Przegląd przyczyn i mechanizmów migracji gazów powstałych w procesie podziemnego zgazowania węgla

• Autorzy: Ludwik-Pardała M.

Warianty tytułu

EN

Review of the reasons and mechanisms of migration of the gas produced during the underground coal gasification process

• Języki publikacji: PL

Abstrakty

PL

Według danych literaturowych szacuje się, że około 10 % gazów powstałych w podziemnym georeaktorze migruje do jego otoczenia. Jest to zjawisko niepożądane z punktu widzenia środowiska i bezpieczeństwa prowadzenia procesu. W artykule omówiono przyczyny i mechanizmy migracji gazów procesowych. Również na podstawie przeprowadzonych prób podziemnego zgazowania węgla na świecie opisano skutki środowiskowe, jakie powstały w wyniku ucieczki gazów procesowych z podziemnego reaktora.

EN

According to the reported literature data, it is estimated that about 10% of gaseous products generated in the underground georeactor migrate to its surroundings. However, it is harmful for the environment and process safety. This paper describes the reasons and mechanisms of gas migration during that process. Based on the performed tests on underground coal gasification process worldwide, the phenomena which affected the environment, as the result of the process gas escape from the georeactor underground, were also described.

Słowa kluczowe

PL

podziemne zgazowanie węgla; migracja gazów procesowych; oddziaływanie na środowisko

EN

underground coal gasification; process gas migration; impact on environment

• Wydawca: Stowarzyszenie Inżynierów i Techników Górnictwa
• Czasopismo: Przegląd Górniczy
• Rocznik: 2013
• Tom: T. 69, nr 3
• Strony: 77--84
• Opis fizyczny: Bibliogr. 69 poz., rys.

Twórcy

autor

Ludwik-Pardała M.

