Title page for 93324023


[Back to Results | New Search]

Student Number 93324023
Author Yu-Shan Wu(吳玉珊)
Author's Email Address No Public.
Statistics This thesis had been viewed 1442 times. Download 2270 times.
Department Chemical and Materials Engineering
Year 2005
Semester 2
Degree Master
Type of Document Master's Thesis
Language zh-TW.Big5 Chinese
Title Predictive model of flash point for pure organic substances
Date of Defense 2006-06-14
Page Count 36
Keyword
  • flash point
  • group contribution method
  • predictive model
  • Abstract Organic substances are used in manufacture processes widely. These substances have many hazardous characters, including toxicity, corrosion, and flammability or combustibility. The flammability has the most concern. Furthermore, flash point is usually used as a flammable index for describing flammability of substances.
    A predictive model of flash point for organic substances based on the group contribution method is proposed in the study. User can use this model by the groups involving in substance molecule to calculate the flash point without other properties. And building up the predictive model without any restriction is the target of this study.
    Table of Content 中文摘要                        Ⅰ
    英文摘要                        Ⅱ
    目錄                          Ⅲ
    表目錄                         Ⅳ
    圖目錄                         Ⅴ
    符號說明                        Ⅵ
    第一章 緒論
      1.1 前言                      1
      1.2 研究動機與目的                 1
      1.3 閃火點                     2
      1.4 閃火點實際量測方式               2
    第二章 文獻回顧                     4
    第三章 研究方法
      3.1基團貢獻法                    8
      3.2閃火點查詢資料庫                 8
    第四章 結果與討論                    11
    第五章 結論                       32
    參考文獻                        33
    附錄                          36
    Reference Albahri, T. A.,“Flammability characteristics of pure hydrocarbons, ”Chemical Engineering Science 58 (2003) 3629-3641.
    Bodhurtha, F. P., Industrial Explosion Prevention and Protection,
    New York: Mc-Graw-Hill, (1980)
    Babrauskas, V., Ignition Handbook, Fire Science Pblishers.
    Constantinou, L. and Gani, R.,“New Group Contribution Method for
    Estimating Properties of Pure Compounds,”AIChE Journal, 40 (1994) 1697-1709.
    Hshieh, F. Y.,“Note: Correlation of Closed-Cup Flash Points with Normal Boiling Points for Silicone and General Organic Compounds,”
    Fire and Materials, 21 (1997) 277-282.
    Katritzky, A. R., Petrukhin, R. P., Jain, R. and Karelson, M.,“QSPR Analysis of Flash Points,”J. Chem. Inf. Comput. Sci., 41 (2001) 1521-1530.
    Merrero, J. and Gani, R.,“Group-contribution based estimation of pure component properties,”Fluid Phase Equilibria, 183-184 (2001) 183-208.
    Patil, G. S.,“Estimation of Flash Point,”Fire and Materials,12 (1988)
    127-131.
    Prugh, R. W.,“Estimation of Flash Point Temperature,”J. Chem. Educ.
    50 (1973) A85-89.
    Riazi, M. R. and Daubert, T. E.,“Predicting Flash and pour point,”
    Hydrocarbon Processing, 56 (1987) 81-83.
    Robinson, G.,“NFPA 325, Guide to Fire Hazard Properties of Flammable Liquid, Gases, and Volatile Solides,” National Fire Protection Association.
    Satyanarayana, K. and Kakati, M. C.,“Correlation of flash point,”
    Fire and Materials, 15 (1991) 97-100.
    Suzuki, T., Ohtaguchi, K. and Koide, K.,“A method for estimating flash points of organic compounds from molecular structures,”J. Chem. Eng. Jpn. 24 (1991) 258-261.
    Stefanis, E., Constantinou, L. and Panayiotou, C.,“A Group Contribution Method for Predicting Pure Component Properties of Biochemical and Safety Interest,”Ind. Eng. Chem. Res.,43 (2004) 6253-6261.
    Tetteh, J., Suzuki, T., Metcalfe, E. and Howells, S.,“Quantitative Structure-Property Relationships for the Estimation of Boiling Point and Flash Point Using a Radial Basis Function Neural Network,”J. Chem. Inf. Comput. Sci., 39 (1999) 491-507.
    Vidal, M., Rogers, W. J., Holste, J. C. and Mannan, M. S., “A Review of Estimation Methods for Flash Points and Flammability Limits,”Process Safety Progress, 23 (2004) 47-55.
    Designation: D56-02a Standard Test Method for Flash Point by Tag Closed Cup Tester1.
    Designation: D93-02a Standard Test Methods for Flash Point by Pensky-Martens Closed Cup Tester1.
    Advisor
  • Liang-Sun Lee(李亮三)
  • Files
  • 93324023.pdf
  • approve immediately
    Date of Submission 2006-06-28

    [Back to Results | New Search]


    Browse | Search All Available ETDs

    If you have dissertation-related questions, please contact with the NCU library extension service section.
    Our service phone is (03)422-7151 Ext. 57407,E-mail is also welcomed.