Transesterification of Waste Cooking Oil into Biodiesel Using Aspen HYSYS

Authors

  • Suleyman Karacan  Department of Chemical Engineering , Ankara University, Engineering Faculty, Tandogan, Ankara, Turkey
  • Mehmet Tuncay Cagatay  National Defence Ministry, Ankara District Quality Management Presidency, Etlik, Ankara, Turkey

Keywords:

Reactive distillation column, waste cooking oil ;biodiesel, Aspen HYSYS

Abstract

Increasing uncertainty about global energy production and supply, environmental concerns due to the use of fossil fuels, and the high price of petroleum products are the major reasons to search for alternatives to petrodiesel. Biodiesel fuel has become more attractive because of its environmental benefits, due to the fact that plants and vegetable oils and animal fats are renewable biomass sources. This work presents simulation of an industrial plant for biodiesel production and makes a comparative study of preliminary economic feasibility with a reactive continuous distillation process. The process steady-state simulation was performed using ASPEN/HYSYS 8.0 computer software. Mass and energy balances for each unit, as well as operating conditions, were obtained. The effect of parameters such as molar ratio of methanol to WCO, reflux ratio and reboiler duty on biodiesel mole fraction were investigated.

References

  1. Arpornwichanop A., Wiwittanaporn C., Authayanun S., Assabumrungrat S., 2008, The use of dilute acetic acid for butyl acetate production in a reactive distillation: Simulation and control studies, Korean J. Chem. Eng., 25, 1252-1266.
  2. Aspen, 2012, Aspen HYSYS V.8.0 installation guide. U.S.A: Aspen Technology.
  3. Birla A., Singh B., Upadhyay S.N., Sharma Y.C., 2012, Kinetics studies of synthesis of biodiesel from waste frying oil using a heterogeneous catalyst derived from snail shell, Bioresource Technology, 106, 95 – 100.
  4. Freedman B., Buttefield R.O. Pryde E.H., 1986, Transesterification kinetics of soybean oil, J. Am. Oil Chem. Soc., 63, 1375–1380.
  5. He B.B., Singh A.P., Thompson J.C., 2006, A Novel Continuous-Flow Reactor Using Reactive Distillation for Biodiesel Production, Transactions of American Society of Agricultural and Biological Engineers, 49, 107-112.
  6. Karacan S., Karacan F., 2014, Simulation of Reactive Distillation Column for Biodiesel Production at Optimum Conditions, Chemical Engineering Transactions, 39, 1705-1710.
  7. Liu C.Z., Wang F., Stiles A.R., Guo C., 2012, Ionic liquids from biodiesel production: opportunities and challenges, Appl Energy, 92:406–14.
  8. Malone M.F., Huss R.S., Doherty M.F., 2003, Green chemical engineering aspects of reactive distillation. Environ Sci Technol, 37, 5325–5329.
  9. Prasertsit K., Mueanmas C., Tongurai C., 2013, Transesterification of palm oil with methanol in a reactive distillation column, Chemical Engineering and Processing, 70, 21–26.
  10. Supple, B., Howard-Hildige, R., Gonzalez-Gomez, E., Leahy, J.J.,1999., The effect of steam treating waste cooking oil on the yield of methyl ester, J. Am. Oil Soc. Chem., 79, 175–178.
  11. Yan S., DiMaggio C., Mohan S., Kim M., Salley S.O., Ng K.Y.S., 2010, Advancements in heterogeneous catalysis for biodiesel synthesis. Top Catal, 53, 721–36.

International Journal of Scientific Research in Science and Technology

Downloads

Published

2017-04-30

Issue

Volume 3, Issue 3, March-April-2017

Section

Research Articles

License

Copyright (c) IJSRST

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

How to Cite

[1]
Suleyman Karacan, Mehmet Tuncay Cagatay "Transesterification of Waste Cooking Oil into Biodiesel Using Aspen HYSYS" International Journal of Scientific Research in Science and Technology(IJSRST), Online ISSN : 2395-602X, Print ISSN : 2395-6011,Volume 3, Issue 3, pp.83-87, March-April-2017.