化学反应工程

  • 网络Chemical Reaction Engineering;by H. Scott Fogler & M. Nihat Gurmen
化学反应工程化学反应工程
  1. 本文介绍用VB语言开发《化学反应工程》多媒体课件的性能特点,讨论实现中的一些主要技术及课件的使用情况。

    The functions of the multimedia CAI for Chemical Reaction Engineering that is developed by VB are introduced in the paper .

  2. 应用电子束辐照法净化含SO2和NOx的烟气,是原子核化学反应工程在环境工程中的具体应用。

    The method of application of electronic beam irradiation to purify smoke with SO_2 and NO_X , is the practical application of atomic nucleus chemical reaction engineering in the environmental engineering .

  3. 应用化学反应工程的原理,分析了Fe3O4氧化过程颗粒的热状态,表明存在着火现象,并经实验证实。

    Thermal state of ultrafine Fe_3O_4 particle in the oxidization process was analysed via chemical engineering principle . The result showed that there exists ignition phenomenon and was verified by experiments .

  4. 论文利用双膜理论和化学反应工程分析的方法,探讨了高浓度CO2生产超细碳酸钙的碳化反应各阶段的动力学区域、碳化反应机理和结晶原理;

    The article uses " the Double-film Theory " and " Chemical Reaction Engineering Analysis " way to study the dynamic areas , crystal principle and its ' carbonized mechanics of all terms high concentration CO_2 to produce super-fine calcium carbonate .

  5. 《化学反应工程》多媒体课件的开发及应用

    The Development and Application of Multimedia CAI for Chemical Reaction Engineering

  6. 产品工程学&化学反应工程的新拓展

    Production engineering : a new developing space for chemical reaction engineering

  7. 光化学反应工程是化学反应工程的一个分支。

    Photochemical reaction engineering is a branch of chemical reaction engineering .

  8. 化学反应工程对石油化工技术发展的影响

    The impact of chemical reaction engineering on the development of Petrochemical Technology

  9. 化学反应工程题库的设计

    Design of the Test Bank for the Chemical Reaction Engineering

  10. 化学反应工程教学新理念和实践探索

    New Concepts and Practical Exploration in the Teaching of Chemical Reaction Engineering

  11. 化学反应工程教学改革探讨

    Some experience of teaching practice for chemical reaction engineering

  12. 化学反应工程重点课程建设探索与实践

    Exploration and Practice on the Construction in Key Course of Chemical Reaction Engineering

  13. 化学反应工程与中试放大

    Chemical Reaction Engineering and Polit - plant Enlargement

  14. 环境工程专业开设化学反应工程课程的必要性与教学实践

    On Necessity and Teaching Practice in Chemical Reaction Engineering Course of the Environmental Engineering Specialty

  15. 化学反应工程实验仿真系统

    Simulation System of Chemical Reaction Engineering

  16. 化学反应工程基本原理

    Principles of Chemical Reaction Engineering

  17. 概述了化学反应工程与中试放大技术在研究与发展中的地位及其相关性。

    Describes the positions and relations of chemical reaction engineering and pilot-plant enlargement in research and development .

  18. 阐明化学反应工程课程地位,激发学生学习兴趣;

    The course position of chemical react engineering was elaborated in order to excite students'interests in learning .

  19. 运用化学反应工程理论分析了影响减粘裂化过程诸因素。

    Some affecting factors of the process for viscosity breaking were analysed by the principles of chemical reaction engineering .

  20. 基于这一点,气雾两相射流体系作为一种快速、高效的反应方式在化学反应工程中也有着广泛的应用前景。

    Because of the speediness and high effect of reaction in it , gas-mist two-phase jet is greatly used in chemical reaction engineering .

  21. 在化学反应工程,分离工程,化工过程研究,开发和设计当中具有极强的实用价值。

    It is is highly practical value in the chemical reaction engineering , separation engineering , chemical process research , development and design .

  22. 运用化学反应工程的观点和方法研究了工业结晶过程中流体的混合状态及其对晶体生长速率的影响。

    Mixing phenomna in industrial crystallization , and effects of mixing characteristics on the crystal growth rate were discussed using the principles and methods of chemical reaction engineering .

  23. 目前,超临界流体已被广泛应用于食品、医药、能源、环境和化学反应工程等各相关领域中,并且将逐步地向更加广阔的领域渗透和发展。

    Present now , SCF is widely used in food , medicine , energy , environment , and chemical reaction engineering . Among all the fields , chemical reaction in SCF is especially important .

  24. 目前化工科技界正在呼吁寻求继第一里程单元操作、第二里程传递过程和化学反应工程之后的第三里程。

    The scientists and engineers in chemical engineering profession are seeking the third mileage of the chemical engineering after the first mileage , unit operations , and the second mileage , transport process and chemical reaction engineering .

  25. 指出化学反应工程的主要研究目标应从追求时空效率和物能利用的最大化向以产品结构和性能的可控化方向拓展。

    The main objectives of the research in chemical reaction engineering should correspondingly be expanded from optimizing the use in time , space , resource , and energy to controlling the ~ structure and properties of the chemical products .

  26. 该软件可用于化学反应工程中单釜、双釜和三釜停留时间分布函数、数学期望、方差和模型参数的计算及绘图。

    The software can be used for the general calculations and plotting of the residence time distribution , the mathematical expectation , the variance , the model parameter in single still , double still and third still of the chemical reaction engineering .

  27. 以化学反应工程观点对聚合物制造过程进行工程分析。着重阐述了聚合过程中粘度变化对物系传热传质状态和反应动力学的影响,以及对聚合反应器性能,以至对聚合物产品性能的影响。

    From the view point of chemical reaction engineering , the author of present paper has made engineering analysis on polymerization process and revealed the effects of variation in viscosity on heat transfer , mass transfer and reaction kinetics as well as on reactor performances and product properties .

  28. 目前,列管式固定床反应器规模在不断扩大,其操作要求也在不断提高。如何实现反应器的优化设计和操作、提高反应过程的稳定性和经济性是化学反应工程研究的重要议题。

    With the expansion of the Multitubular reactor scales and the highly-demand of the operational requirement , how to optimize the reactor design and operation , and how to improve the stability and economy of the reaction process are the important issues in the field of chemical reaction engineering .

  29. 室温离子液体是一种新兴的可替代挥发性有机化合物(VOCs)的绿色溶剂和高效的反应介质,为减少或消除化学反应和过程工程中的环境问题提供了重要的途径。

    Ionic liquids ( ILs ) are non-volatile , non-flammable and easy-to-recycle organic salts and therefore are viewed as potential replacements of volatile organic compounds ( VOCs ) and used as green solvents and efficient reaction media to reduce / eliminate environmental problems in chemistry and process industries .

  30. 催化剂工程设计是介于催化化学和化学反应工程科学之间的、多学科高度交叉和相互渗透,十分活跃的前沿性分支科学。

    Catalyst engineering design , which has been developed based on catalysis chemistry and chemical reaction engineering , is an active frontier research field and it takes the industrial application of catalysts as its objective .