本项目提出一种基于光伏协同强化传质的太阳能吸附式制冷系统，即系统利用太阳电池驱动太阳能吸附制冷中的管路系统，强化工质输运，缩短系统解吸周期，有效提高太阳吸附制冷系统的解吸速率，提升了系统制冷总效率。项目针对光伏协同强化传质作用下吸附式制冷循环特性进行深入的基础研究；对系统进行了实验和理论研究，深入剖析了引入光伏协同强化传质系统对翅片管强化传热的太阳能吸附制冷系统制冷性能的影响；分析了太阳电池供能--管路系统传质强化--吸附式制冷的协同工作机制，实现有光伏协同强化传质下吸附制冷系统制冷性能的关键实质性进展。

The project is proposing a adsorption refrigeration system with the PV collaborative strengthening mass transfer.The solar adsorption syetem uses the PV to drive refrigeration piping systems,to strengthen refrigerant transport and cycle, to short the desorption cycles and improve the desorption rate effectively, then the overall efficiency of adsorption refrigeration system would be enhanced. Depth fundamental research would be done for the characteristics of absorption refrigeration cycle with PV collaborative strengtening mass tranfer.The syetem would be experimental and theoretical studies ,the impact to solar adsorption refrigeration system performance with finned tube would be analyzed profoundly,due to adding the PV collaborative strengthening mass transfer system in it. The collaborative work mechanism would be analyzed,which involves the solar enengy supply,enhanced mass transfer piping syetems and adsorptiong cooling.To achieve the key progress for improving the performance of solar adsorption refrigeration with PV collaborative strengthening mass transfer.In addition, The exploratory researchs would been done on the double adsorption beds system based on the research results of single bed adsorption and the results would provide reference for the adsorption refrigeration technology with double adsorption beds.