IJRET
  • CrossRef
  • Google Scholar
  • ischolar
  • Index Copernicus
  • IJRET
  • Alternate Text
  • IJRET
  • IJRET
  • IJRET
  • Alternate Text
  • IJRET
  • IJRET
  • IJRET
  • IJRET
  • IJRET
  • IJRET
  • IJRET
Authors will receive one hard copy of full paper, individual print certificates and digital certificates, Submit Manuscript

CALL FOR PAPERS : DEC-2018

Submission Last Date :  30-Dec-2018
Acceptance Notification :  in 15 days
Publication Date :  in 5 days
Submit Manuscript Online

FOR AUTHORS

FOR REVIEWERS

IJRET® PUBLICATIONS

DOWNLOADS

CONTACT US

NEWS & UPDATES

Call for Paper Vol-7 Iss-02 Feb-2018

IJRET invites papers from various engineering disciplines for Volume-07 Issue-02, Feb-2018.

Submit Manuscript

Published Vol-07 Iss-01 Jan-18

IJRET Volume-07 Issue-01, Jan-2018 is published now.

Browse Papers

MICROWAVE DEHYDRATOR: AN ENVIRONMENTAL FRIENDLY STEP TOWARD IMPROVING MICROWAVE DEMULSIFICATION OF PETROLEUM EMULSIONS

Souleyman A. Issaka, Abdurahman H. Nour, Rosli Mohd Yunus, Azhari, H. Nour

Abstract: In this research introduces a newly improved method of microwave dehydrator. A system consists of modified domestic microwave oven and silicon based chemical demulsifiers was used to dehydrate two types of petroleum crude oils from Middle East. Silicone based additives which claimed to be nontoxic are used in conjunction with the modified microwave oven. The currently available demulsification techniques that consist mainly of chemicals together with mechanical, heating and electrical methods have some drawbacks, since chemicals are costly and harmful to the environment, mechanical techniques such as gravity settling tank, hydro cyclone vessel, centrifugal separators, and steam stripping are large requiring more space, time and cost, electrical techniques almost always work in a very high voltage that can easily cause fire via short circuit. Therefore, the objective of this project is to introduce the Microwave Dehydrator (MD) as a step forward to the commercialization of the microwave treatment of petroleum based emulsions. This is to replace or reduce the use of chemical dehydrators in the oil field. Simulated experimental model emulsions of various crude oils were produced to mimic the real emulsions. From previous articles, the optimal parameters to produce w/o emulsions of heavy crude oils were 0.25% (v/v) emulsifier’s concentration (Span 80) with mixing speed of 1600 rpm for 7 minutes mixing time. In this study, experimental stable emulsion were prepared from two different crude oils namely, Saudi Arabia (SA) and Kuwait, the water content in the emulsion was varied (20-80% and 50-50%), as well as the concentration of the additives (0.05 and 0.1%), results was discussed in terms of temperature, heat generation, and dielectric properties as well as water resolution. The results of the this research showed that, for 50-50% Kuwait oil emulsions, the optimal formulation was 0.1% additive and 2 minutes irradiation time gave the maximum water separation of 87%, while for 20-80% Kuwait oil emulsions, 0.1% additives and 2 minutes irradiation time had given the maximum separation of 52%. Furthermore, for Saudi Arabia crude emulsions, 50-50% w/o emulsions with 0.1% additive and 1.5 irradiation time had given the maximum separation of 85%. While for 20-80% w/o emulsions, 0.1% additive and 2 minutes irradiation time had given the maximum separation of 62%. Fundamentally the basic mechanism behind the effectiveness of microwave demulsification is that the electromagnetic wave that induce the water molecules to move as trying to rearrange themselves with the wave in two distinct mechanisms, known as ionic conduction and dipole rotation that would eventually convert the wave energy into heat generated within the water molecules. These results proved that microwave dehydrator can reduce the usage of chemical demulsifiers, as well as processing time and environmental issues.

Keywords: Microwave dehydrator, Green demulsifiers, petroleum dehydration, petroleum emulsions, heavy crude oils, and Silicone demulsifiers

DOI: https://doi.org/10.15623/ijret.2014.0308026

Home | Publication Ethics | Privacy Policy | Terms & Conditions | Refund Policy | Feedback | Contact Us
Copyright © 2012-2018 IJRET Journal All rights reserved