1.
Study of the Solar Heating Rate and Infrared Cooling Rate in Different Area of China;
我国部分地区的太阳加热率和红外冷却率研究
2.
Fast heating, high precision of tempt control and high thermal efficiency.
加热速度快,控温精度高,热效率高。
3.
Heating a conductor rod increases its resistively .
将导体棒加热会增加其电阻率。
4.
Heating Rate and Temperature Distributing on Continuous Ohmic Heating for Liquid Food
液态食品连续通电加热的加热速率与温度分布
5.
The reasons of low furnace heat efficiency for reforming unit are analyzed. Some measures adopted for raising furnace heat efficiency are recommended.
分析了重整装置加热炉热效率低的原因,介绍了提高加热炉热效率采取的几项措施。
6.
The heat efficiency of the furnace is one of the major concerns in refinery operation.
加热炉热效率是炼油厂关注的重要问题之一。
7.
Research on the thermal efficiency of a DC non-transfer arc plasma torch
直流非转移弧热等离子体喷枪加热效率分析
8.
An Exploratory Development of Poor Heat-conductivites at the Heating of Step-fuctions;
不良导体热导率的阶跃函数式加热法测量研究
9.
Application of Chemical Cleaning and Passivation Technologies to Elevate Thermal Efficiency of Refinery Furnaces
采用化学清洗钝化技术提高加热炉的热效率
10.
Application Of The PLC in The Control For Bending Furnace's Heater Power Regulation
PLC在热弯炉加热器功率调节控制中的应用
11.
"Copper sheathed, tin coated low watt density elements easily replaceable."
镀锌铜壳低功率密度加热棒,更换容易。
12.
Products with thermal properties that cause slow heating andor cooling rates require longer process times.
传热率低的产品需要更长的加工时间。
13.
Experimental Research of Low-Power H_2O Arcjet;
低功率水电弧加热发动机的实验研究
14.
Research of the Indirectly-Heated Terminating Type MEMS Microwave Power Sensor;
间接加热式MEMS微波功率传感器的研究
15.
Digital Research on High Power Induction Heating Power Supply Based on MOSFET;
大功率MOSFET感应加热电源的数字化研究
16.
And comparing with radiation heating, atom diffusion velocity at interface quickened.
与辐射加热相比,接触面处原子扩散速率加快。
17.
"The furnace is horizontal, which is characterized by fast starting, low heat inertia, good isolation and high heating efficiency."
还原炉是卧式布置。炉子加热启动快,热惯性小,保温效果好,热效率高。
18.
The hot temperature difference and adiabatic efficiency increased by increasing cold air fraction,but cold temperature difference decreased.
冷流比增加,涡流板制热效应和绝热效率增加,而制冷效应下降.