1) heating element
集热部件
1.
On the basis of the steady state heat transfer theory,thermal efficiency formulas are established of two heating elements,commonly used in Inner Mongolia combined passive solar houses.
本文以稳态传热理论为基础,推导建立了内蒙古组合式被动太阳房中二种常用集热部件的效率计算公式。
2.
In this paper,on the basis of steady state heat transfer analysis of the three common heating elements in Inner Mongolia passive solar houses,the thermal efficiency curves of heating elements in different meteorological conditions have been developed.
本文在对内蒙古被动式太阳房中三种常用集热部件进行稳态传热分析的基础上 ,绘制了不同气象条件下的集热部件效率曲线。
3.
On the basis of steady state heat transfer theory,the thermal efficiency formulas of the two common heating elements in Inner Mongolia combined passive solar houses have been established in this paper.
本文以稳态传热理论为基础 ,推导建立了内蒙古组合式被动太阳房中二种常用集热部件的效率计算公式。
2) heating element efficiency
集热部件效率
1.
Accordingly,a computational example is taken and a simple method is pointedly illustrated which makes use of the heating element efficiency(η) to conduct thermal engineering calculation of combined passive solar houses.
据此,通过一算例着重阐述了用集热部件效率η进行组合式被动太阳房热工计算的一种简易方法。
2.
Accordingly,a simple method which makes use of heating element efficiency (η) to conduct thermal engineering calculations of combined passive solar houses is emphatically illustrated by a computational example.
据此 ,进而通过一算例着重阐述了用集热部件效率η进行组合式被动太阳房热工计算的一种简易方
3) heating parts
热端部件
1.
To appraise repairing performance on areo engine heating parts(such as ablation partly,crack) after using it.
对航空发动机热端部件使用后出现的局部烧蚀、裂纹等故障进行修理可行性评估。
4) heating element
加热部件
5) internally heat integrated
内部热集成
1.
The internally heat integrated distillation technology refers to the heat integration of the same column(between) the rectifying and stripping sections.
蒸馏塔内部热集成技术系指同一塔内通过精馏段和提馏段之间的热量集成。
6) thermal structure parts
热结构部件
补充资料:将UG里的一个装配部件输出成单个部件文件
法一:
- 关闭(turn off)FileàOptions->Load Options下"Partial Loading "选项
- 打开装配部件
- 选择File->Export->Part
- 在"Part Specification"下选择"new"
- 选择"Specify Part",指定输出部件文件名称及位置
- 将"Object Selection Scope"设定为"All Objects"
- 选择"Class Selection->Select All"高亮所有对象
- 按"OK"
该种方法特点:每一个部件的特征都会汇集在新部件的MNT里。可以方便编辑。
法二:
- 闭(turn off)File->Options->Load Options下"Partial Loading "选项
- 打开装配部件
- Application->Assembly
- Assemblies->Components->Create New,给出想要输出的部件文件名及路径。
- 如下图1,在ANT上双击新产生的部件文件,使其成为工作部件。
- Assemblies->WAVE Geometry Linker,将设置改为"Body",选择所有组件的体。
- 将"Create Non-associative"开关设为"On",见下图2
- 将产生的部件设成显示部件,仅保存刚产生的新部件,不保存旧的装配部件。
 图1 |  图2 |
该种方法特点:每一个部件在新部件的MNT里只会显示一个link的特征。没有相应特征可以编辑。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条