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- The study is based on the human thermal comfort model offered by Fanger and the enthalpy energy theory. 中文摘要现代人有绝大多数的时间处于室内的空间环境,不舒适的空间对人精神及健康上均有不健康的影响。
- Based on the human thermal comfort in natural ventilation environment, establishes a novel evaluation method and reevaluates the tested result. 基于自然通风条件下人体的热舒适建立了一个新的评价方法,并对实测结果重新进行了热舒适评价。
- According to the rule which summarized by the value simulation result and the request of human thermal comfort and energy conservation, it gives the corresponding appropriate design and suggestion. 最后根据由数值模拟的结果总结出的规律,结合人体热舒适性和节能要求,给出相应的合适的设计参数与建议。
- Experiment on human thermal comfort zone 人体热舒适区的实验研究
- Indoor Air Diffusion and Human Thermal Comfort 空调房间气流组织与人体热舒适
- Impact of wind spectra on human thermal comfort 风速频谱对人体热舒适性的影响
- human thermal comfort evaluation 人的热舒适评价
- Human Thermal Comfort Calculation of Air Conditioned Cockpit 空调座舱热舒适性计算
- Fuzzy Comprehensive Evaluation of Human Thermal Comfort 人体热舒适的模糊综合评判
- Research on the Impact of Green Roof on Indoor Human Thermal Comfort 屋顶绿化对室内人体热舒适的影响研究
- Relationship Between Air Distribution in an Air-conditioned Room and Human Thermal Comfort 空调房问气流组织与人体热舒适关系的初步探讨
- Impact of airflow fluctuation on human thermal comfort and indoor air quality in a personalized ventilation system 个性化送风波动对热感觉和室内空气品质的影响
- human thermal comfort 人体热舒适
- Abstract Personalized ventilation systems can enhance IAQ and improve thermal comfort of the human body. 摘要个性化通风系统可以改善空气质量、改善人体热舒适性。
- Thermal comfort exists if the human body in thermal equilibrium with its environment, implying a constant temperature of the body. 若人体与环境达成热平衡,以保持体温恒定,就谓之具有热舒适性。
- Designs a set of equipment including the simulator of human dry heat loss and the temperature control circuit to evaluate thermal comfort. 设计了包括模拟人体干热损失的模拟体和温度控制电路在内的一套热舒适评价装置,验证了模拟体表面温度和产热量的稳定性。
- Therefore, it is very actual value to carry out the research of outdoor environmental thermal comfort. 因此,展开户外热环境舒适性研究具有现实意义。
- P.O.Fanger,Thermal Comfort,Robert E.Krierger Publishing Company,Malabar,FL,1982. 金招芬;朱颖心;2001.;建筑环境学;中国建筑工业出版社
- The results show that the buried pipe ventilation system can improve indoor thermal comfort in hot climates. 结果表明,埋管系统通风降温可以改善炎热地区的室内热舒适性。
- The study demonstrates that active FES can enhance thermal comfort while reducing energy use and emissions. 该研究表明增强型FES可在减少能耗和排放的情况下提高热舒适度。
