And the heating load is data base of the actual operation of solar heating system.
并将计算得出的逐时采暖负荷作为太阳能采暖系统实际运行工况负荷侧的数据基础。
The user-end water temperature changes greatly with the variation of heating load.
随着供热系统热负荷变化,导致用户端供水温度波动明显。
The water flow rate should be adjusted appropriately to cope with the heating load of each zone.
应该适当调节水的流速来满足每个区域的热负荷。
According to the national request of northern winter heating design, heating load is calculated in this paper.
按照国家关于北方地区冬季采暖设计的要求,进行了采暖负荷计算。
In this article, the calculation of heating load, the selection of heating system and how to charge are discussed.
文章就热负荷的计算,供暖系统的选择及热费收取等方面进行了探讨。
Combined with practical engineering examples, the ratio of cooling load and heating load of cogeneration system is discussed.
结合工程实例,讨论了城市冷热联供的冷、热负荷比例。
First, it introduces time series analysis principle. Then, heating load and model error prediction are given by this principle.
文中首先介绍了时间序列法预报原理,接着应用该原理给出供热负荷和模型误差的预报。
There are big differences between New and old pipeline in heating load calculations, equipment selection, heating water quality.
新、旧采暖方式在管道敷设、热负荷计算、设备选择、供暖水质等方面都有很大不同。
The simulated dynamic heating load will guide the choice of auxiliary heat scheme and the equipments in the passive solar buildings.
室内负荷的动态模拟结果为被动式太阳能建筑的辅助能源运行方案、设备选择提供依据。
However, During the design of heating engineering, determining the orientation correction factor to the heating load is very important.
然而在进行采暖工程设计时,确定采暖热负荷的朝向修正率是非常重要的。
The paper introduces a method for calculating the heating load of initial station or heating station of hot oil pipeline, and gives proof to it.
为此,介绍了一种热油管道首站或加热站加热负荷的计算方法,以合理确定管道首站和中间站的热负荷。
Flow rate balancing makes it possible to provide each zone with a design flow rate and to meet the heating load in a radiant floor heating system.
在地板辐射采暖系统中,流速平衡使每个区域都有可能达到设计流速,满足采暖负荷。
According to time series analysis principle, heating load with energy saving is predicted, which is taken as the set points for predictive control.
根据时间序列分析原理,对供热负荷进行节能预报并作为预测控制的设定值。
While focusing on reducing the heating load by making the building compact, our design allows natural sunlight and cross-ventilation in the building.
注重降低热负荷的同时,使建筑结构紧凑,我们的设计使得建筑能自然采光和通风。
This paper presents the application of heating load prediction and predictive control in the heat supply system for energy saving and high grade heat supply.
为了节能和优质供热,提出将负荷预报和预测控制施加于供热系统中。
There has been a close connection between power load and heating load. Heat electricity cogeneration can achieve energy saving and improve environmental quality.
电力负荷与供热负荷紧密相关,热电联产有利于节能和改善环境质量。
According to Grey Forecasting theory, this paper presents two sets of Grey System Model which can be applied to forecast heating load — GM (1, 1) and Grey Correction Model.
本文根据灰色预测理论,提出了两种适用于供热负荷预测的灰色系统方法——GM(1,1)法和灰色校正模型法。
The characteristics of cooling and heating load of school buildings are discussed, the cooling and heat sources that are applicable to heating and cooling within school buildings are introduced.
探讨了校园建筑冷、热负荷的特点,介绍了适用于校园建筑供暖、供冷的冷热源。
The principle was established with designing the capability of heating equipment according to the peak heating load in greenhouse and deciding fuel store by total heating load in a period of time.
确立了依据最大采暖负荷设计采暖设备的容量,依据期间采暖负荷决定每个采暖期的燃料储备的原则,并给出了温室供热系统的设计程序。
The correlation between the heating load of building and the solar heat collection of solar collector system was analyzed in the climate region of Xining, the capital of Qinghai province in Chino.
结合西宁地区的气象资料,计算太阳能系统集热量与建筑热负荷之间的相对关系;
Using the exergy analysis method, the conception of energy quality character was presented, which indicated the discretion of electricity, gas, coal, steam and hot water, cooling or heating load etc.
基于热力学第二定律的分析方法,按照能质系数的概念确定了电、天然气、煤、蒸汽、热水等各种形式的建筑用能及建筑物耗冷量、耗热量的能源品位高低;
Load matching is intended to make induction heating power to the rated output power, and improve efficiency.
负载阻抗匹配的目的是为了使感应加热电源能够输出额定功率、提高效率。
The peak shaving parameter limit is important to the choice of heating system capability, and is relate to heat load distributing and economic question.
调峰的参数界限是供暖系统装机容量选择的重要参数,关系到系统运行时的负荷分布与经济性。
In this paper, the basic induction heating power load matching a brief analysis.
本文对感应加热电源的基本负载匹配方法做了简要的分析。
Heating zone with low thermal inertia to allow high load variations.
加温区带有低温惯性装置允许高温下负载变化。
Use of these materials could shift heating or cooling load of power supply from peak period to off-peak period, lowering the cost of power supply for users.
运用这种相变储能建材,可将电力供给峰期时的加热或制冷负荷转移到谷期,使用户降低使用费用。
The parameters such as POS concentration, POS heating temperature, fuel load and oxygen content have high influence on combustion efficiency.
石油焦渣油浆的浓度、油焦浆的加热温度、负荷和氧量对其燃烧效率有很大影响。
Heating area is the closely-aligned round coils. Heating area is arranged sufficiently to reduce the surface heat load of pipe and handle the heat transfer oil safely.
受热面采用密排圆盘管,受热面布置充足,降低管子表面热负荷,是导热油使用更安全。
One of importance for heating systems is to predict the hourly load changes of heating systems.
分析了供热系统负荷变化的各种扰量,提出利用人工神经网络对供热负荷进行预测的方法。
It is necessary to count heat load caused by heat transfer between househould for heating systems of individual househould heat metering, and the heat load is one basis of choosing radiator.
对于分户热计量采暖系统,必须计算户间传热引起的热负荷,并将这一热负荷作为散热器选型的依据之一。
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