热湿工况下工位辐射空调的热舒适实验研究

为研究热湿工况下使用工位辐射空调的人体热舒适情况,在人工环境实验室内,通过改变环境背景温度来影响人体的热感觉,并采用热感觉投票（TSV）作为评价标准,重点研究了人体头部、躯干、上肢、下肢以及整体热感觉情况。实验结果表明,尽管背景环境参数超出舒适范围,但使用工位辐射空调能维持受试者的舒适状态,即背景温度稳定在28 ℃时,平均整体热感觉投票值低于+0.2;背景温度为30 ℃时,受试者热感觉仍能满足ASHRAE规范中规定的80%可接受范围要求。     

青海乡域中小学教室内学生冬季的热舒适性

对青海乡域4所典型中小学校10间教室冬季室内温湿度、风速、黑球温度等热环境参数进行现场测试,同时对420余名青少年学生的衣着情况、热感觉评价等进行了主观问卷调查。对测试和调查结果进行统计分析,得到实测和预测热中性温度分别为13.8和14.5℃,热期望温度为16.2℃,90%的学生感到满意的舒适温度范围为15.8~18.7℃。在当地寒冷的气候条件、学生衣着习惯、心理期望及生理特性等因素影响下,中小学生形成了对偏冷环境的适应性,提出可利用适应性PMV模型（aPMV）对中小学生平均热感觉进行准确预测。可为乡域中小学教室冬季热环境设计提供依据。     

寒冷地区民用住宅冬季自然通风数值分析

为研究不同开窗通风模式对寒冷地区冬季室内环境参数的影响,采用CFD中的Realizable k-ε模型对兰州地区某住宅在考虑非稳定传热情况下的室内流场、温度场、热舒适性进行了数值分析,得到了既保证室内采暖温度要求又改善了室内空气品质的三种冬季自然通风模式。比较了三种通风模式下不同房间内的流场、温度场的分布特征。对不同通风模式下室内热舒适性的评价结果表明:室内整体上偏凉。     

夏季空调温度多高为宜

当环境条件为温度25℃，相对湿度50％，气流速度0．15米，秒时，人体处于最正常最理想的热平衡状态，也就是说，感觉最为舒适，反应最为良好。     

低气压环境被服系统总热阻计算模型

服装热阻是影响人体热舒适的重要因素之一,夜间睡眠状态下的被服系统总热阻包括人体所穿服装热阻与整个床褥系统热阻。针对低气压环境,目前,尚缺乏被服热阻实验数据,也没有可参考的被服系统总热阻的理论计算模型。以人体睡眠状态被服系统总热阻计算方法为依据,引入气压修正项对相关参数进行修正,建立了适用于低气压环境的被服系统总热阻的修正计算模型,并用模型计算了冬夏典型被服系统总热阻,分析了气压减小对总热阻的影响,发现冬夏季被服系统总热阻均随大气压力降低而升高,增加百分比最大值均为42%,且均出现在被子覆盖率为23.3%的条件下,当海拔低于3 000 m时,由被子覆盖率引起的被服系统总热阻增加系数不超过0.05。     

重庆地区农村住宅地面的热湿状态

为全面改善农村住宅热湿环境,调查研究了重庆农村住宅常用地面在春夏季节的热湿状态。对农村住宅的调查和典型住宅地面的现场实测显示,农村住宅室内地面潮湿现象普遍,水泥地面的潮湿比例最高,6月份室内空气和地面的湿度最大,室内地面温度比空气温度低2℃左右,在潮湿天气,修建较早的住宅室内地面凝结时数比例接近60%。结果表明,农村住宅地面的热湿状态亟待改善。     

居住建筑室内热环境低能耗营造的多目标设计方法

人居环境改善涉及重大民生问题,节能减排是国家重大战略。因此,有必要寻求合理的居住建筑设计方法,使设计方案既满足居民的室内热舒适需求又能降低建筑能耗。基于多目标遗传优化算法,建立能够对建筑设计方案进行优化、实现增加室内热舒适时间比例的同时降低建筑全年冷热负荷的居住建筑设计双目标优化模型。最后,以重庆典型户型为实例进行优化,优化后的设计方案建筑全年冷热负荷降低了47.74%,室内热舒适时间比例提高了3.94%,验证了模型的可行性和准确性。     

