木板壁民居对湿热气候的适应性

为调查山地木板壁民居对重庆夏季湿热气候的适应性,选取当地典型木板壁民居作为研究对象,在夏季对其室内热环境进行实测。结合当地建筑特点及居民生活习惯,对实测数据进行分析,并利用APMV对室内热环境进行评价。结果表明,木板壁民居夏季依靠自然通风显著改善了室内热舒适度,夏季典型日APMV达Ⅱ级以上的约占65%。传统木夹壁民居在热环境营造上响应了当地气候特点,具有较好的气候适应性。     

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。     

冬季室内热环境与被褥微气候的匹配

冬季睡眠状态下,室内热环境与被褥微气候分别对人体头部和被覆躯体的热感觉造成直接影响。为了分析两个热环境的匹配关系以满足睡眠人体的热舒适水平,实验在不同的室内温度下,调节被褥微气候温度,测试了受试者的皮肤温度,并记录了热感觉和热可接受水平。研究结果表明:睡眠状态下,相比于室内热环境,人体热感觉对被褥微气候更敏感;此外,通过分析室内热环境和被褥微气候分别与整体热感觉和整体不满意率的关系,得到了睡眠热环境舒适区间。     

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。     

缓冲空间对拉萨市居住建筑冬季采暖能耗的影响

冬季现场调研与热环境测试表明,拉萨市现有居住建筑的缓冲空间能明显改善室内热环境。但当地非采暖房间冬季热环境仍较差,居住建筑采暖需求明显。当地采暖能耗与环境负荷增长趋势明显。以拉萨市常见的单元式住宅为基础建立了热工计算模型,模拟分析了南北向缓冲空间进深设计对冬季采暖能耗的影响规律。结果表明：南北向缓冲空间均能有效降低模型的采暖能耗,其中,随着南向缓冲进深增大,模型采暖能耗呈递增趋势;随北向缓冲空间进深增大,模型采暖能耗呈先降后增趋势,北向缓冲空间模型之间能耗差很小。缓冲空间优化设计模型与基础模型的能耗对比分析显示,合理设置的南北向缓冲空间能够大幅降低采暖能耗。     

徽州传统民居室内水体蒸发实测研究

徽州传统民居室内水体蒸发对室内环境的营造起到了积极作用。根据水体蒸发热平衡,建立民居室内水体蒸发模型,用实地连续测试的蒸发数据对该模型进行验证。结果表明,该模型能有效的计算徽州传统民居室内水体蒸发过程,计算和测试的水体蒸发量之间的均方根误差和平均相对误差分别为41.5 g/（m²·h）和4.2%。环境参数中地面温度、太阳辐射、风速、相对湿度和气温对水体蒸发的影响程度逐渐降低,蒸发量和环境参数之间的相关系数分别为0.909、0.779、0.736、-0.654和0.622。     

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。     

高枝接根快速繁殖桩材的技术要点

1.应摆放在阳光充足、通风良好处。夏季中午遮荫,冬季在南方只须放向阳背风处即可越冬,北方应搬入低温室内。     

西北地区冬季高压米兰成活率高

米兰的压条繁殖一般都在夏季。但在西北地区由于夏季风多、干旱、少雨、空气湿度小,夏季高压时,挂包内的藓土很容易风干,需每日多次喷水来保持挂包内的土壤湿度,管理上多有不便。而冬季室内供热后正好产生了     

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.     

苏北地区日光温室能量分配动态研究

为了进一步提高日光温室保温性能,减轻温室内低温寡照灾害发生,以苏北（徐州）番茄日光温室为研究对象,利用采集的2010年12月-2011年4月温室小气候数据及番茄发育数据,根据日光温室小气候形成的物理过程与机理,系统研究了冬春季节不同天气类型及不同叶面积指数对温室能量分配的影响。结果表明：日光温室内潜热、显热随着室内总辐射量的改变而发生变化,阴天以显热消耗为主,潜热消耗量全天低于显热;晴天日光温室内用于作物蒸腾的能量显著多于阴天,阴天室内外贯流传热消耗的能量远远多于晴天;随着叶面积指数增大,到达地面的太阳辐射减少,地面升温慢,室内空气与地表的显热交换量减少,同时室内空气与墙体的显热交换增加。本研究结果可为温室的结构优化及冬春季节日光温室管理提供科学依据。     

