1) checker brick
格子砖
1.
When the surface of checker brick is coated by this material after treatment,its emissivity and regenerative capacity can be increased.
纳米红外节能涂料是由优质的抗氧化物质经超细化处理制得的高辐射材料,将此材料涂覆于经表面处理后的格子砖表层,可提高格子砖的发射率,提高其蓄热能力。
2.
By means of the method of checker brick regenerator,the structure of honeycomb and its using situation in heating furnace is analysed,then the helpful conclusion and the solving thought are obtained to develop the energy conservation and environment protection of heating furnace and Chinese steel industry.
针对蓄热炉在钢铁业出现的问题,首先叙述了蓄热室的发展过程,进而对蓄热炉存在问题进行了分析与思考,借助格子砖蓄热室的方法分析了蜂窝体的结构及其在加热炉的使用情况,得出了有益的结论和解决问题的思路,以推动发展加热炉,促进中国钢铁业的节能和环保。
3.
The HBS has such characteristics as reasonable constrcture design of stove,ring type multi-hole short flame ceramic burner and high effective seven-hole quincunx type checker brick and eliminate high temperature stress corrosion cracking.
介绍了 HL 顶燃式热风炉的设计与应用,进行了燃料燃烧计算,该热风炉采用合理的炉体结构、环形多孔短焰陶瓷燃烧器和梅花形格孔高效格子砖,解决了高温应力腐蚀裂纹问题。
2) checker
[英]['tʃekə(r)] [美]['tʃɛkɚ]
格子砖
1.
By using the 2-D unsteady state heat transfer equation,the heat convection and radiation between the checker,the gas flowing through the checker holes and the heat conduction among the checkers in the chamber of the hot blast stove were studied.
应用二维非稳态热量传输方程,对高炉热风炉蓄热室内格子砖与气体之间的对流和辐射传热,以及蓄热体内部的导热过程进行求解,分析热风炉的不同操作制度对热效率的影响。
2.
By Using the 3 D unsteady state heat transfer equation,the heat convection and radiation between the checker and the gas which flows through the checker holes,and the heat conduction among the checker in the chamber of the hot blast stove were studied.
应用三维非稳态热量传输方程 ,对高炉热风炉在燃烧过程中蓄热室内格子砖与气体之间的对流和辐射传热 ,以及格子砖内部的导热过程进行了耦合求解 得到了在燃烧期内格子砖及燃烧过程中燃烧废气的温度分布情况及其随时间的变化规
3.
The effect of the checker thermal characteristics such as thermal conductivity,heat capacity,density etc on the temperature of blast and checkers,the heat accumulation and heat release of checkers was determined.
为优化热风炉设计,建立了热风炉蓄热室内传热过程的数学模型,制作了应用程序软件,探讨了不同的格子砖物性参数,如导热系数、比热容和密度等对格子砖温度场分布、气体温度分布以及格子砖蓄热量和放热量的影响。
3) taking off the checked brick
扒格子砖
4) dictyospore
['diktiəspɔ:]
砖格孢子
5) checker
[英]['tʃekə(r)] [美]['tʃɛkɚ]
砖格子
6) cluster-type checker brick
花砖型格子砖
补充资料:为特型耐火砖和特异型砖
分子式:
CAS号:
性质:又称为特型耐火砖和特异型砖。是一类外形特别复杂的耐火砖。中国标准规定,对于黏土质、高铝质特异型耐火砖,其外形尺寸的比例(最小与最大尺寸之比)在1:8范围以内;厚度尺寸为35~135mm,或管状砖的长度尺寸不大于300mm;具有不多于4个凹角(包括圆弧状凹角在内),或具有1个30°~50°的锐角,或带有不多于8个沟槽,或有不多于1个孔眼。黏土质耐火砖重1.5~30kg;高铝质耐火砖重1.5~35kg。硅质特异型耐火砖,其外形尺寸的比例在1:6范围以内,厚度尺寸为35~135mm,或管状砖的长度尺寸不大于300mm;具有不多于4个凹角(包括圆弧状凹角在内),或具有30°~50°的锐角,或带有4个沟槽,或带有不多于1个孔眼,重1.5~25kg。
CAS号:
性质:又称为特型耐火砖和特异型砖。是一类外形特别复杂的耐火砖。中国标准规定,对于黏土质、高铝质特异型耐火砖,其外形尺寸的比例(最小与最大尺寸之比)在1:8范围以内;厚度尺寸为35~135mm,或管状砖的长度尺寸不大于300mm;具有不多于4个凹角(包括圆弧状凹角在内),或具有1个30°~50°的锐角,或带有不多于8个沟槽,或有不多于1个孔眼。黏土质耐火砖重1.5~30kg;高铝质耐火砖重1.5~35kg。硅质特异型耐火砖,其外形尺寸的比例在1:6范围以内,厚度尺寸为35~135mm,或管状砖的长度尺寸不大于300mm;具有不多于4个凹角(包括圆弧状凹角在内),或具有30°~50°的锐角,或带有4个沟槽,或带有不多于1个孔眼,重1.5~25kg。
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