发动机燃烧室内壁材料热环境的气动热试验模拟技术研究

利用超声速矩形湍流导管和等离子电弧加热器模拟了发动机燃烧室内流和高超声速飞行器外壁面外流热环境,进行了平板表面冷壁热流测量和燃烧室内壁材料考核试验。结果表明:由于辐射换热的影响,在选取的两个典型来流条件下,发动机燃烧室内流热环境下的冷壁热流比外流热环境下的高出21%和40%,但是冷壁热流的增量基本相当,约为0.70~0.80MW/m²。随着冷壁热流的增加,辐射换热产生的热流增量的影响力会逐渐减小。材料考核时,相同配方的C/SiC复合材料在内流热环境下的表面温度高出约400℃,背面温度高出约90℃,这种差异对于发动机燃烧室内壁面材料考核至关重要,必须在材料考核试验中加以考虑。      

巴渝地区夯土民居室内热环境

传统民居的传统生态建造经验与价值已得到广泛认可,巴渝地区因特殊的地形与气候,传统民居在热环境的营造上有自身的特点。以重庆江津区龙塘村夯土民居为研究对象,以实地测量的冬季室内热工参数为基础,运用软件模拟分析,对民居全年室内热环境进行评价,发现夯土墙对改善夏季热环境更为有利,夯土民居冬季室内热环境远比夏季差;民居建筑中阁楼空间在调节室内热环境方面作用显著,具有冬季保温,夏季隔热的作用。     

广东地区农村住宅室内热环境优化研究

广东地区新建农宅有向多层发展和天井消失的趋势,室内热环境因此而变化。为了解广东地区新建农宅室内热环境现状,选取有天井现代农宅、无天井现代农宅和传统农宅各一栋进行现场实测,在对比分析的基础上发现现代农宅室内热环境存在优化的空间。针对广东地区现代农宅存在的问题,借助计算机辅助分析的手法提出适宜的优化措施,屋面遮阳、增大天窗高度及天窗开口置于下风向是改善有天井多层农宅夏季室内热环境的有效措施,无天井现代农宅通过局部架空和窗口遮阳改善室内热环境效果显著。     

Influence of Indoor Thermal Environment on Thermal Comfort of Human Body

Analyses the thermal environment parameters from physiological aspect and from psychological aspect respectively. Introduces the conception of thermal comfort of human body from heat balance aspect. Presents some measures to improve indoor thermal environment and advance thermal comfort of human body. Analyses the influence of indoor thermal environment on thermal comfort of human body and some questions on the aspect of this research, also puts forward some advices.     

Research on Classroom Thermal Environment during the Summer in Chongqing

In this paper, the university teaching buildings in Chongqing are taken as study object, and the indoor thermal environment of classroom is studied with the ways of investigation and testing, in which the indoor thermal environment of classroom is characterized by two aspects: personal and impersonal. The accepted thermal environment range of the classroom in summer is obtained. The difference between predicted thermal sensation and measured one as well as the influence of air velocity on thermal sensation are analyzed. Some measures to improve indoor thermal quality are proposed.     

Condition monitoring and mistake precaution system for power strap based on photoelectric detection

Thermal environment is analyzed based on the field measurements of indoor and outdoor temperature and humidity of a typical Tibetan traditional dwelling in a village of Gannan Tibetan Autonomous Prefecture, Gansu province in winter and summer. Results show that the combination of local factors such as history, geography, climate, unique local-style dwelling houses building structure and monomer structure. The structure (envelope)of traditional Tibetan dwelling has a good thermal performance. Passive methods should be used to build thermal environment constructions. Further improvement for indoor thermal comfort conditions through comprehensive and energy-saving heating are needed.     

