Title

雙成份常壓批次蒸餾塔之視窗程式設計

Translated Titles

Windows Programming of Binary Batch Distillation Column under Atmospheric Pressure

Authors

李冠旻

Key Words

批次蒸餾 ; 雙成份蒸餾 ; 蒸餾塔動態模擬 ; 視窗程式設計 ; Batch Distillation ; Binary System of Distillation ; Batch Distillation Dynamic Simulation

PublicationName

臺北科技大學化學工程研究所學位論文

Volume or Term/Year and Month of Publication

2013年

Academic Degree Category

碩士

Advisor

林顯聖

Content Language

繁體中文

Chinese Abstract

批次蒸餾是化學工業中重要且常用的分離程序,主要應用於高價值、低產量之精細化學品製程中。但現有的化工相關書籍對於批次蒸餾的介紹大多停留在理論模式的論述上,實際操作的部分少有著墨。   本研究利用Visual Basic 2010為開發工具,以批次蒸餾塔的質量平衡、能量平衡及相平衡為基礎,建構多個單元之副程式,整合開發出一座適用於各種雙成份進料的常壓批次蒸餾塔視窗程式。本模擬程式期望使用者能夠簡單的輸入欲分離之成份參數、蒸餾塔總板數、塔底加熱量等參數值,進行模擬尋找操作起始點穩態值,並利用起始穩態值數據配合不同的塔頂產物出料操作方式進行模擬,學習批次蒸餾塔之操作程序。   由模擬結果可知,不同的產物出料操作方式,所需注意的操作條件也不一樣,故使用者可透過本研究程式,模擬各種雙成份進料的批次蒸餾,學習不同產物出料方式的操作條件設定。

English Abstract

Batch Distillation is an important process in chemical industry. Batch distillation is often used to produce small amounts of products with high added value. Most of textbooks focus on the steady state. However, the dynamics operation is more important.   The research developed a windows program for binary batch distillation column under atmospheric pressure by Visual Basic 2010. The subprograms for solving the mass balance, energy balance and phase equilibrium equations were constructed firstly. Three strategies for operating the distillate flow rate were applied in the program. By simulation examples, different operation strategies have the different optimal control conditions; the program can apply the capability for user to learn the dynamic operations of batch distillation.

Topic Category 工程學院 > 化學工程研究所
工程學 > 化學工業
Reference
  1. 1. W. L. McCabe, J. C. Smith and P. Harriott, Unit Operations of Chemical Engineering, 7^th edition, New York: McGraw-Hill Book Co (2005)
    連結:
  2. 5. M. T. Cichelli, W. D. Weatherford, Jr. J. R. Bowman and J. Coull, “Binary Batch Distillation: Relation between Number of Plates, Reflux Ratio and Pole Height,” Industrial and Engineering Chemistry, Vol. 42, No. 12, pp.2502-2510 (1950)
    連結:
  3. 6. D. B. Van Dongen and M. F. Doherty, “On the Dynamics of Distillation Processes: IV. Batch Distillation,” Chemical Engineering Science, Vol. 40, No. 11, pp.2087-2093 (1985)
    連結:
  4. 7. W. L. Luyben, “Multicomponent Batch Distillation. 1. Ternary System with Slop Recycle,” Industrial and Engineering Chemistry Research, Vol. 27, No. 4, pp.642-647 (1988)
    連結:
  5. 9. A. Bonsfills and L. Puigjaner, “Batch Distillation: Simulation and Experimental validation,” Chemical Engineering and Processing, Vol. 43, pp.1239-1252 (2004)
    連結:
  6. 10. H. Binous and M. A. Al-Harthi, “Simple Batch Distillation of a Binary Mixture,” Computer Applications in Engineering Education, pp.1-9 (2012)
    連結:
  7. 11. 黃湘霖,蒸餾塔即時動態模擬視窗程式設計,碩士論文,國立台北科技大學化學工程研究所,台北 (2005)
    連結:
  8. 12. 王學婉,蒸餾塔啟動程序即時動態模擬視窗程式設計,碩士論文,國立台北科技大學化學工程研究所,台北 (2007)
    連結:
  9. 13. 王致皓,丙酮-甲醇-水之萃取蒸餾塔動態模擬程式設計,碩士論文,國立台北科技大學化學工程研究所,台北 (2008)
    連結:
  10. 14. 劉家豪,丙酮-甲醇-水之連續式萃取蒸餾塔視窗程式設計,碩士論文,國立台北科技大學化學工程研究所,台北 (2009)
    連結:
  11. 15. 林昱昇,丙酮-甲醇-水之批次萃取蒸餾塔視窗程式設計,碩士論文,國立台北科技大學化學工程研究所,台北 (2010)
    連結:
  12. 16. W. L. Luyben, Practical Distillation Control, New York: VNR (1992)
    連結:
  13. 19. E. E. Ludwig, Applied Process Design for Chemical and Petrochemical Plants, 2^nd edition, Gulf Professional Publishing Co (1979)
    連結:
  14. 2. D. R. Coughanowr, W. L. Luyben and C. L. Smith, Distillation Dynamics and Control, Louisville: Instrument Society of America (1989)
  15. 3. J. Gmehling and U. Onken, Vapor Liquid Equilibrium Data Collection, Germany: DECHEMA (1997)
  16. 4. B. E. Poling, J. M. Prausnitz and J. P. O’Connell, The Properties of Gases and Liquid, 5^th edition, New York: McGraw-Hill Book Co (2001)
  17. 8. O. J. Chiotti and O. A. Iribarren, “Simplified Models for Binary Batch Distillation,” Computers and Chemical Engineering, Vol. 15, No. 1, pp.1-5 (1991)
  18. 17. R. H. Perry and D. W. Green, Perry’s Chemical Engineers’ Handbook, 7^th edition, New York: McGraw-Hill Book Co (1997)
  19. 18. A. M. Peiser and S. S. Grover, “Dynamic Simulation of Distillation Tower,” Chemical Engineering Progress, Vol. 58, No. 9, pp.65-70 (1962)
  20. 20. R. G. E. Franks, Modeling and Simulation in Chemical Engineering, New York: John Wiley & Sons (1972)