温室环境多效水循环系统研究OA
针对内蒙古等干旱半干旱地区温室农业面临的高湿环境调控需求与水资源短缺的双重挑战,该研究旨在突破传统技术中将湿度控制与水资源供给割裂处理的局限,通过集成化设计,将冷凝除湿过程与主动集水功能紧密结合,实现"除湿—集水—回用"的闭环水循环.核心设计包括,创新的多层梯形波纹蒸发器面板、高度集成的四模块系统架构、智能调控机制.研究结果表明,该一体化系统成功实现了温室湿热空气的高效除湿与液态水的同步回收.有效调节温室湿度环境、显著回收水资源、降低外部水源依赖,并探索余热回收利用以提升整体能源效率.梯形蒸发器面板的模块化设计也大幅降低了维护成本.该系统为干旱地区温室提供了一种"以湿治旱"的可持续解决方案.
In response to the dual challenges of high humidity environment regulation and water shortage faced by greenhouse agriculture in arid and semi-arid regions as Inner Mongolia,this study aims to break the limitations of traditional technologies that separate humidity control from water supply.Through an integrated design,the condensation dehumidification process is integrated with the active water-gathering function to achieve a closed-loop water cycle of"dehumidification-water gathering-reuse".The core design includes:innovative multi-layer trapezoidal corrugated evaporation panel,a highly integrated quad-module system architecture,and a smart control mechanism.The results show that the integrated system successfully efficient dehumidification of the humid air in the greenhouse and simultaneous recovery of liquid water.It effectively regulates the humidity environment in the greenhouse,significantly recovers water resources,dependence on external water sources,and explores waste heat recovery for overall energy efficiency improvement.The modular design of the trapezoidal evaporation panels also greatly reduces maintenance costs.This system provides sustainable solution of"treating drought with humidity"for greenhouses in arid regions.
章世光;张广安;由向平;王学峰
赤峰学院,内蒙古 赤峰 024000赤峰学院,内蒙古 赤峰 024000赤峰学院,内蒙古 赤峰 024000赤峰学院,内蒙古 赤峰 024000
信息技术与安全科学
温室环境冷凝除湿一体化蒸发器面板模块体系
greenhouse environmentcondensation dehumidificationintegrationevaporator panelmodular system
《科技创新与应用》 2026 (14)
38-41,4
内蒙古自治区大学生创新创业训练项目(S202510138012)
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