1·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。
2·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。
3·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。
4·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。
5·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。
6·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。
7·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。
8·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。
9·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。
10·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。