量为0.21kg水/Kg干燥剂，以提供足够的冷却效果。该系统在此过程中实现了 50 至 200 W/kg 之间的比冷却功率，以及 0.15 至 0.23 之间的性能系数。