Powiadomienia systemowe
- Sesja wygasła!
Tytuł artykułu
Autorzy
Wybrane pełne teksty z tego czasopisma
Identyfikatory
Warianty tytułu
Survey of Acid Mine Drainage occurance in various mining regions in the world
Języki publikacji
Abstrakty
Kwaśne wody kopalniane (Acid Mine Drainage) są uważane za jedno z największych zagrożeń środowiska powstałych w wyniku działalności górnictwa węgla kamiennego i rud metali na świecie. Wypływają przede wszystkim z opuszczonych i zatopionych wyrobisk kopalnianych i są główną przyczyną zanieczyszczenia wód powierzchniowych i podziemnych w wielu regionach na świecie. Na świecie znanych jest wiele tysięcy zlikwidowanych wyrobisk kopalń węgla kamiennego i metali, z których wypływają kwaśne wody. Wypływy z całkowicie zatopionych kopalń mogą się pojawić po kilku, a nawet kilkunastu latach od ich zatopienia. Oznacza to, że zatapianie wyrobisk kopalnianych jest to tzw. .bomba ekologiczna. z opóźnionym zapłonem. Największym problemem jest to, że zanieczyszczenia te mogą trwać od kilku do kilkuset lat aż do wyczerpania się źródła ługowatych minerałów i związków chemicznych. Na przykład w Wielkiej Brytanii znane są wypływy kwaśnych wód kopalnianych z wyrobisk, które były eksploatowane przez Rzymian około 2000 lat temu. W niniejszej publikacji przedstawione są przykłady występowania kwaśnych wód kopalnianych w wybranych zagłębiach na świecie.
Acid mine Drainage (AMD) is regarded as one of the most serious environmental impact of coal and metal mining in the world. AMD discharging from the abandoned and flooded mine workings are a major cause of the pollution of surface and ground waters in many parts of the world. There are thousands of abandoned mine sites discharging acid mine waters in the world. These discharges may occur years after mine closure. The biggest problem is that ground water pollution may last decades or even hundreds of years. For instance in the UK some acid mine discharges from the mine sites, which were exploited by Romans 2000 years ago, are known. Examples of acid mine waters occurrence in selected basins in the world are presented in this paper.
Czasopismo
Rocznik
Tom
Strony
31--38
Opis fizyczny
Bibliogr. 74 poz., il., tab.
Twórcy
autor
- Państwowy Instytut Geologiczny, Sosnowiec
autor
- Główny Instytu Górnictwa , Katowice
Bibliografia
- 1. Ackman Т. Е.: An introduction to the use of airborne technologies for watershed chracterization in mined areas. Mine Water and the Environment. 2003. 22 (2). 62-68..
- 2. Allen S. K., Allen J. M, Lucas S.: Concentration of contaminants in surface water samples collected in west-central Indiana impacted by acidic mine drainage. Environmental Geology. 1996. 27. 1. 34-37.
- 3. Ammou M, Herve D., Ramon S: Mechanisme de sulfatation des eaux des mines de fer de lorraine. Revue de l'Industric Minerale - Les techniques. 1982 .5, 318-326.
- 4. Appello С. A. J., Postma D.: Geochemistry, groundwater and pollution. A. A. Balkema. Rotterdam. 1994.
- 5. Aslibekian O., Moles R.: Environmental Contamination related to mine drainage distribution from old mine sites by waterways. 2000. Proc. Mine Water and the Environment. Kongres IMWA, Ustroń, Poland. 49-58.
- 6. Bajtos P.: Environmental impact of mining activity in the Rudniany Ore Field, Slovak Ore Mountains. 2000. Proc. Mine water and the Environment. Kongres IMWA, Ustroń, Poland. 59-67.
- 7. Banks D., Holden W., Aguilar E., Mendez C., Koller D., Andia Z., Rodriguez J., Saether O. M., Torrico A., Veneros R., Flores J.: Contaminant source characterization of the San Jose Mine, Oruro, Bolivia. W Younger P.L., Robins N.S. (eds) Mine water hydrogeology and geochemistry. 2002. Geological Society. Londyn. Special Publications 198.215-239.
- 8. Banks D., Younger P. L., Dumpleton S.: The historical use of mine-drainage and pyritc-oxidation waters in central and eastern England, United Kingdom. Hydrogeol. J., 1996. 4, 4, 55-67.
- 9. Barnes I., Clarke F. E.: Geochemistry of ground water in mine drainage problems. 1964. U.S. Geological Survey Prof. Papers. 473A, A1-A6.
- 10.Benlahcen A., Rouleau A., Carignan J., Archambault G.: A study of the chimio-hydro-mechanical processes in the rock mass at a mine in Abitibi, Quebec, Canada: Preliminary results. Mine Water and Environment. 1999. IMWA Congress. Sevilla. Spain. 513-517.
- 11. Cairney Т., Frost R. C: A case study of mine wafer quality deterioration, Mainsforth Colliery, County Durham. J. Hydrol., 1975. 25, 275-293.
