So to research indoor thermal environment character and human thermal comfort is a practical thesis 因此冬季空调房间室内热环境特性及人体热舒适的研究,是一个很有实际意义的课题。
A primary outcome of the study will be a better understanding of the uncertainty associated with themal comfort predctions 一项研究的主要结果将是对热舒适度预测有关的不确定性的更好的理解。
The thermal comfort control was applied to meet the need of comfortable feeling of people and meet the demands of system energy saving 摘要采用热舒适控制不仅能满足人体的舒适感,而且还能满足系统节能的需要。
The so - called comfort index - based control ( ci control ) is defined as the control of hvac system , which takes thermal comfort index as the control parameter 热舒适指标控制( ci控制)是以热舒适指标为控制目标的hvac系统运行控制方式。
This new type of air conditioning can both satisfy people ' s demand to thermal comfort and indoor air quality and has the mighty potential of energy conservation 那么这种空调方式,既能满足人体热舒适和室内空气品质要求,又具有较大的节能潜力。
The fuzzy logic control is an artificial intelligent method in the intelligent control . simulation showed that this method has satisfactory dynamic - static effect 因此提出了一种基于模糊控制的直接热舒适指标控制策略,仿真结果表明具有较好的控制效果。
With the improvement of people " s living standard , it requires higher and higher for the heat comfort of truck that will be affected by many things 随着人们生活水平的提高,对载货汽车的热舒适性提出了越来越高的要求,然而,影响汽车热舒适性的因素很多。
The inner surface temperature of building envelope plays an important role in thermal comfort of human body in the buildings regulated merely by natural ventilation 摘要在完全靠自然通风调节而没有空调的建筑中,围护结构内表面温度对人体的热舒适性影响很大。
As the time increases that people live indoor and the demand of the indoor environment lifts , the hvac system is more and more important 随着人们在室内时间的增加和对室内环境要求的提高,使用暖通空调( hvac )系统提供良好的室内空气品质和较高的热舒适性变得越来越重要。