• Główny Instytut Górnictwa, Katowice

Bibliografia

• 1. Liu S., Li J., Mei M., Dong D.: Groundwater Pollution from Underground Coal Gasification, Journal of China University of Mining and Technology, Volume 17, Issue 4, December 2007, Pages 467÷472.
• 2. Burton E., Friedman J., Upadhye R.: Best Practices in Underground Coal Gasification., 2005Lawrence Livermore National Laboratory. Submitted to U.S. DOE. Contract No. W-7405-Eng-48.
• 3. KazakV. N., Korolev K., Semenenko D.K.: “Underground Losses of Coal Due to Underground Coal Gasification” 69 (1961) [English transl.: UCRL-Trans 11143, Lawrence Livermore National Laboratory, Livermore, Calif.].
• 4. Klimentov P.P.: Influence Of Ground Water On The Process Of Underground Gasification Of Coal Deposits, Geologiya I razvedka, No.4 (1963), pp. 106-1191963, Publisher: Lawrence Livemore Laboratory.
• 5. HumenickM. J., Mattox C.F.: Groundwater pollutants from underground coal gasification, Water Research Volume 12, Issue 7, 1978, Pages 463÷469.
• 6. Humenick M. J., Lang M.: The Effect of Lignite Ash Composition on Ground Water Leachate, 1980, Proceedings, 6th Symposium on Underground Coal Conversion, pp. V38-V44.
• 7. Sury Martin i inni: Review of Environmental Issues of Underground Coal Gasification, Report No. COAL R272 DTI/Pub URN 04/1880, November 2004, rozdział 5 i 6.
• 8. Viability of Underground Coal Gasification in the “Deep Coals” of the Powder River Basin, Wyoming GasTech,Inc. Casper, Wyoming, June 2007.
• 9. Creedy D. P., Garner K., Holloway S., Jones N., Ren T. X.: Review of underground coal gasification technological advancements, Report No. COAL R211 DTI/Pub URN 01/1041, 2001, Rozdział 5, Appendix 4.
• 10. Shafirovich E., Varma A.: Underground Coal Gasification: A Brief Review of Current Status, Ind. Eng. Chem. Res., 2009, 48 (17), pp 7865÷7875.
• 11. Olness D. U.: Underground Coaf Gasification Station Lisichaysk. Lawrence Livermore Nation (Livermore, Calif., UCRL-52572 (1978).
• 12. Olness D. U.: The Angrenskaya Underground Coal Gasification Station, UCRL-53300, Lawrence Livermore Laboratory. National Technical Information Service – U.S. Department of Commerce, 1982 r.
• 13. Zuo-tang W., Wen-gang H., Peng Z., Lin X.: A contrast study on different gasifying agents of underground coal gasification at Huating Coal Mine, Journal of Coal Science & Engineering (China) pp. 181÷186 Vol.17 No.2 June 2011.
• 14. Hongtao L., Feng C., Xia P., Kai Y., Shuqin L.: Method of oxygenenriched two-stage underground coal gasification, Mining Science and Technology (China) 1-6, 2011.
• 15. Moran C, J., Cuff C., da Costa J.: Summary of considerations and recommendations on the environmental evaluations of Cougar Energy. Report, independent scientific panel on underground coal gasification to the Department of Employment,Economic Development and Innovation, Queensland Government, Australia, 2011.
• 16. Hill R. W., Thorsness C. B.: Summary Report on Large Block Experiments in Underground Coal Gasification, Tono Basin, Washington, UCRL- 53305, Lawrence Livermore Laboratory, 1982.
• 17. Dames & Moore, “Draft Coring Report, Hoe Creek UCG Site, Campbell County, WY,”Report prepared for U.S. Army Corps of Engineers under Contract #DACW45-93-D0021, 1995.
• 18. Nordin J. S., Barrash W., Nolan B.T.: Groundwater restoration field test at the Hoe Creek Underground Coal Gasification Site, U.S. Department of Energy, Office of Fossil Energy, Laramie, Wyoming, DE-FC21-86MC11076, 1988
• 19. Burton E., Friedman J.: Environmental issues in Underground Coal Gasification- with Hoe Creek ex ample, , U.S. Department of Energy by University of California, Lawrence Livermore National Laboratory under contract W-7405-Eng-48.
• 20. Stuermer D. H., Morris J.: Organic contaminants in groundwater near an underground coal gasification site in northeastern Wyoming, Environ. Sci. Technol., 1982, 16 (9), pp. 582÷587.
• 21. Campbell J. H.: Results of a Groundwater Quality Study Near an Underground Coal Gasification Experiments, 1978, Raport UCRL- 57405, Lawrence Livermore National Laboratory.
