1.
Optimization of Collector Area of Gas and Solar Heating System
燃气与太阳能联合供热系统集热器面积优化
2.
compound parabolic collector
复合抛物面型集热器
3.
Heat exchangers within fluidized beds require relatively small surface areas.
流化床中换热器所需面积较
4.
an area of 10 million square meters will be heated in these ways reducing coal use by 0.34 million ton.
城市热力供热替煤: 增加5500万平方米集中供热面积,替煤量47万吨。
5.
The centralized heating area is 1463.29 million m2, 32.1% over the previous year.
集中供热面积146329万平方米,比上年增长32.1%。
6.
accumulating condenser
聚积冷凝器;聚积冷凝器;聚集冷凝器;聚集冷凝器
7.
CONVEX-CONCAVE SHAPE:Unique designed of convex-concave shape,which can strengthen and expand the heated measure.Promote to absorb the light and heat energy. Increase the radiating energy.
在省油器表面形成许多凹凸面:使表面受热面积加大,促进吸收光能及热能,增加红外线放射能量。
8.
Optical Performance Analysis for Parabolic Trough Solar Collectors
槽式太阳能抛物面集热器光学性能研究
9.
THEORETICAL STUDY OF PARABOLIC TROUGH SOLAR CONCENTRATOR
槽式抛物面太阳能聚焦集热器的理论研究
10.
It can absorb also water after absorbing oil.
将它装入油膜采集器,可以吸收漂浮于水面上的同面积的油膜。
11.
The concentrating heating area increased by 5.36 million square meters in the year. The electricity-powered heating area increased by 3.00 million square meters. Seven million tons of low-sulfur coal was used.
新增集中供热面积536万平方米,新增电采暖面积300万平方米,推广使用低硫煤700万吨。
12.
The difference of heated area between tubes is very small, so the thermal deviation mainly results from inhomogeneous endotherm and flux.
但由于管子毛间的受热面积差异很小,过热器的热偏差主要由于吸热不均匀和流量不均匀造成。
13.
concentrating solar collector
太阳热集中器聚光型集热器
14.
sediment trap
沉积阱, 沉淀物捕集器
15.
High NH_4Cl Concentration Deposition Amorphous Ni-P Alloy Coating Study on Q235 Steel Plate Heat Exchanger Surface;
Q235钢板状换热器表面高NH_4Cl浓度沉积非晶态Ni-P合金镀层研究
16.
The vapor from the upper container is condensed, the condensate is collected and its volume measured.
上面容器中的蒸气冷凝,将凝结液集中并测量其体积。
17.
If the loss of heat through a surface is to be eliminated completely, the use of a heater outside the considered volume becomes necessary.
如果要完全消除通过一个表面的热损失,就必须在所考虑的容积之外,使用一个加热器。
18.
tubular solar collector
真空管太阳能集热器