• Home
  • Use of Flare Gas to Produce Liquid Fuel and Prevent the Environment from Polluting (Case Study: Third Refinery- Phases 4 and 5 of South Pars)

Share To

Article Url


Manuscript ID : JEST-1706-3688 (R2) Visit : 169 Page: 61 - 72

10.22034/jest.2021.27339.3688

Article Type: Original Research

Use of Flare Gas to Produce Liquid Fuel and Prevent the Environment from Polluting (Case Study: Third Refinery- Phases 4 and 5 of South Pars)

Subject Areas : Recycling

Mohammad Taghi Abadi 1 , Mohammad Irani 2 , Ahmad Tavassoli 3

1 - M.Sc, Energy Engineering, Energy Group, Islamic Azad University, Science and Research Branch of Tehran, Tehran, Iran
2 - Assistant Professor, Research Institute of Petroleum Industry, Tehran, Iran ٭ (Corresponding Author)
3 - Assistant Professor, Research Institute of Petroleum Industry, Tehran, Iran ٭ (Corresponding Author)

Received: 2017-06-16 Accepted : 2017-09-20 Published : 2020-08-22

Keywords: Flare, Gas to Liquid, Environment, Energy,

Abstract :

Background and Purpose: In the last hundred years, to reach more manufacturing, supplying and consumption, using fossil fuel increased in industries, such as refineries, petrochemical and industrial complexes, etc. which spread severely environmental pollution worldwide consequently. The pollution as a complex problem has many reasons and also leads many negative effects, including environmental concerns, economic cost and fatal impact to human health. One of the most important cause is flare gas of industries. According to the world statistics, Iran is considered as third largest position in burning flare gas. A huge reduction in emission of these gases is one of the main goals to be achieved with the help of all international communities. Materials and Methods: Hence different methods such as gas to liquid seems necessary as one option to recovery the flare gas. In this study, the data related to flare gas of a particular refinery with the help of simulation software Aspen Hysys, the GTL unit isanalyzed. Results: The simulation shows that when the flare gas used as a raw material to unit GTL, it will be achieved 1549 GTL product barrels per day. Discussion and Conclusions: This case study shows that one of the most important flare gas recovery method is GTL.

References:


  1. F. Farina, Michael,2011, Flare Gas Reduction, GE Energy Global Strategy and Planning
    2.
  2. World Bank Group in collaboration with the Government of Norway, GLOBAL GAS FLARE GREDUCTION INITIATIVE.
    3.
  3. Pars oil and gas company journal, 1392, 15th course. (Persian)
    4.
  4. Musavi Nainiyan, Seyed Mojtaba, Alexandrovich, Nikolai, Filin, Nikolai, Pakhomov, Valeria, The use of extreme cooling to recovery waste gases in refineries,1383, Iranian journal of Energy, 8th year ,No.19. (Persian)
    5.
  5. Eman, Eman, 2015, Gas Flaring in industry: An overview, Petroleum & Coal, International Journal for Petroleum Processing.
    6.
  6. Jokar, Seyed Mohammad, Rahimpor, Mohammad Reza, Rezaei, Mojtaba, Jamshidnejad, Zahra, Optimization and economization of using flare gases in a refinery, the first International conference on Management, Innovation and Entrepreneurship, 1389. (Persian)
    7.
  7. Rahimpour, M.R, Jamshidnejad, Z, Jokar, S.M, Karimi, G, Ghorbani, A, Mohammadi, A.H,2012, A comparative study of three different methods for flare gas recovery of Asalooye gas refinery, Journal of Natural Gas Science and Engineering.
    8.
  8. Emami Maybudi, Ali, Mahdavi, Ruhollah, Khosrowshahy, Mosa, Economic Evaluation of a Simultaneous Electricity and Heat Generation Project in Mashhad, Journal of Energy Economics Studies, 1389, 7th,No.26. (Persian)
    9.
  9. http://climate-change.ir/ Clean - Development - Mechanism -(CDM)_2150.html#_ftn1
    10.
  10. Ibrahim Fatah Abadi, Hadi, Managing flare gases in the oil and gas industries, Scientific/training journal of oil and gas exploration and production, 1393, No.103. (Persian)
    11.
  11. Shahini, Mohammad, Flare gas Management, Tehran, Etehad Jahan no, 1386. (Persian)
    12.
  12. Nakhaei pour, Ali, Irani, Mohammad, Fischer-Tropsch Synthesis, A way for production of synthetic fuels, Tehran, Research Institute of petroleum Industry, 1390, No P.13-81 (Persian)
    13.
  13. Kim, Yong Heon, Jun, Ki-Won, Joo, Hyunku, Han,Chonghun, Song, In Kyu,2009, A simulation study on gas-to-liquid ( natural gas to Fischer- Tropsch synthetic fuel) process optimization, Chemical Engineering Journal.
    14.
  14. Nasirai, Alireza, Ghafelebashi, seyed Hasan, Technical and economic comparison of CNG and GTL, Second National Conference CNG, 1388. (Persian)
    15.
  15. National Iranian Gas Company, 1393, Deputy of Operation (Persian)
    16.
  16. Saberimoghadam, Ali, Zare chavoshi, Mohammad, Khebri, Vahid, Bahri Rasht Abadi, Mohammad Mehdi, Study and selection of appropriate catalysts for steam methane reforming process, First national conference on new technologies in chemistry and petrochemistry, 1392. (Persian)
    17.
  17. Mbodji, M, Commenge, J.M, Falk, L, Di Marco, D, Rossignol, F, Prost, L, Valentin, S, Joly, R, Del-Gallo, P, 2012, Steam methane reforming reaction process intensification by using a millistructured reactor: Experimental setup and model validation for global kinetic reaction rate estimation.
    18.
  18. http://www.fischer-tropsch.org/primary­_documents/presentations/acs2001_chicago/chic_ slide04.htm
    19.
  19. Abadi, Mohammad Taghi, Irani, Mohammad, Tavassoli, Ahmad, Technical and Economic study of existing recovery methods of flare gas in a sample refinery, 6th International conference on new approaches to energy conservation –Itech, 1395. (Persian)
    20.
_||_

