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Non-aqueous fracturing technologies for shale gas recovery

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Fracturing technologies for shale gas production were developed mainly in the USA and are currently being adapted to geological conditions and environmental requirements in other countries. This paper presents literature on theoretical and practical aspects of gas production from shale with the empha-sis placed on alternatives to hydraulic fracturing. Technical and environmental aspects of non-aqueous fracturing technologies are also considered.
Rocznik
Strony
313--322
Opis fizyczny
Bibliogr. 31 poz.
Twórcy
autor
  • Department of Chemical Technology, Chemical Faculty, Gdańsk University of Technology, Gdańsk, Poland
autor
  • Department of Chemical Technology, Chemical Faculty, Gdańsk University of Technology, Gdańsk, Poland
autor
  • Department of Chemical Technology, Chemical Faculty, Gdańsk University of Technology, Gdańsk, Poland
autor
  • Department of Chemical Technology, Chemical Faculty, Gdańsk University of Technology, Gdańsk, Poland
Bibliografia
  • 1. AHN J.H., PEACOR D.R., 1986. Transmission electron microscope data for rectiorite: Implications for the origin and structure of “fundamental particles”. Clays and Clay Minerals, 34, 180–186.
  • 2. ARNOLD D.L., 1998. Liquid CO2-sand fracturing: the dry frac. Fuel and Energy Abstracts, Volume 39, Number 3, pp. 185–185(1).
  • 3. BAILEY A., MURRAY S.G., 1989. Explosives, Propellants and Pyrotechnics, London: Brassey's (UK) April 1989, 180.
  • 4. BULLEN R.S., LILLIES A.T., 1982. Carbon dioxide fracturing process and apparatus. US Patent No 4374545.
  • 5. ESLINGER E., PEVEAR D, 1988. Clay Minerals for Petroleum Geologists and Engineers. SEPM Short Course Notes No. 22, Society of Economic Paleontologists and Mineralogists, Tulsa 1988.
  • 6. FREEMAN E.R., ABEL J.C., KIM C.M., HEINRICH C., 1983. A Stimulation Technique Using Only Nitrogen. Society of Petroleum Engineers, 35, 12, 2165–2174.
  • 7. GAYDOS J.S., HARRIS P.C., 1980. Foam fracturing: Theories, Procedures and Results. Society of Petroleum Engineers, DOI 10.2118/8961-MS, SPE Unconventional Gas Recovery Symposium, 18–21 May 1980, Pittsburgh, Pennsylvania.
  • 8. GILLIAT J., SNIDER P.M., HANEY R., 1999. Field Performance of New Perforating/Propellant Tech-nologies. 1999 SPE Annual Technical Conference and Exhibition, Houston, 3–6 October.
  • 9. GOTTSCHLING J.C., ROYCE T.N., SHUCK L.Z., 1985. Nitrogen Gas and Sand: A New Technique for Stimulation of Devonian Shale. Journal of Petroleum Technology 37, 5, 901–907.
  • 10. GUPTA D.V.S., BOBIER D.M., 1998, The History and Success of Liquid CO2 and CO2/N2 Fracturing System. SPE, Canadian Fracmaster Ltd., SPE Gas Technology Symposium, 15–18 March 1998, Cal-gary, Alberta, Canada.
  • 11. HARRIS P.C., KLEBENOW D.E., KUNDERT D.P., 1989. Constant internal phase design improves stimulation results. SPE Paper 17532.
  • 12. HOWARD G.C., 1971. Explosively fracturing formations in wells. US Patent No 3587743.
  • 13. KARGBO D.M., WILHELM R.G., CAMPBELL D.J., 2010. Natural Gas Plays in the Marcellus Shale: Challenges and Potential Opportunities. Environ. Sci. Technol. 2010, 44, 5679–5684.
  • 14. KRZYSIEK J., 2012. Is Polish Shale Gas posing challenge to players and researchers? Workshop Ab-stract Proceedings, Interfacial Phenomena in Theory and Practice, VII Summer School, Sudomie June 24th-30th 2012.
