This paper presents a technical-economic model for optimizing the thermal insulation thickness of various components in an air-conditioned building to maximize the net savings.
为降低建筑费用,提出一种计算空调建筑不同围护组件经济绝热厚度的技术经济模型。
The thermal insulation is distributed through the pressurized fuselage, and is of different thickness, and installed in different ways.
隔热层分布于整个承压机身,厚度不同,并以不同的方式安装。
To get more accurate and efficient solution, a computer program based on economical thickness method is developed with functions of thermal insulation, cooling insulation and dew point check, etc.
设备和管道的隔热计算十分繁琐和复杂,为提高计算效率和计算的准确性,采用经济厚度计算法,编制了一种具有保温、保冷和露点温度校核等多功能的设备和管道隔热计算程序。
A method that can calculate the thickness of fibrous thermal insulation in the metallic protection system was presented.
介绍了一种在设计金属热防护系统中计算纤维隔热材料厚度的方法。
The composite has good insulation and thermal conductivity in the thickness direction and good planar electric conductivity, thus can be used as electric heater.
该材料在厚度方向具有绝缘和导热性, 在面内的导电性良好,适用于热电器件的电极材料的要求。
The calculations of radiator surface area and heat insulation layer thickness are necessary for the design of passive thermal control system.
纳卫星的被动热控系统对卫星舱内的温度控制及其有效载荷的可靠工作具有重要意义。
The optimum thickness of thermal insulation are decided through calculation, so that lowest heat loss value can be reached.
同时对保温层厚度及散热损失等进行了设计计算并与实测散热损失值做了对比。
In alpine region and special requirements of thermal insulation, the thickness of the board can be designed according to the demand of thermal insulation and soundproof.
高寒地区和特殊保温需求,板厚可根据保温及隔声需求另行设计。
In this paper the rationale of thermal insulation using aluminium foil as well as the calculation of RK values is described, and the rational thickness values of the air interface layer are presented.
本文讨论了用铝箔隔热的基本原理和R _ k值的计算,提出了表面贴铝箔的绝热空气间层的合理厚度值。
Thermal insulation properties of specimens are proportional to thickness, surface density, and are inversely proportional to porosity, permeability, etc.
试样具有一定的保温性能,且保温性大小与厚度、面密度成正比关系,与孔隙率、透气性等成反比关系。
An computor simulation model is developed for optimizing the thickness of thermal insulation materials and the glazing area of various surfaces of a solar residence in a central heating system.
本文建立的最优化数学模型为集中供热系统中太阳能节能住宅提供了一优化设计方法。
The results show that thermal insulation coating and suitable coating thickness are helpful to improving the filling velocity of liquid aluminum.
结果表明,保温涂料及一定的涂层厚度有利于提高铝液的充型速度。
The results show that thermal insulation coating and suitable coating thickness are helpful to improving the filling velocity of liquid aluminum.
结果表明,保温涂料及一定的涂层厚度有利于提高铝液的充型速度。
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