液化热

yè huà rè
  • heat of liquefaction
液化热液化热
  1. 煤直接液化残渣热态连续进料炼焦试验研究

    Experiment Study of Thermal State Continuative Feeding Coking using Direct Liquefaction Residue

  2. 黑曲霉UV-48液化酶热稳定性高但不耐酸,糖化酶热稳定性低但耐酸和碱。

    The glucoamylase from UV-48 is low thermostability but resistant to acid and alkali .

  3. 因此,煤直接液化反应热是反应器设计中的一个很重要的参数。

    Consequently , DCL reaction heat is a key parameter in process of reactor design .

  4. 针对此种情况,一些文献从热量衡算出发提出了一些计算煤直接液化反应热的方法。

    According to this condition , some literatures put forward a few of means of calculating DCL reaction heat through heat balance .

  5. 液化烃热裂解法制取真空渗碳介质&甲烷、氢混合气的工艺研究

    The Technical Research on the Preparation of Vacuum Carbureted Medium ── the Mixture of Methane and Hydrogen by Cracking of Liquidized Hydrocarbon

  6. 本文研究了在常压下由石油尾气液化烃热裂解法制取真空渗碳介质&甲烷、氢混合气的工艺。

    This paper deals with the preparation process of vacuum carbureted medium - the mixture of methane and hydrogen by cracking oil tail-liquidized hydrocarbon at normal pressure .

  7. 在此基础上,改变充装率、热流密度和初始温度等实验条件,研究了不同因素对液化气体热分层现象的影响规律。

    By changing filling rate , heat flux and the start temperature , different experiments are performed to find out how the different conditions affect the results .

  8. 以喷射火作用下液化气储罐热响应实验的数据处理为例,利用BP神经网络进行压力值预测。

    Taking the process and analysis of experiment data from the thermal response of liquefied gas tanks subjected to jet fire as an example , the pressure values were predicted by the BP neural network .

  9. 喷射火环境下液化气储罐热响应行为数值模拟

    Numerical simulation of thermo-responsive behavior of LPG tank on jet fire

  10. 高温环境下容器内液化气的热响应分析

    Thermal response analysis of LPG in some vessels exposed to high temperature environment

  11. 将当前的天然气液化技术与热声制冷技术进行比较。

    The current natural gas liquefaction technology is compared with thermoacoustic refrigeration technology .

  12. 火灾环境中液化气储罐热响应行为的数值分析

    Numerical Analysis for the Thermal Response of Liquefied Gas Tanks Subjected to Fire Environment

  13. 木材褐腐过程中化学组成对其液化的影响热处理改性木材的性能分析Ⅱ.热处理材的化学组成与耐腐防霉性能

    Relation of chemical components of brown-rotted wood and its liquefaction characteristics Chemical Composition , Decay Resistance and Mold Inhibition of Heat-Treated Lumber

  14. 该文研究了下降管式热解液化装置中热载体和生物质粉混合物沿倾斜管流动和传热的计算。

    In order to analyze biomass pyrolysis in down flow reactor , computation of flow and heat transfer for solid media and biomass mixture in the inclined tube was investigated theoretically .

  15. 液化气压力容器热响应的计算机仿真

    Computer Simulation for Thermal Response of Liquefied Petroleum Gas Pressed Tanks

  16. 液化石油气储罐热响应影响因素模拟分析

    Simulating analysis of factors effecting thermal response of LPG tanks

  17. 喷射火焰环境下液化气容器的热响应

    Thermal Response of LPG Tanks Exposed to Jet Fire

  18. 液化气球罐整体热处理的危险评价及控制措施

    Risk Assessment and Control Measure of Whole Heat Treatment of LPG Spherical Tank

  19. 液化气球罐整体热处理施工安全方案的探讨

    Probing into Safety Project of Integer Heat Treatment Construction for LPG Bali Tank

  20. 液化气球罐整体热处理状态的有限元热应力分析

    Thermal Stress Analysis of LPG Spherical Tank During Heat Treatment by Using Finite Element Method

  21. 液化天然气储罐热分析及固体复合材料导热系数实验研究

    Thermal Analysis of LNG Container and Experimental Study of Thermal Conductivity in Solid Reinforced Plastic

  22. 火灾环境下液化气球罐瞬态热响应的有限元分析

    Finite Element Analysis on Transient Thermal Response of Liquefied Gas Spherical Tank Exposed to Fire Environment

  23. 池火与喷射火联合作用下液化气储罐的热及力学响应规律研究进展

    Heat and mechanics response rule of LPG tanks exposed to pool fire and under spraying fire environment

  24. 研究了氦液化器末级换热器的特性,从理论和实验两方面证明采用阻力型换热器,对提高液氦产量或制冷量的可行性。

    The performance of last-stage heat exchanger of helium liquefier is analysed . The feasibility of resistance type heat exchanger for increasing the productivity of liquid helium or refrigeration capacity is verified theoretically and experimentally .

  25. 针对盛有液化气的压力容器处于高温环境下的情形,简要介绍了采用数值模拟技术预测液化气容器热响应的基本方法,并列举实例,给出模拟结果与实例的比较。

    According to the pressure vessels under high temperature , a brief introduction is provided on the heat response of liquified gas technically predicted by means of numerical stimulation method with applicable examples compared with stimulation results .