  • 15. LAL M., 1999. Shale Stability: Drilling Fluid Interaction and Shale Strength. SPE Paper 54356, SPE Latin American and Caribbean Petroleum Engineering Conference held in Caracas, Venezuela, 21–23 April 1999.
  • 16. LEBLANC D., MARTEL T., GRAVES D., TUDOR E., LESTZ R., 2011. Application of Propane (LPG) Based Hydraulic Fracturing in the McCully Gas Field, New Brunswick, Canada. Society of Petrole-um Engineers.10.2118/144093-MS.
  • 17. LILLIES A.T., KING S.R., 1982, Sand Fracturing With Liquid Carbon. Publisher Society of Petroleum, DOI 10.2118/11341.
  • 18. LOKHANDWALA K.A., JARIWALA A., 2005. Natural gas treatment process for stimulated well. US Patent No 7537641.
  • 19. LOREE D.N., MESHER S.T., 2007, Liquefied Petroleum Gas Fracturing System. US Patent Application No 2007204991.
  • 20. LUK S.W.M., GRISDOLE J.L., 1994. High proppant concentration/high CO2 ratio fracturing system. US Patent No 5515920.
  • 21. MADER D. et al., 1989. Hydraulic proppant fracturing and gravel packing. Elseviewer Science Publish-ers B.V., ISBN 0-444-87352-x (Volume 26), 0-444-41625-0 (series).
  • 22. MARTIN P., DACY J., 2004. Effective Qv by NMR core tests. SPWLA 45th Annual Logging Symposium, June 6-9, 2004.
  • 23. Office of Research and Development, U.S. Environmental Protection Agency. 2011. Draft Plan to Study the Potential Impacts of Hydraulic Fracturing on Drinking Water Resources. Washington, D.C.
  • 24. PAGE J.C., MISKIMINS J.L., 2009. A Comparison of Hydraulic and Propellant Fracture Propagation in a Shale Gas Reservoir. Journal of Canadian Petroleum Technology, 48(5), 26–30.
  • 25. PETTY C.B., HENDRICKSON A.R., BROWN L.S., 1964. Liquid Nitrogen In Well Operations. US Patent No 3358763.
  • 26. PHILLIPS A.M., COUCHMAN D.D., WILKE J.G., 1987. Successful Field Application of High-Temperature Rheology of CO2 Foam Fracturing Fluids. Society of Petroleum Engineers DOI 10.2118/16416-MS, Low Permeability Reservoirs Symposium, 18–19 May 1987, Denver, Colorado.
  • 27. REIDENBACH V.G., HARRIS P.C., LEE Y.N., LORD D.L., 1986. Rheological Study of Foam Fractur-ing Fluids Using Nitrogen and Carbon Dioxide. Society of Petroleum Engineers DOI 10.2118/12026-PA.
  • 28. SNIDER P.M. et al. 1997. Apparatus and method for perforating and stimulating a subterranean for-mation. United States Patent No. 5775426.
  • 29. TAYLOR R.S., FUNKHOUSER P., DUSTERHOFT R.G., LESTZ R.S., BYRD A., 2005. Compositions and methods for treating subterranean formations with liquefied petroleum gas. US Patent No 7341103.
  • 30. USEPA (United States Environmental Protection Agency), 2011. Plan to Study the Potential Impacts of Hydraulic Fracturing on Drinking Water Resources. U.S. Environmental Protection Agency, Office of Research and Development, Washington, D.C. [online], http://www.epa.gov/hfstudy/HF_Study__ Plan_110211_ FINAL_508.pdf.
  • 31. WRIGHT T.R., 1998. Frac technique minimizes formation damages Dry Frac. World Oil [online], http://findarticles.com/p/articles/mi_m3159/is_n1_v219/ai_20387355/.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-73f98bb6-bb2a-444b-ae3d-4782e9e66fc3
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