In everyday solids, liquids and gases, heat or thermal energy arises from the motion of atoms and molecules as they zing around and bounce off each other.
我们日常的固体、液体和气体,它们的热量和热能是从原子和分子在它们到处活泼跳跃和相互碰撞、弹开而上升。
In an effort to increase energy efficiency, much of the heat in the Intelligent Workplace comes from solar thermal energy and recaptured heat from generators.
在一项提高能源效率的努力中,智能工作场所的很大一部分热来自于太阳能,然后从发电机获得热量。注:我的理解是不是先太阳能发电,然后电能转换成热能?
The thermal state and its change of thermal medium have important affection to transformation and transfer of heat energy, and they are related to the output and quality of production closely.
热媒的热力状态及其变化对能量的转换与传递有着重要的影响,并与产品的产量和质量密切相关。
In order to provide heat for a house without power and fossil energy consumption, a solar thermal energy conversion system for house heating was designed and manufactured.
为了给房间提供热能而不消耗电力和常规能源,设计并制造了用于房屋取暖的太阳能热转换系统。
CHP can produce electricity energy and make full use of the waste heat energy. Hence its total thermal efficiency is much more than the traditional energy conversion plant.
CHP既能发出电能,又能充分利用余热能量,使其总的热效率远远超过传统的能量转换装置。
Many Heat Energy engineers always work to analyze and simulate compute to thermal system of power plant for supporting its security and economic performance operation.
为了配合火电厂热力系统的安全、经济运行,对其热力系统进行分析与模拟计算一直是众多热工工作者从事的工作。
A method for resolving the energy equation of the circular microchannel, which considers axial heat conduction, temperature jump, velocity slip and thermal entrance is presented.
提出了一种考虑轴向热传导、速度滑移、温度跳跃和入口效应情况下圆形微通道能量方程的求解方法。
Cooling-water flow and heat transfer directly influences the cooling efficiency of diesel engine, thermal load of high temperature components, heat distribution of engine and energy utilization.
冷却水的流动与传热直接影响柴油机的冷却效率、高温零件的热负荷、整机的热量分配和能量利用。
Using condensation heat from centralized air-conditioning system for preparing domestic hot water has a remarkable economy, and can save energy and reduce thermal pollution to environment.
利用集中式空调系统冷凝热制备生活热水不仅具有明显的经济性,而且在节能的同时降低了对环境的热污染。
The nonlinear parameter estimation technique can simultaneously estimate the thermal conductivity, heat transfer coefficient and absorbed energy.
采用非线性参数估计可同时估计出热扩散率、散热系数以及试样吸收的能量。
Passive cooling is a building design approach that focuses on heat gain control and heat dissipation in a building, in order to improve the indoor thermal comfort with low or nil energy consumption.
无动力制冷是一个建筑设计的新方式,设计师们更多的关注热量的吸收控制和热量的损耗,以保证室内的温度宜人和能源的零消耗。
It combines the advantage of heat pump energy supply and latent thermal energy storage which can be used for discontinuous hot water supply.
该装置能够充分发挥相变储能技术和热泵供热技术各自的优势,高效节能,适用于间歇供应生活用热水场合。
For PRW, the seasonal thermal energy storage (STES) alleviated the dependency on aquifer for heat source or sink, and made aquifer as a carrier for heat storage.
抽灌同井运行时的季节性储能很大程度地减轻了对含水层作为热源(汇)的依赖,而让其作为一种蓄热的载体。
Application of this technology can enhance heat insulation effect of wellbore, decrease thermal lost, supplement energy and adjust vapor-sucking section.
实践表明,该项技术的应用提高了井筒隔热效果,降低了热损失,同时又补充了能量,调整了吸汽剖面。
The reasons were analyzed from the points of how efficiently GSHP USES the underground thermal energy and EER comparison of GSHP with the air source heat pump.
通过比较土壤源热泵系统与风冷热泵系统的耗能量和土壤源热泵系统如何有效地利用地表热能两个方面,分析了土壤源热泵系统节能的原因并提出了影响其节能特性的因素。
The results show that the material has higher latent heat and better thermal stability, so it can be used in thermal energy storage and heat recovery system.
测试结果表明,该储能材料具有较高的相变潜热和较好的热稳定性,因此可被应用于储能和热能回收系统中。
Latent functionally thermal fluid (LFTF) is a kind of new medium with thermal energy storage and heat transfer enhancement.
潜热型功能热流体是一种集储热与强化传热功能于一体的新型工质。
The thermal insulation performance of building external wall is very poor in cold regions in our country, that lead to severe energy waste, environment pollution and poor indoor heat environment.
由于我国寒冷地区建筑墙体保温性能不良,造成了严重的能源浪费,并导致环境污染及室内热环境较差。
Electrical conductors are usually metallic. Thermal conductors allow thermal energy to flow because they do not absorb radiant heat; they include materials such as metal and glass.
电导体一般是用金属制成的。热导体能使热能流动,因为它无法吸收辐射热;这类物质包括了金属和玻璃。
Thermally induced vibration of space structures, which are subjected to incident solar heat flux and emitting thermal energy by radiation, is one of typical modes of structural failure.
空间结构在辐射换热条件下的热诱发振动是导致空间结构失效的一种典型模式。
The significance of energy saving for boiler heat user is described in this paper, the thermal calculation and analysis for an example are also emphasized.
本文阐述了锅炉用热设备节能的意义,并通过某实例进行了热力计算和分析。
The concept of the underground thermal energy is discussed, and some experiments are conducted on pile heat exchanger, it is helpful to solving the key problem.
在对地表热能概念进行论述分析的基础上,对桩埋换热器的特性进行了模拟实验,为地源热泵更广泛的应用提供了依据。
The heat conductivity, thermal capacity, pressure and resistance of water are bigger than those of the air, so a person loses more body heat in water and consumes more energy than on land.
水的导热性和热容量、压力和阻力都比空气大,人在水中体热散发相对多一些,能量消耗也大于陆上活动。
Based on some demands in thermal energy engineering and chemical industries, a new type of heat pipe was proposed and studied experimentally.
根据热能工程及化工领域中的某些实际需要,提出了一种新型分离式可变热导热管并进行了实验研究。
The application and their research progress of carbon materials in thermal energy domain such as heat transfer enhancement, chemical heat pump, and latent energy storage, are reviewed.
综述了碳材料在强化传热、化学热泵和潜热蓄能等热能领域中的最新应用与研究进展;
Heat transport by thermal network commitment, its energy consumption showed loss of heat loss along the way and leakage of water.
热能输送由热网承担,它的能量消耗表现为沿途散失的热损失和泄漏的水。
The heat capacities of dimethyl carbonate (DMC) which is used as fuel additive and paraffin wax which is used for thermal energy storage from air-condition condenser were measured.
在此基础上测量了含氧燃料添加剂碳酸二甲酯及可作为蓄热介质石腊的比热容,为混合燃料的设计和空调余热利用提供基础数据。
The results show that: if the height of the air inlet increases, the thermal efficiency will improve, and the heat and energy recovery device will be more safe.
研究表明:空气入口面高度加大有利于提高余热余能回收装置热效率和安全性。
Heat preservation and energy saving experiment using aluminized thermal screens in greenhouse was conducted.
用国产缀铝保温膜幕在温室内进行了保温节能实验。
Various energy conservation technologies incorporated for water chillers such as heat recovery, ice-thermal storage and free cooling are also introduced.
先进的离心式冷水机组不仅具有制冷功能,而且具有热回收、冰蓄冷、免费取冷等多种功能,节能效果显著。
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