- 12. Chen M., Soulsby C., Younger P. L:. Predicting water quality impact from future minewater outflows in an urbanized Scottish catchment. Groundwater in the Urban Environment: Problems, Processes and Management, 1997. Chilton et al. (eds), Baalkcma Rotterdam, pp. 383-388.
- 13. Coldewey W. G., Semrau L:. Mine water in the Ruhr area (Germany). 1994. 5th IMWA Congress, Nottingham UK, Vol.2 613-629.
- 14. Connelly R. J., Harcourt K. J., Chapman J., Williams D.: Approach to remediation of ferruginous discharges in the South Wales Coalfield. 1994. 5th IMWA Congress, Nottingham UK, Vol.2 521-531.
- 15. Craig A.: AMD treatment in Baia Marc Romania. Raport Virotec. 2004. Internet: www.virotec.com
- 16. Cravolta C.: Acid Mine Waters flowing from 101 abandoned bituminous coal mines in Pennsylvania, USA. Raport 2001. Internet: www.usgs.org . Lemoyne
- 17. Deutsch W. J.: Groundwater geochemistry. Fundamentals and Applications to Contamination. Lewis Publishers. New York. 1997.
- 18. Dinelli E., Fabbri M., Lucchini F, Cortecci G.: Environmental Problems Related to Sulfide Oxidation: Investigation in the Libiola Copper Mine (Ligurian Apennines, Italy) Journal of Conference Abstracts. Mining and The Environment. 1999. www.thc-conference.com/JconfAbs/
- 19. Dragisic V,, Vrvic M., Milenic D., Miladinovic В.: Mine waters and waters of copper deposit tailings disposals of Serbia and environmental protection. Hydrogeochcmical aspect. 1999. Mine, Water and Environment. Proceedings of the International IMWA Congress. Sewilla. 527-533.
- 20. Dudgeon B. A.: Mine-related impacts on water supplies for developing communities: case study in the Philippines. 1999. Mine, Water and Environment. Proceedings of the International IMWA Congress. Sewilla, 495-500.
- 21. Ezeigbo H. I, Ezeanyim B. N.: Environmental pollution from coal mining activities in Enugu Area Anambka State Nigeria. Mine Water and the Environment. 1993. Vo. 12. 53-63.
- 22. Fetter C. W: Contaminant Hydrogeology. Maxwell Macmillan International. N.York, Oxford. 1993.
- 23. Fields S.: The Earth's Open Wounds: Abandoned and orphaned Mines. Environmental Health and Perspectives. 111(3). 2003. Internet: www.chp.niehs.nih.gov
- 24. Foos A.: Geochemical modelling of coal mine drainage, Summit County, Ohio. Environ. Geol., 1997. 31 (3/4), 205-210.
- 25. Galan E., Carretero M. I., Fernandez-Caliani J.C.: Effects of acid mine drainage on clay minerals suspended in the Tinto River (Rio Tinto, Spain). An experimental approach. Clay minerals. 1999. 34. 99-108.
- 26. Geldenhuis S., Bell F. G.: Acid mine drainage at a coal mine in the eastern Transvaal, South Africa. Environ. Geol., 1997. 34 (2/3), 234-242.
- 27. Gray N. F.: Environmental impact and remediation of acid mine drainage: a management problem. Environmental Geology 1997, 30 (1/2). 62-71.
- 28. Green D. K., McPhail D. C.: The geochemistry of groundwater and mine tailings in a sediment bank of the King River, Tasmania. 1997. Abstracts - Geological Society of Australia. 46:24.
- 29. Gurung S.: Tasmanian Acid Drainage Reconnaissance. Acid drainage from abandoned mines in Tasmania. Tasmanian Geological Survey. 2001. Record 2001/05. Internet: www.mrt.tas.gov.au
- 30. Hamilton R. M., Bowen G.G., Postlethwaite N. A., Dussek С J.: The abandonment of Wheal Jane, a tin mine in South West England. 1994. Proceedings of IMWA Congress, Nottingham, 543-553.
- 31. Hammack R. W., de Vegt A. L., Schoeneman A. L.: The removal of sulphate and metals from mine waters using bacterial sulphate reduction: Pilot Plant results. Mine Water and the Environment. 1998. Vo. 17. no 1. 8-27.
- 32. Harries J.:. Acid mine drainage in Australia: its extent and potential future liability. 1997. Supervising scientist report 125. Internet: www.deh.gov.au
- 33. Harris D. L., Lottermoser В. G., Duchesne J.: Ephemeral acid mine drainage at the Montalbion silver mine, north Queensland. Australian Journal of Earth Sciences. 2003. Vol. 50. Issue 5. 797.
- 34. Hedin R. S., Nairn R. W., Kleinmann R. L. P.: Passive treatment of coal mine drainage. 1994. US Bureau of Mines Information Circular 9389. US Department of the Interior, Buureau of Mines, Pittsburgh. 35.
