ESTONIAN ACADEMY
PUBLISHERS
eesti teaduste
akadeemia kirjastus
PUBLISHED
SINCE 1984
 
Oil Shale cover
Oil Shale
ISSN 1736-7492 (Electronic)
ISSN 0208-189X (Print)
Impact Factor (2022): 1.9
EL-NAKHEIL OIL SHALE: MATERIAL CHARACTERIZATION AND EFFECT OF ACID LEACHING; pp. 528–547
PDF | doi: 10.3176/oil.2011.4.06

Authors
A. F. MUHAMMAD, M. S. EL SALMAWY, A. M. ABDELAALA, S. SAMEAH
Abstract

The ever increasing demand for energy and the progressive depletion of crude oil resources, have renewed interest in oil shale as an alternative fuel resource. Weathered oil shale samples were assembled from El-Nakheil phosphate mine in Quseir area, Eastern desert, Egypt. The oil shale samples were prepared and analyzed by XRD (X-ray diffraction), XRF (X-ray flourescence spectrometry), and optical microscopic techniques. Rock-Eval pyrolysis and total organic carbon were used to study shale hydrocarbon potential. A leaching procedure using inorganic and organic acids was used to selectively dissolve the oil shale associated ash forming minerals.
   XRD results showed that calcite is the dominant carbonate mineral, whereas primary silicate minerals are quartz and montmorillonite. SEM (Scan­ning Electron Microscopy) observations indicated that the organic matter is dispersed throughout the rock matrix. The acid soluble fraction upon leaching was determined to be 37.59 and 42.74 wt% by using 5% HCl and 10% HCl, respectively. The TOC has been increased from 20.78 to 29.88 and 34.09 wt% by using 5% HCl and 10% HCl, respectively.

References

  1. Tissot, B. P., Welte, D. H. Petroleum Formation and Occurrence. 2nd ed. – Berlin: Springer-Verlag, 1984. xxi, 699 p.

  2. Dyni, J. R. Geology and resources of some world oil-shale deposits // Oil Shale. 2003. Vol. 20, No. 3. P. 193–252.

  3. Altun, N. E., Hicyilmaz, C., Hwang, J.-Y., Bagci, A. S., Kök, M. V. Oil shales in the world and Turkey; reserves, current situation and future prospects: a review // Oil Shale. 2006. Vol. 23, No. 3. P. 211–227.

  4. Said, R. The Geology of Egypt. – New York: Elsevier, 1962.

  5. Abdelrahman, A. A., Khaled, K. A. Preliminary evaluation of some black shales of the Eastern Desert of Egypt // The 3rd Conference of Chemical Engineer­ing,TESCE. Cairo, 1988. P. 169–184.

  6. Bock, W., Faatz, U., Ganz, H., Tröger, U. Phosphorites and oil shale of the eastern Sahara // Interim report 41. 1983, The Egyptian Geological Survey and Mining Authority. P. 1–12.

  7. Mohamed, A., Naim, G. , Aziz, M., Atia, B. Strategic fuel of the future: using oil shale as a fuel for thermal power generation // World Energy Council, 18th congress, Buenos Aires, October 2001. P. 1–12.

  8. Temraz, M. A. Mineralogical and Geochemical Studies of Carbonaceous Shale Deposits from Egypt. – Berlin: Ph.D., Technische Universität Berlin (Berlin Institute of Technology). 113 p.

  9. Seifelassr, A. S., Abdelrahman, A. A., Elgibaly, A. A. Hydrocarbon potential of magharah coal measure shales // Journal of Engineering and Applied Sciences. Faculty of Engineering, Cairo University. 1993. Vol. 40, No. 4. P. 879–892.

10. Darwish, M. Optimistic hydrocarbon potentialities of the oil shales in the Quseir-Safaga land stretch, Egypt // Bulletin of the Faculty of Science, Zagazig University. 1984. Vol. 6, No. P. 107–117.

11. El Kammar, A. M., Darwish, M.M., Philip, G., El Kammar, M. M. Composition and origin of black shale from Quseir area, Red Sea coast, Egypt // Journal of University of Kuwait (Science). 1990. Vol. 17, P. 177–190.

12. Tröger, U. The oil shale potential of Egypt // Berliner Geowiss., Abh.(A) 1984. Vol. 50. P. 375–380.

13. Mustafa, A., Ghaly, E. L. Survey of Qusseir shales and other carbonaceous shales in Egypt. chemical and Engineering Data // J. Chem. Eng. Data. 1964. Vol. 9, No. 4. P. 557–567.
http://dx.doi.org/10.1021/je60023a028

14. Khaled, K. A., Abdel Ghany, A. R., Abdelrahman, A. A., El Fadly, A. M. Laterial variation of the geochemical characteristics of some oil shale beds in Quseir-Safaga environs, Eastern Desert, Egypt // The Second Confernce on Mining, Petroleum and Metallurgical Engineering. – Suez: Suez Canal University, 1989.p. 105–119.

15. El Kammar, M. M. Stratigraphical and Mineralogical Studies on the Black Shale at Quseir Area, Red Sea Coast, Egypt. – 1987. M.Sc. Thesis, Cairo University, Egypt.

16. El Kammar, M. M., Organic and inorganic components of the Upper Cretaceous-Lower Tertiary black shales from Egypt and their hydrocarbon potentialities. – 1993. Ph.D. Thesis, Faculty of Science, Cairo University, Egypt.

17. El-Sabagh, S. M., Basta, J. S., Ahmed, F. S., Barakat, M. A. Characterization of selected Egyptian oil shales from the Red Sea area: composition of inorganic matrix and potential of organic matters // Energ. Source. 2000. Vol. 22, No. 10. P. 901–911.
http://dx.doi.org/10.1080/00908310051128273

18. Al-Wakeel, M. I., El-Adly, R. A. A novel application of Egyptian oil shale as a filler in the production of lithium lubricating grease // Energ. Source. 2005. Vol. 27, No. 16. P. 1511–1522.
http://dx.doi.org/10.1080/00908310490449270

19. Al-Otoom, A. Y., Shawabkeh, R. A., Al-Harahsheh, A. M., Shawaqfeh, A. T. The chemistry of minerals obtained from the combustion of Jordanian oil shale // Energy. 2005. Vol. 30, No. 5. P. 611–619.

20. Peters, K. E., Guidelines for evaluating petroleum source rock using pro­grammed pyrolysis // AAPG Bull. 1986. Vol. 70, No. 3. P. 318–329.

21. Behar, F., Beaumont, V., De B. Penteado, H. L. Rock-Eval 6 technology: per­formances and developments // Oil Gas Sci. Technol. 2001. Vol. 56, No. 2. P. 111–134.
http://dx.doi.org/10.2516/ogst:2001013

22. Wolela, A. Fossil fuel energy resources of Ethiopia: Oil shale deposits // J. Afr. Earth Sci. 2006. Vol. 46, No. 3. P. 263–280.
http://dx.doi.org/10.1016/j.jafrearsci.2006.06.005

23. Al-Harahsheh, A., Al-Harahsheh, M., Al-Otoom, A., Allawzi, M., Effect of demineralization of El-lajjun Jordanian oil shale on oil yield // Fuel Process. Technol. 2009. Vol. 90, No. 6. P. 818–824.
http://dx.doi.org/10.1016/j.fuproc.2009.03.005

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