  1. F. Farina, Michael,2011, Flare Gas Reduction, GE Energy Global Strategy and Planning
    2.
  2. World Bank Group in collaboration with the Government of Norway, GLOBAL GAS FLARE GREDUCTION INITIATIVE.
    3.
  3. Pars oil and gas company journal, 1392, 15th course. (Persian)
    4.
  4. Musavi Nainiyan, Seyed Mojtaba, Alexandrovich, Nikolai, Filin, Nikolai, Pakhomov, Valeria, The use of extreme cooling to recovery waste gases in refineries,1383, Iranian journal of Energy, 8th year ,No.19. (Persian)
    5.
  5. Eman, Eman, 2015, Gas Flaring in industry: An overview, Petroleum & Coal, International Journal for Petroleum Processing.
    6.
  6. Jokar, Seyed Mohammad, Rahimpor, Mohammad Reza, Rezaei, Mojtaba, Jamshidnejad, Zahra, Optimization and economization of using flare gases in a refinery, the first International conference on Management, Innovation and Entrepreneurship, 1389. (Persian)
    7.
  7. Rahimpour, M.R, Jamshidnejad, Z, Jokar, S.M, Karimi, G, Ghorbani, A, Mohammadi, A.H,2012, A comparative study of three different methods for flare gas recovery of Asalooye gas refinery, Journal of Natural Gas Science and Engineering.
    8.
  8. Emami Maybudi, Ali, Mahdavi, Ruhollah, Khosrowshahy, Mosa, Economic Evaluation of a Simultaneous Electricity and Heat Generation Project in Mashhad, Journal of Energy Economics Studies, 1389, 7th,No.26. (Persian)
    9.
  9. http://climate-change.ir/ Clean - Development - Mechanism -(CDM)_2150.html#_ftn1
    10.
  10. Ibrahim Fatah Abadi, Hadi, Managing flare gases in the oil and gas industries, Scientific/training journal of oil and gas exploration and production, 1393, No.103. (Persian)
    11.
  11. Shahini, Mohammad, Flare gas Management, Tehran, Etehad Jahan no, 1386. (Persian)
    12.
  12. Nakhaei pour, Ali, Irani, Mohammad, Fischer-Tropsch Synthesis, A way for production of synthetic fuels, Tehran, Research Institute of petroleum Industry, 1390, No P.13-81 (Persian)
    13.
  13. Kim, Yong Heon, Jun, Ki-Won, Joo, Hyunku, Han,Chonghun, Song, In Kyu,2009, A simulation study on gas-to-liquid ( natural gas to Fischer- Tropsch synthetic fuel) process optimization, Chemical Engineering Journal.
    14.
  14. Nasirai, Alireza, Ghafelebashi, seyed Hasan, Technical and economic comparison of CNG and GTL, Second National Conference CNG, 1388. (Persian)
    15.
  15. National Iranian Gas Company, 1393, Deputy of Operation (Persian)
    16.
  16. Saberimoghadam, Ali, Zare chavoshi, Mohammad, Khebri, Vahid, Bahri Rasht Abadi, Mohammad Mehdi, Study and selection of appropriate catalysts for steam methane reforming process, First national conference on new technologies in chemistry and petrochemistry, 1392. (Persian)
    17.
  17. Mbodji, M, Commenge, J.M, Falk, L, Di Marco, D, Rossignol, F, Prost, L, Valentin, S, Joly, R, Del-Gallo, P, 2012, Steam methane reforming reaction process intensification by using a millistructured reactor: Experimental setup and model validation for global kinetic reaction rate estimation.
    18.
  18. http://www.fischer-tropsch.org/primary­_documents/presentations/acs2001_chicago/chic_ slide04.htm
    19.
  19. Abadi, Mohammad Taghi, Irani, Mohammad, Tavassoli, Ahmad, Technical and Economic study of existing recovery methods of flare gas in a sample refinery, 6th International conference on new approaches to energy conservation –Itech, 1395. (Persian)
    20.

Related articles

The rights to this website are owned by the Raimag Press Management System.
Copyright © 2021-2024

Home| Login| About Us| Contact Us|
[فارسی] [العربية] [fa] [ar]