Effect of Moisture on Indoor Thermal Environment

In the past, the temperature was used as the sole quota to control the indoor thermal environment in hot summer and cold winter areas of China, but a major quota, the relative air moisture, was often ignored. In this paper, the effect of relative air moisture on indoor thermal environment is analyzed. The results show that the energy consumption can be reduced and comfortable thermal environment can be provided under natural condition by regulating the indoor moisture.     

A NEW METHOD FOR AMELIORATING INDOOR THERMAL ENVIRONMENT BY DEHUMIDIFYING

The climate in the region of the Yangtze River is sultry in summer and wet and cold in winter. The conventional building measures are shading in summer and insulating in winter,which have heen gotten some effects. Becasue the sultry,wet and cold sensation still affect, the indoor thermal environment can not get an ideal improvement. This paper shows that the new method by dehumidifying is the most effective and the most economic.     

Influence of heat storage mode of domestic hot water on the performance of ground heat exchanger in ground-source heat pump system

The vertical U-tube ground-coupled heat pump system provides cold and heat for the controlling of indoor environment. Under the air-conditioning condition, the vertical U-tube ground-coupled heat pump system with heat recovery can provide domestic hot water. The influence of supplying domestic hot water on the heat transfer performance of ground heat exchangers is different under different operating modes in summer and winter. Through a project design of ground-source heat pump system, the influence of supplying domestic hot water under heat storage mode on the heat transfer performance of ground heat exchangers in summer and winter is respectively analyzed. The dynamic performance of heat exchangers under different working conditions is analyzed, and through numerical calculation, the heat transfer performance parameters of ground heat exchangers under different operating modes are obtained. From the calculation results, the adjusting methods based on the load characteristics of this project represent.     

Capillary Floor Radiant Heating System of Rural Residential Building in Chongqing

The indoor environment in this zone, not officially assigned as a traditional heating zone, is cold and humid with poor thermal comfort in winter. Investments and surveys the status of heat consumers in rural residential buildings in Chongqing, intending     

赤峰市松山区山坡地日光温室气温变化规律

为了解山坡地日光温室气温变化特征,提高设施农业气象服务水平,本研究对温室内外小气候因子进行了观测。采用相关分析和逐步回归的方法,对夏冬2季温室内外气温、湿度、地温和太阳辐射变化特征及室内温度预测模型进行了研究。结果表明：（1）夏冬2季室内温度、地温具有明显的日变化规律,冬季温室增温效果大于夏季,山坡地日光温室具有良好的保温效果;（2）5 cm、10 cm、20 cm地温变化幅度随土层深度的增加而减小,峰值出现随土层深度的增加而相应的滞后1 h左右;（3）日光温室室内温度与室内外小气候因子相关性较好。试验建立的夏冬2季室内温度预报模型,夏冬2季室内温度预报值绝对误差小于1℃,相对误差小于10%。     

Heat Transfer Performance of Capillary Mats Using Wet Construction in Winter

For the capillary mats using wet construction, a winter experiment designed to investigate the heat transfer performance was described, and the heat transfer performance analysis which contains the comparisons between different pipe space and different thickness of cement mortar surface was carried out. As a result, compared with that of the traditional radiant heating pipes, the capillary mats of wet construction require supply water with lower temperature, and it shows good heat transfer performance and system energy efficiency as well. According to the demand of indoor heat dissipation and human comfort as well as the coupling relationship between the temperature of supply water and surface construction thickness, it is suggested that the proper construction method should be comprehensively considered in practical applications.     

Quantitative Analysis on the Effect of Thermal Bridges on Energy Consumption of Residential Buildings in Hot Summer and Cold Winter Region

对乳酸链球菌素分子结构、作用机理、产品功效、成本核算、经济效益及国内外研究进展进行概述,并介绍了乳酸链球菌素在畜产品加工过程中的应用方法与用量.