• 22. Campbell, J. H., WangF. T., Mead S. W., and Busby J. F.: 1979. “Ground Water Quality Near an underground Coal Gasification Experiment.” Journal of Hydrology, 44, pp. 241÷266.
• 23. Campbell J. H., Dalton V., Busby J.: Ground Water Quality, pp. 95÷106., 1978. “Effects of UCG on ACS-Division Fuel Chemistry, Vol. 23.
• 24. The Class V Underground Injection Control Study, U.S. EPA, Office of Ground Water and Drinking Water, EPA/ 816-R-99-014m, September 1999.
• 25. Gash B. W.: Amoco Production Co.; V. L. Hill, S. P. Barone., Gas Research Ins.; J. W. Martin, U.S. DOE, Rocky Mountain 1 Underground Coal Gasification Test: In-Situ Coal Conversion Using Directionally Drilled Wells, SPE Annual Technical Conference and Exhibition, 8-11 October 1989, San Antonio, Texas.
• 26. Lindblom S. R., Smith V.E.: Rocky Mountain 1, Underground Coal Gasification Test Hanna, Wyoming Groundwater Evaluation, DOE, DE-FG21-88MC25038.
• 27. Pellizzari E.D., Castillow N. P., Willis S., Smith D., Bursey J. T.: Identification of Organic Constituents in Aqueous Effluents from Energy-Related Processes, ACS-Division Fuel Chemistry, 1978, Vol. 23, No.2, pp. 144÷155.
• 28. Peter K.D.: Preliminary Report of Ground-Water Data from an Underground Coal Gasification experiment, Hanna, Wyoming., 1975, U.S. Geological Survey Open-File Report, Cheyenne, Wyoming.
• 29. Virgona J.E.: Environmental Research for Underground Coal Gasification, Paper presented at 71st Annual AICh’E Meeting, 1978, Miami, Florida.
• 30. Werner E., Rauch W., Eli R. N., Gillmore D. W.: Some Environmental Effects of the Pricetown I UCG Test in West Virginia, USA, Proceedings, 6th Underground Coal Conversion Symposium, 1978, pp. V20÷32.
• 31. Thurnau R.C., Bates E. R.: EPA Research: In-Situ Coal Gasification Results to Date, proceedings, 6th Underground Coal Conversion Symposium, 1980,pp. V1÷V6.
• 32. Edgar T.F., Humenick M. J., Kaiser W. R., Char R. J.: Environmental Effects of In Situ Gasification of Texas Lignite, 1981, EPA-600/S7-8l-035.
• 33. Grant J. F., Haney S. E.: Environmental Monitoring of BRI Gasification Sites, Proceedings, 6th Symposium on Underground Coal Conversion, July 1980, pp. V7÷V12.
• 34. Pirard J.P., Brasseur A., Coeme A.: Results of the tracer tests during the El Tremedal underground coal gasification at great depth, Fuel,79 (2000), 471÷478.
• 35. Rabsztyn J., Jaskólski Z., Romanienko B.: Analiza możliwości zastosowania podziemnego zgazowania w warunkach polskich złóż węgli kamiennych, Główne Biuro Studiów i Projektów górniczych, Katowice, 1981.
• 36. Jaskólski Z., Rabsztyn J.: Rola czynników naturalnych w procesie podziemnego zgazowania węgla, Wiadomości Górnicze nr 2/1982.
• 37. Drzewiecki J. i inni: Raport z realizacji Cz.T.B ”Kryteria technologiczne i środowiskowe podziemnego zagazowania węgla’, w ramach projektu NCBiR „Opracowanie technologii zgazowania węgla dla wysokoefektywnej produkcji paliw i energii elektrycznej”, 30.11.2011, Katowice
• 38. Białecka B.: Podziemne zgazowanie węgla podstawy procesu decyzyjnego, Katowice, Wydawnictwo Głównego Instytutu Górnictwa, 2008.
• 39. Kidybiński A.: Podstawy geotechniki kopalnianej, Wydawnictwo „Śląsk”, 1982, Katowice.
• 40. Dadlez R., Jaroszewski W.: Tektonika, Wyd. PWN. 1994.
• 41. Nieć M.: Geologia Kopalniana. Wyd. Geologiczne, Warszawa, 1982.
• 42. Kapusta K., Stańczyk K.: Pollution of water during underground coal gasification of hard coal and lignite, Fuel, 90 (2011), 1927-1934.
• 43. Silin-Biekczurin A.I.: Osuszienije gazificirjemnych miestrożdiznij burych ugliej w Podmowskowom bassiejnie. Podziemnaja Gazifikacija Ugliej, 1957, nr 2 s.65.
• 44. Rauk J.: Perspektywy podziemnego zgazowania węgla kamiennego w Polsce, Gospodarka Paliwami i Energią 1978 r, nr 10.
• 45. Dziunikowski K.: Wyniki badań polskich nad podziemnym zgazowaniem węgla, Przegląd Górniczy, 1982, nr 12, s. 607.
• 46. Clean Energy from Underground Coal Gasification, Promoting commercially viable UCG in China, Project Summary 290, Cleaner Fossil Fuels Programme, DTI/Pub URN 03/1610, 2004.
