被动式节能及低耗能住宅设计;建筑热工物理。
Design of passive and low energy housing; thermal building physics.
最后以建筑热工系统为被控对象,试验研究了测试室温度模糊控制过程。
In the end, the process of the fuzzy control for the temperature indoor has been studied by experiments, by using the building thermal system as the controlled object.
自动控制对于提高建筑热工系统运行控制水平,降低建筑能耗和提高粮食干燥品质具有重要意义。
Auto control is important to enhance management level and reduce energy consumption for building thermal systems and improve grain drying quality for grain drying process.
本文研究了建筑垃圾再生混凝土及超轻泡沫混凝土的热工性能。
In this paper, the thermal properties of recycled concrete from construction waste and super-light foam concrete are researched.
对该地区既有居住建筑围护结构热工参数和气象计算参数进行了详细的计算分析;
Thermal parameters of building envelopes and outdoor thermal environment in this region are calculated and analyzed.
建筑围护结构热工性能的评价是进行建筑节能设计的前提和基础。
The accurate evaluation of building structure thermal performance is the premise and basis of building energy efficiency design.
门窗的热工性能对建筑节能有很大的影响。
The thermal property of doors and Windows has very important impact on buildings energy-saving.
绝热材料是改善建筑围护结构的热工性能的关键,在建筑节能工作中占有极其重要地位。
Insulation material is the key to improving thermal technology performance of building envelope, and plays an important role in building energy conservation.
窗户是建筑围护结构中热工性能最差的部位。
The relevant date demonstrates that window is the worst labor function location in building.
通过对建筑围护结构热工特性的分析,提出了围护结构新的构造形式,为进一步提高分户热计量的设计质量提供了依据。
To analyze thermodynamic properties of building envelope, the new forms of building envelope were put forward to provide evidence for improving the design quality of household heating metering system.
本文利用红外热像仪来测定建筑围护结构中是否存在热工缺陷。
The infrared thermography was used to estimate the thermodynamic disfigurement in this article.
准确测量和掌握建筑围护结构的实际热工性能,又是进行建筑节能评估和节能改造的前提和基础。
Accurately measure and control the actual building envelope thermal performance, are also premise and foundation for improving building energy assessment and energy-saving.
准确测量和掌握建筑围护结构的实际热工性能,又是进行建筑节能评估和节能改造的前提和基础。
Accurately measure and control the actual building envelope thermal performance, are also premise and foundation for improving building energy assessment and energy-saving.
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