Author(s): Ganesh. G. Dhakad, Rohit. V. Patil, Tejas. I. Chaudhari, Rajesh. D. Ahire, Ritik. S. Jain

Email(s): ritikbadera390@gmail.com

DOI: 10.52711/2231-5659.2022.00021   

Address: Ganesh. G. Dhakad, Rohit. V. Patil, Tejas. I. Chaudhari, Rajesh. D. Ahire, Ritik. S. Jain
Ahinsa Institute of Pharmacy, Dondaicha 425408.
*Corresponding Author

Published In:   Volume - 12,      Issue - 2,     Year - 2022


ABSTRACT:
Microwave energy is becoming the most diverse form of energy transfer, used in the petroleum industry for inspecting coiled tubing and line Pipe, measuring multiphase flow, and the mobilization of asphaltic crude oil. Depletion of conventional crude oil reserves creates economic Demand for various fuels; in Canada, efforts have intensified to develop microwave technology for in-situ enhanced oil recovery of heavy oil/Bitumen; about 26 of the estimated 30 billion barrels of heavy oil are considered unrecoverable using current technology. Specific objectives included Studying microwave process conditions affecting upgrading of heavy oil/bitumen to synthetic crude and achieve up to 50% desulphurization. This review provides a general overview of microwave applications in oil sands bitumen or shale oil pro-Duction in petroleum upgrading. The vast oil reserves in the oil sands of Alberta will become a major source of petroleum products in the near future and a number of alternative technologies have been explored for the production and upgrading of oil sands and heavy oil.


Cite this article:
Ganesh. G. Dhakad, Rohit. V. Patil, Tejas. I. Chaudhari, Rajesh. D. Ahire, Ritik. S. Jain. Review on Microwave Application in Petroleum processing. Asian Journal of Research in Pharmaceutical Sciences. 2022; 12(2):128-2. doi: 10.52711/2231-5659.2022.00021

Cite(Electronic):
Ganesh. G. Dhakad, Rohit. V. Patil, Tejas. I. Chaudhari, Rajesh. D. Ahire, Ritik. S. Jain. Review on Microwave Application in Petroleum processing. Asian Journal of Research in Pharmaceutical Sciences. 2022; 12(2):128-2. doi: 10.52711/2231-5659.2022.00021   Available on: https://ajpsonline.com/AbstractView.aspx?PID=2022-12-2-7