Seasonal Characteristics of Thermal Environment in Urban Public Space of the Urban in Hot-summer and Cold-winter Region

Thermal environment in urban public space is considered as an important factor affecting thermal comfort of human beings. In the whole year, thermal environment in public space of the city in hot-summer and cold-winter zone changes dramatically, which has an effect on human thermal comfort. In this study, three typical public spaces including street, park and square of Changsha were selected for a long-term experiment of thermal environment. Based on the analysis of four significant thermal environment parameters-air temperature, relative humidity, global temperature and wind speed, seasonal characteristics of thermal environment in urban public space were obtained. The results show that the characteristics of urban thermal environment are determined by natural climate, while the physical structure of a city has essential impact on the changes of local outdoor thermal environment. Affected by plants (trees) and water (Xiangjiang river) air temperature of the street along the street is much lower, relative humidity is higher and solar radiation is weaker in most of the year. Compared to the street along the river, air temperature of the square is higher and solar radiation is stronger.     

Discussion on the Application Range of the PMV Equation

With the attention to the comfort degree of living environment, the phenomenon of making use of the PMV -PPD index within the ISO7730 standard to evaluate the indoor thermal comfort degree is more and more widespread. Many papers about indoor thermal environment are based on the PMV - PPD index as the reference or basis to research and analyze. But few people understand and pay attention to the application range of the PMV - PPD index. So some people misuse and abuse the PMV index and deduce some inaccurate conclusions. In this thesis, based on the analysis of the process of deducing PMV equation, the phenomenon that PMV index is different from the fact in the high temperature condition is explained; furthermore the application range of the PMV equation is confirmed. So to obtain the scientific and reasonable evaluation and conclusion in the process of research of the thermal comfort degree can be ensured.     

Research on Comfort Index of Gan-Lan Dwellings in LongSheng Area of Guangxi Province,Guilin City

The research on architectures with ethnic characteristics increase both domestic and abroad, and one of the important objectives of which is to find whether there is good adaptability between the space and forms of architecture and area climatic conditions, In this paper, through the field measurement of parameters and meteorological data of stilt style architecture of the minorities in Guilin of Guangxi province and ordinary residential building, and using Design-Builder simulation software to model, conducting the CFD simulation, thermal environment inside the building and indoor temperatures of the whole year were obtained, then we calculated that thermal comfort index inside the building for the full year. Comparing the simulation results, we concluded that thermal environment inside the building and thermal comfort index of stilt style architecture significantly outperformed the ordinary ones. Stilt style architectures are more suitable to the climates in Guangxi province. At present, the research of stilt style architecture is still at an early age, and this paper can provide basis for the research on the energy saving technology of stilt style architecture.     

南方建筑非透明围护结构热工与节能设计

如何兼顾冬夏两季建筑供暖空调负荷和能耗,保证室内热环境质量,确定最适宜的热工特性,是长期困扰中国南方建筑围护结构热工与节能设计的难点。通过对夏热冬冷和夏热冬暖地区建筑在采暖、空调与自然通风条件下动态热过程的分析,研究了这一地区围护结构热特性与能耗的制约关系,以及对室内热环境与建筑热稳定性的作用机理。在兼顾冬季保温与夏季隔热的情况下,将建筑全年能耗作为控制目标,从室内热环境质量、节能效果、围护结构的安全性、可靠性、经济性和实用性等角度评价目前所采用的围护结构节能技术存在的问题,提出一种适宜南方气候的建筑围护结构热特性指标及构造形式。     

Study on Application of Interrelated Controlling Method for Thermal Environment and Energy Saving in Buildings--Application in Determining the Control Indexes for Heat Insulation and Energy Saving of Enclosure in Bu ildings

In this paper according to the relationships between indoor-outdoor climate parameters, indoor thermal environment parameter and heat insulation parameters of enclosure, the control condition of indoor thermal environment and the control parameters of heat insulation-energy saving are advanced. Prescribing a quality limit for the parameters, the control indexes for the heat insulation energy saving of the enclosure are given.