• 47. Yang L. i inni: Field test of large-scale hydrogen manufacturing from underground coal gasification (UCG). Int. J Hydrogen Energy (2008).
• 48. Pirarda J.P., Brasseura A., Coëmeb A., Mostadeb M., Pirlota P.: Results of the tracer tests during the El Tremedal underground coal gasification at great depth, Fuel Vol. 79, Issue 5, April 2000, p. 471÷478.
• 49. Khadse A., Qayyumi M., Mahajani S., Aghalayam P.: Underground coal gasification: A New clean coal utilization technique for India. Energy 32 (2007) 2061÷2071.
• 50. Oliver R.L., Dana G.F.: Underground coal gasification. TechBooks; (Ed) Peters D.E, Fairfax, USA; pp. 155÷168 1991.
• 51. Mikelic A., Bruining H.: Analysis of model equations for stress-enhanced diffusion in coal layers. Part I: Existence of a weak solution, SIAM Journal of Applied Mathematics 2008, 40, 1671÷1691.
• 52. Wolker L.: Underground Coal Gasification: A Clean Coal Technology Ready for Development. The Australian Coal Review, October 1999. Pages 19÷25.
• 53. Solcova O., Soukup K., Rogut J., Stańczyk K., Schneider P.: Gas transport trough Porous strata from underground reaction Source; the influence of the gas kind, temperature and transport-pore size, Fuel Processing Technology (2009) 1495÷1501.
• 54. Falsztinskij W.S., Diczkowskij R.E., Łozinskij W.G.: Ekonomiczne uzasadnienie celowości doszczelniania skał stropowych nad obszarem podziemnego zgazowania węgla metodą otworów wiertniczych. Prace Naukowe GIG Górnictwo i Środowisko nr 3/2010. Katowice 2010.
• 55. Friedmann S. J., Nummedal D.: Reassessing the geological risks of seals failure for saline aquifers and EOR projects, Second Annual Carbon Sequestration Conference, DOE/NETL, 2003, Alexandria, VA.
• 56. Lavis S., Stanley E., Mostade M., Turner M.: Groundwater management during intermediate-to-deep underground coal gasification, EGU General Assembly, Geophysical Research Abstracts, Vol. 12, EGU2010-13545, 2010.
• 57. NETL U.S. DOE, Rocky Mountain 1 UCG Test Project, Final Technical Report for the Period 1986÷2000.
• 58. Barrash W., Schowengerdt R. S., Smith P.: HYDROGEOLOGY OF THE HOE CREEK UNDERGROUND COAL GASIFICATION SITE, RIVER BASIN, WYOMING, U. S. Department of-Energy, 1987.
• 59. Friedmann S.J.: Underground Coal Gasification. Transformational Clean Fossil Technology, World Energy Council Houston, Texas Nov. 1, 2011, LLNL-PRES-449296
• 60. Chinchilla IGCC 2002 Gasification Technologies Conference, San Francisco USA October 27-30 2002 Project to Date: UCG and Environment.
• 61. Walker L.K., Blinderman M.S., Brun K.: An IGCC Project at Chinchilla, Australia Based on Underground Coal Gasification (UCG)., Paper to 2001 Gasification Technologies Conference, San Francisco. October 8-10 2001, Ergo Linc Energy Ltd.
• 62. Boysen J.E., Mones C.G., Glaser R.R., Sullivan S.: Physical and Numerical Modeling Results for Controlling Groundwater Contaminants Following Shutdown of Underground Coal Gasification Processes, 1987, DOE/FE/60177-2392.
• 63. Boysen J.E., Mones C. G., Covell J. R., Sullivan S., Glaser R. R.: Underground Coal Gasification Contaminant Control Program: Simulation of Postburn UCG, Contaminant Production, 1988, GRI 88/0170.
• 64. Gawor M.: Sorpcja i dyfuzja gazów w węglu kamiennym, 1993r, Arch. Górn. Vol. 38, z. 3.
• 65. Mastalerz M., Gluskoter H., Rupp J.: Carbon dioxide and methane sorption in high volatole bituminous coal from Indiana USA, International Journal of Coal Geology, 2004, vol. 60 p. 43÷55.
• 66. Lasoń M.: Powierzchnia właściwa materiałów porowatych, Zesz. Nauk. AGH 1212, Chemia 1988, z. 8.
• 67. Kreinln E. V., Shifrin E. I.: Mathematical modeling of the gas generation process in a coal reaction chamber, Journal of mining Science, vol 31, 1995.
• 68. Matyukhina O. V., Babushok V. I.: Self-heating in a layer of coal, Combustion, Explosion, and Shock Waves Volume 28, Number 6, 573-580.
• 69. Yang L., Zhang X.: Modeling of contaminant transport in underground coal gasification, Energy & Fuels 2009, 23, 193÷201.