炉体结构

  • 网络Furnace structure;Furnace construction
炉体结构炉体结构
  1. 本文从实验台炉体结构和煤快速氧化实验的结果分析入手,以计算流体力学为辅助手段,对巷道周边松散煤体自然发火过程进行模拟。

    Analyse experimental furnace construction and coal rapid oxidation experiment , using computational fluid dynamics as an auxiliary way to simulate the process of coal spontaneous combustion in tunnels .

  2. 闪速炉炉体结构的发展(二)

    Development of Flash Furnace Construction ( 2 )

  3. 对区域熔融法生长有机低维单晶的炉体结构做了新的设计和实验,同时成功地生长出有机材料ABP纤维和薄膜两种形态的低维单晶。

    The growth furnace for the low dimensional organic crystal by the floating-zone method was designed and has been used successfully to grow crystal of ABP both in fibers and films .

  4. 闪速炉炉体结构改造与冷修实践

    Structural modification and cold repair of flash smelting furnace

  5. 碳纤维布加固焦炉炉体结构的研究与应用

    Research and Application on reinforcement for furnace body structure of coke oven by carbon cloth

  6. 鞍钢新1~高炉炉体结构浅述

    Structures of the new blast furnace

  7. 高炉炉体结构包括本体内衬耐火材料、砌筑方式、炉衬冷却方式。

    Blast furnace body mainly includes internal lining refractory , lining methods and lining cooling methods .

  8. 介绍感应加热原理、特点、炉体结构,对感应加热炉的制造工艺作了详细地分析。

    The article introduces principle and features of induction heating and structure of furnace particularly analyzes manufacturing engineering of induction_heated furnace .

  9. 同时也希望其结果能够用于炉体结构的设计和耐材的选用。

    At the same time we also hope that the results can be used for furnace design and the selection of Refractories .

  10. 结合生产实际,研究了炉体结构参数和供电参数对多热源炉温度场的影响。

    The temperature field of Multi-thermal-source Furnace affected by furnace body parameters and power supplying parameters were studied banded together with industrial practice .

  11. 由于拉晶过程中投料量较大,炉体结构复杂、造价昂贵,所以计算机数值模拟对于优化单晶炉设计是一种重要的工具。

    Because of the large stuff of silicon , complex structure of furnace and expensive cost , computer simulation is a best way to optimize design .

  12. 有了合理的炉体结构,再配以自动控制系统,合理的焙烧周期等条件,就能降低能耗。

    An reasonable furnace structure completed with an automatic control system and rational baking period and other conditions can lead to a result of energy saving or reduction .

  13. 采用该程序,用户能快捷地得到计算结果,选择合理的炉体结构以及炉管的类型、规格和数量。

    With the program , user can quickly get calculation result and choose reasonable structure and proper type of the heater , specification and number of furnace tube .

  14. 简要介绍了金隆铜业公司铜熔炼闪速炉炉体结构第一炉期冷修改造的内容与施工实践经验。

    The paper describes briefly the content and practical experience in cold repair and structural modification of copper flash smelting furnace during the first furnace campaign in Jinlong Copper Corporation .

  15. 结合我公司铜火法精炼的生产实践,分析了炉体结构和生产操作对铜精炼的影响,提出了技术改造的方法和操作改进的措施。

    The influence of furnace structure and operating on the copper refining process are discussed based on the plant practice , the technical reconstruction method and operating improvement step are also discussed .

  16. 在本文的研究中,首先通过研究Paragon98的炉体结构,加热方式和空气流动,然后以传热学中的射流模型估算得到的对流系数值来作为有限元模型的边界条件。

    In this study , a comprehensive finite element model based on BGA package is built for reflow profiles prediction Inside reflow furnace , heat transfer convection coefficient is estimated based on impinging jet airflow model .

  17. 新型炉体冷却结构的热模拟实验

    Thermal simulation experiment about new type cooling and lining structure for BF

  18. 盐浴炉炉体结构的改进

    The improvement on body structure of salt bath furnace

  19. 高炉炉体框架结构设计探讨

    Discussion on the structural design of blast furnace

  20. 介绍了柳钢8号高炉炉体冷却结构设计技术要点。

    F * The technical points of body cooling structure design have been introduced .

  21. 在不改变原加热工艺、炉体整体结构不变的前提条件下,进行了提高炉窑热效率机制的研究工作。

    Research on improving thermal efficiency mechanism is concerned in the condition that original heating technology and whole furnace body model are not changed .

  22. 针对高炉新型炉体冷却结构,设计了物理模型并建立了热态模拟实验系统。

    In this paper , physical model is designed and thermal simulation experimental system built for new type cooling and lining structure of BF .

  23. 柳钢8号高炉炉体冷却结构采用独特的工艺技术,保证了高炉的高产、优质、低耗、长寿。

    No.8 Blast Furnace design and its body 's cool structure adopt the unique technology to guarantee the high yield , high-quality , low consumption and long campaign life of B.

  24. 电热热风循环干燥炉新型炉体结构解析

    Analysis about New-Construction Type Drying Oven with Electrical-heated Air Circulation System

  25. 挪威25.5MVA密闭式电石炉的炉体结构

    Structure of Furnace Body of Norwegian 25.5 MVA Sealing Type Calcium Carbide Furnace

  26. 低压铸造机炉体弹簧支撑结构的设计与应用

    Design and Application of Spring Support Structure for Furnace of Low Pressure Casting Machine

  27. 在分析球墨铸铁冷却壁缺点的基础上,提出采用非金属冷却壁代替金属冷却壁的理论依据,并提出炉体的冷却结构方案。

    After analyzing the main damage reason of cast iron cooling staves , theory foundation of using nonmetallic cooling staves instead of metallic cooling staves was put forward .

  28. 介绍了沸腾床氯化炉的炉体结构,通过对炉衬材料的对比分析,指出磷酸盐质高铝砖和磷酸盐耐火混凝土是最佳炉衬材料。

    The general situation of induction smelting furnace mould liner at home and abroad , quality demands about refractory material of mould liner are introduced in this paper .

  29. 固定床氯化炉炉体材料及结构的探讨新型焦炉的炉体设计

    Study on Materials and Construction of Fixative Bed Chloride-furnace New Type Coke Oven Proper Design

  30. 介绍了高炉炉体冷却模块的结构,阐述了冷却模块的筑炉工艺。

    General situation , structure and features of cooling mode for BF furnace body are introduced .