Hot Humid Climates(炎热潮湿的气候)研究综述
Hot Humid Climates 炎热潮湿的气候 - The most and least amount of energy saving belongs to cold and hot-humid climates, respectively. [1] This work aims to estimate the expected hours of Predicted Medium Vote (PMV) thermal comfort in Ecuadorian social housing houses applying energy simulations with Phase Change Materials (PCMs) for very hot-humid climates. [2] Many approaches have been tried to obtain an improved indoor thermal environment in small-to medium-sized buildings located in hot-humid climates when using direct-expansion (DX)-based air conditioning (A/C) systems. [3] An epidemiological triad is used to identify the causal agents and host factors of work intolerance within hot-humid climates, commencing with the size dependency of resting metabolism and heat production accompanying load carriage, followed by a progression from the impact of single-layered clothing through to encapsulating ensembles. [4] Whereas students' preferences in classrooms located in hot-humid climates mechanically conditioned are towards colder environments. [5] However, the LSF wall assemblies have the risk of durability failure in hot-humid climates. [6] 5° latitudes, regions which are characterized by hot humid climates as well as poverty and underdevelopment. [7]节能最多和最少的分别属于寒冷和炎热潮湿的气候。 [1] 这项工作旨在估计厄瓜多尔社会住房房屋的预计中等投票 (PMV) 热舒适度的预期小时数,该房屋采用相变材料 (PCM) 进行能量模拟,用于非常炎热潮湿的气候。 [2] 当使用基于直接膨胀 (DX) 的空调 (A/C) 系统时,已经尝试了许多方法来改善位于炎热潮湿气候的中小型建筑的室内热环境。 [3] 流行病学三联征用于识别湿热气候中工作不耐受的致病因素和宿主因素,从伴随负荷运输的静息代谢和产热的大小依赖性开始,然后从单层服装的影响到封装合奏。 [4] 而学生在机械条件下位于炎热潮湿气候的教室中的偏好则倾向于较冷的环境。 [5] 然而,LSF 墙组件在炎热潮湿的气候中存在耐久性失效的风险。 [6] 纬度5°,气候炎热潮湿,贫困和不发达的地区。 [7]