1.
A Zoned Static Model and Theoretical Flame Temperature for COREX Melter Gasifier
COREX熔化气化炉区域模型及其理论燃烧温度
2.
Numerical Simulation of Gas Flow Field in the COREX Smelter-Gasifier
COREX熔融气化炉内气流分布数值模拟
3.
Physical Simulation of Raceway in COREX Melter Gasifier
COREX熔融气化炉风口回旋区的物理模拟
4.
Gas Cleaning Technology of Kaldo Furnace for Low-Grade Scrap Copper Smelting
低品位杂铜卡尔多炉熔炼烟气净化技术
5.
Fusibility and flow properties of Shell gasifier slag
Shell气化炉中灰渣的熔融特性与流动特性
6.
Study of Melting Furnace's Temperature in Disposing MSW
垃圾气化熔融处理过程炉温的计算分析
7.
Numerical Simulation on the Swirl-flow Melting Furnace in MSW Gasification and Melting System;
城市垃圾气化熔融系统中旋风熔融炉的数值模拟
8.
The oxides either leave the bath as gases, or enter the slag.
氧化物或者以气体的形式离开熔炉,或者进入炉渣。
9.
Process Calculation and Study on Pulverized Coal Production in COREX Melter Gasifier;
COREX熔融气化炉工艺计算及煤粉在炉内燃烧行为研究
10.
vacuum or controlled environment metallurgical melting and casting furnaces
真空炉、受控环境冶金熔化炉和铸造用炉
11.
The metals and semiconductor manufacturing industries employ argon as a purge or inerting gas in furnaces, or other processing steps.
金属和半导体工业在熔炉内把氩作为净化或惰性气体。
12.
The paper describes the features of bath smelting of lead sulfide concentrate and structural characteristics of the oxygen side-blown direct lead smelting furnace.
论述了硫化铅精矿熔池熔炼的特点以及氧气侧吹直接炼铅炉的结构特征。
13.
A electric resistance furnace, improves the thermal efficiency of the melting process.
这种电阻式熔炉提高了熔化过程中的热效率。
14.
But if we heat it in a furnace it will melt and become a liquid.
但如果放到熔铁炉内加热,它就会熔化成为液体。
15.
The amount of energy that a is capable of converting from electrical to heat energy depends on the ambient furnace temperature and atmosphere in which it is operating.
熔炉内电能转化为热能的能量数主要依赖于硅碳棒载炉内的控制温度和气体环境。
16.
AC gas metal-arc welding process
交流熔化极气保护焊
17.
autogenous cutting
(乙炔)气割,氧炔熔化
18.
Application of Non-slag/Slag Classification Gasification Technology in Coal Gasification Plant
非熔渣-熔渣分级气化技术在煤气化装置的应用