REFERENCES:
1.    Britten AJ, Whiffen V, A Miadonye A (2005) “Heavy Petroleum Upgrading by Microwave Irradiation”, WIT Transactions on Modelling and Simulation41: 103-112.
2.    MiadonyeMiadonye A, J Cyr, K Secka, A Britten “Study of the Thermo-physical Properties of Bitumen in Hydrocarbon Condensates.” Computational Methods and Experimental Measurements XIV: 125-134.
3.    Miadonye A, MacDonald B (2014) tty Radiation Induced Visbreaking Of Heavy Crude Oil. Journal of Petroleum Science Research 3: 130.
4.    MiadonyeMiadonye A, Snow S, Irwin DJG, RM Khan, A Britten, et al. (2009) “Desulfurization of Heavy Crude Oil by Microwave Irradiation”, Publ, WIT Transactions on Engineering Sciences 63: 455-465.
5.    K-TEK specializes in manufacturing a broad range of high reliability levelInstruments. (2016). Asiinstr.com. Retrieved 19 May 2016, from http://asiinstr.Com/technical/Dielectric constants.htm
6.    Shang H, Guo Y, Yang X, Zhang W (2011) Influence of materials dielectric Properties on the petroleum oil removal from waste under microwave Irradiation. The Canadian Journal of Chemical Engineering 90: 1465-1471.
7.    Varadan V K et al 1988 Microwave Processing of Materials (Materials Research Society Symp. Proc. Vol 124) Ed W H Sutton et al (Pittsburgh, PA: Materials ResearchSociety) pp 45–7
8.    Kriegsmann G A 1992 J. Appl. Phys. 71 1960–6
9.    Janney M A and Kimrey H D 1990 Microwave Processing of Materials II (Materials Research Society Symp. Proc.Vol 189) ed W B Snyder et al (Pittsburgh, PA: MaterialsResearch Society) pp 215–27
10.    Bykov Yu V et al 1990 Microwave Processing of Materials II (Materials Research Society Symp. Proc. Vol 189) Ed W B Snyder et al (Pittsburgh, PA: Materials Research Society) pp 41–2
11.    Link G et al 1996 Microwave Processing of Materials V (Materials Research Society Symp. Proc. Vol 430) Ed M F Iskander et al (Pittsburgh, PA: Materials Research Society) pp 157–62
12.    Eastman J A et al 1990 Microwave Processing of Materials II (Materials Research Society Symp. Proc. Vol 189) Ed W B Snyder et al (Pittsburgh, PA: Materials Research Society) pp 273–8
13.    Ho W W 1988 Microwave Processing of Materials (Materials Research Society Symp. Proc. Vol 124) ed W H Sutton et al (Pittsburgh, PA: Materials Research Society) pp 137–48
14.    Birman A et al 1995 Microwaves: Theory and Application in Material Processing III (Ceramic Transactions vol 59) Ed D Clark et al (Westerville, OH: The American Ceramic Society) pp 305–12
15.    Gerdes T et al 1996 Microwave Processing of Materials V (Materials Research Society Symp. Proc. Vol 430) Ed M F Iskander et al (Pittsburgh, PA: Materials Research Society) pp 45–50
16.    Carr G L et al 1985 Infrared and Millimeter Waves vol 13,Ed K J Button (New York: Academic) pp 171–63
17.    Bergman D J and Stroud D 1992 Solid State Physics: Advances in Research and Applications vol 46,Ed H Ehrenreich and D Turnbull (New York: Academic) Pp 147–269
18.    Sahni, M. Kumar, R. Knapp, Electromagnetic heating methods for heavy oil re Servoirs, Society of Petroleum Engineers, SPE-62550 presented at the SPE/AAPG Western Regional Meeting held in Long Beach, California, June 19–23, 2000.
19.    Strausz, E.M. Lown, The Chemistry of Alberta Oil Sands, Bitumen and Heavy Oils, AERI, Calgary, AB, 2003, pp. 29–35.
20.    G. Gallone, G. Levita, A. Marchetti, S.C.M. Fantozzi, M. Lucchesi, Broad band di- Electric analysis of bituminous concrete, Materials Research Innovations 8 (1) (2004) 36–40.
21.    F.S. Chute, F.E. Vermeulen, Present and potential applications of electromagnetic Heating in the in-situ recovery of oil, AOSTRA Journal of Research 4 (1) (1987) 19–33.
22.    G.C. Sresty, H. Dev, R.H. Snow, J.E. Bridges, Recovery of bitumen from tar sand Deposits with the radio frequency process, SPE Reservoir Engineering, January 1986, pp. 85–94.
23.    R.G. McPherson, F.S. Chute, F.E. Vermeulen, Recovery of Athabasca bitumen with the electromagnetic flood (EMF) Process, Journal of Canadian Petroleum Technol- Ogy (January–February 1985) 44–51.
24.    R.S. Kasevich, M. Kolker and A.S Dwyer, In-situ radio frequency selective heating Process and system, US Patent 4,301,865, Nov.24, 1981.
25.    Defence News, Raytheon technology shows promise in extracting oil from shale, Microwave Journal 49 (7) (2006) 39.
26.    L.L. Schramm, Emulsions fundamentals and applications in petroleum industry, Wiley-VCH, Washington DC, 2006.
27.    N.O. Wolf, Use of microwave radiation in separating emulsion and dispersions of Hydrocarbons and water U.S. patent 4,582,629, April 15, 1986
28.    C.S. Fang, P.M.C. Lai, B.K.L. Chang, W.J. Klaila, Microwave demulsification, J. Environ. Prog. 8 (1989) 235–238.
29.    P.J. Nilsen, A. Kornfeldt, T. Nygren and R.B. Fdhila, Method for separating an emul-Sion by using microwave radiation, Patent WO 0112289, 2001.
30.    X.Zhang, D.O. Hayward, Applications of microwave dielectric heating in environ- Ment-related heterogeneous gas-phase catalytic systems, Inorganic Chimica Act 359 (2006) 3421–3433.
31.    X. Zhang, D.O. Hayard, D.M.P. Mingos, Dielectric properties of MoS2 and Ptcata- Lysts: effects of temperature and microwave frequency, Catalysis Letters 84 (2002) 225–233.
32.    Z. Zhang, H. Chauhan, R. M. Hutcheon, The Microwave response of mixtures of Polar and non-polar liquids, relevant to the microwave-assisted catalytic hydro-Processing of Canadian bitumen fractions, (unpublished results from University of Ottawa).
33.    J.K.S. Wan, J. F. Kriz, Hydrodesulphurization of hydro cracked pitch, US patent 4545879 October 8, 1985.
34.    J.K.S. Wan, K. Wolf, R.D. Heyding, in: S. Kaliaguine, A. Mahay (Eds.), Catalysis on The Energy Scene, Elsevier Science Ltd, 1984, pp. 561–568.
35.    M.C. Depew, M.Y. Tse, H. Husby, J.K.S. Wan, High power pulsed microwave catalytic Processes: a new approach to hydrocarbon oxidation and sulfur reduction, 11th Canadian Symposium on Catalysis (1990) 168–177.

Recomonded Articles:

Author(s): Ganesh. G. Dhakad, Rohit. V. Patil, Tejas. I. Chaudhari, Rajesh. D. Ahire, Ritik. S. Jain

DOI: 10.52711/2231-5659.2022.00021         Access: Open Access Read More

Asian Journal of Research in Pharmaceutical Sciences (AJPSci) is an international, peer-reviewed journal, devoted to pharmaceutical sciences....... Read more >>>

RNI: Not Available                     
DOI: 10.52711/2231-5659 


Recent Articles




Tags