Chen-Hua Wang1, Ming-Tsai Hsu2, Chien-Li Lee3, Chih-Ju G. Jou 1, Chi-Chwen Lin4

  • 1 Department of Safety, Health and Environmental Engineering, National Kaohsiung First University of Science and Technology, 2 Juoyue Rd., Nantz District, Kaohsiung 811, Taiwan
  • 2 Graduate Institute of Engineering Science and Technology, National Kaohsiung First University of Science & Technology, Kaohsiung 811, Taiwan
  • 3 Research and Development Center for Water Resource and Conservation, National Kaohsiung First University of Science and Technology, Kaohsiung 811, Taiwan
  • 4 Department of Environmental Science and Engineering, Tunghai University, Taichung 407, Taiwan

Received: August 30, 2011
Revised: November 13, 2011
Accepted: November 13, 2011
Download Citation: || 

  • Download: PDF

Cite this article:
Wang, C.H., Hsu, M.T., Lee, C.L., Jou, C.J.G. and Lin, C.C. (2012). Reuse of Recovered Waste Tail-Gas in a Full-Scale Furnace. Aerosol Air Qual. Res. 12: 256-262.



Recovery and reuse of waste energy to reduce fuel dependence on petroleum fuel, and to alleviate emissions of contaminants is becoming an important policy for managing energy and the environment. In the study, the waste tail gas emitted from the various petrochemical unit operations is recovered and reused as a replacement of natural gas (NG) to fuel furnace and boiler. On-site experimental results show that replacing natural gas (NG) by the recovered tail gas (RTG) from some petrochemical processes saves 24.6% of fuel costs and reduces 53.0% of CO2 emissions. On the other hand, if the natural gas (NG) in a mixed fuel containing both natural gas and fuel oil (NG/FO) is completely replaced by RTG, the resulting RTG/FO or RTG/NG/FO fuel mixtures saves 19.5% of fuel costs and reduce 30.0% of pollution emissions. Thus, from the viewpoint of the overall economics and sustainable energy policy, managing and recovering the energy contained in RTG assists in reducing energy consumption by raising the overall thermal efficiency. The conclusion made in this paper is expected to provide a useful technology that can be developed by industrial nations for raising energy efficiency.

Keywords: Carbon dioxide; Energy Recovery; Furnace

Subscribe to our Newsletter 

Aerosol and Air Quality Research has published over 2,000 peer-reviewed articles. Enter your email address to receive latest updates and research articles to your inbox every second week.

Latest coronavirus research from Aerosol and Air Quality Research

2018 Impact Factor: 2.735

5-Year Impact Factor: 2.827

SCImago Journal & Country Rank

Sign up to AAQR Newsletter

Sign up to receive latest research, letters to the editors, and review articles, delivered to your inbox every second week!