- 35. Hellier W. W:. Abatement of acid mine drainage by capping a reclaimed surface mine with fiuidized bed combustion ash. Mine Water and the Environment. 1998. Vol. 17. no 1. 28-41.
- 36. Ito K., Ito A., Kanagawal K., Fukushi K., Ikeda H., Hashimoto K, Sato Т.: Verification of the processing method learnt to natural attenuation mechanism in AMD and characteristic of precipitation. Abstract Conference Earth 2004. Internet: www.sophia-anp.co.jp 57.
- 37. Iversen E. R., Kmidsen C. H:. Kjemisk rensing av gruvevan fra Kongens Gruve i Nordgruvefeltct, Roros. Norsk Institutt for Vannforskning (NIVA). 1997. Report 3632-97. Project O-96099. Oslo.
- 38. Izco F., Tames P., Antiguedad I., Da Silva A., Iribar V:. Mine Water Pollution at a Karstic Aquifer: The Troya Mine (Northern Spain). Journal of Conference Abstracts. 1999. Mining and The Environment, www.thc-conference.com/JconfAbs/
- 39. Klinger C., Hansen С., Ruterkamp P., Heinrich H:. In situ tests for interactions between acid mine waters and ferrihydritc sludge in the pyrite mine "Elbingerode" (Harz Mountains, Germany). 2000. Proc. IMWA Congress. Ustroń. 137-145.
- 40. Lee C. H., Lee H. K., Lee J. C.: Hydrogeochemistry of mine, surface and groundwaters from the Sanggok mine creek in the upper Chungju Lake, Republic of Korea. Environmental Geology. 2000. 40. (4-5). 482-494
- 41. Loredo J., Pendias F., Ordonez A., Perez M.: ERMITE: European Regulation of Mine Waters in the EU. National Case: Spain. 2003. Raport, www.minewater.net/ermite/
- 42. Mayo A. L, Nielsen P. J., Loucks M., Brimhall W. H.,: The use of solute and isotopic chemistry to identify flow patterns and factors which limit acid mine drainage in the Wasatch Range, Utah. Ground Water, 1992, 30(2), 243-249. 65.
- 43.. Nordstrom D. K., Alpers С. N.. Ptacek С J., Blowes D. W.; Negative pH and estremely acidic mine waters from Iron Mountain, California. Environmental Science and Technology. 1999. 34 (2). 254-258.
- 44. Pearce J. M, Kemp S. J.: A geochcmical study of Acid Mine water from a pyrite mine, North Wales 1994. Proceedings IMWA Congress. Nottingham. 561-577.
- 45. Pigati E., Lopez D. L.: Effect of subsidence on recharge at abandoned coal mines generating acidic drainage: The Majestic Mine, Athens County, Ohio. In: Journal of International Mine Water Association, 1999, T. 18, Nr 1,45-66.
- 46. Playton S. J., Davis R. E., McClaflin R. G.: Chemical Quality of Water in Abandoned Zinc Mines in Northeastern Oklahoma and Southeastern Kansas. Oklahoma Geological Survey Circular 82. 1980.
- 47. Pluta I.: Kwaśne wody w kopalniach południowo-zachodniego obszaru Górnośląskiego Zagłębia Węglowego. Prz. Gór. 2004. nr 2, s.20-23.
- 48 Pluta I.: Zmiany chemizmu wód w wyrobiskach górniczych kopalń GZW. Zeszyty Naukowe Politechniki Śląskiej, Seria Górnictwo, Konferencja I Rozpoznanie złóż „Górnictwo Zrównoważonego Rozwoju", 2000, Z. 246, s.407-416.
- 49. Pluta I., Sitko F, Wodecki J., Widuch Т.: Koncepcja ograniczenia wpływu zagrożenia hydrogeochemicznego i płytkiej eksploatacji w procesach likwidacji kopalń na przykładzie kopalni „Niwka-Modrzejów". [W:] Materiały Konferencji Naukowo-Techniczncj „Ochrona środowiska na terenach górniczych u progu integracji z Unią Europejską", Szczyrk, 2002, s. 191-198.
- 50. Pluta I., Jackowicz-Korczyński J.: Acid mine process in polish coal mines, the Niwka-Modrzcjów Coal Mine example. In: Mine water and the environment, 9 International Mine Water Association Congress, 2000, 37-41.
- 51. Posyłek E.: Dynamika i kierunki zmian jakości wód podziemnych w obszarach zlikwidowanych kopalń. Prz. Gór. 1998, nr 3, 19-26.
- 52. Prieto G.,Duitama L.M.: Environmental impacts and acid drainage of coal mining in Cundinamarca Department, Colombia. Mine Water and Environment. 1999. IMWA Congress. Sevilla. Spain. 395-402.
- 53. Ramon S., Ricour J.: Ennoyage des mines abandonees. Degradation et regeneration des eaux. 1993. Agence de l'eau Rhin-Meuse. B.R.G.M. Moulin-Les-Metz, France. 1993.
- 54. Razowska L.: Wpływ zatapiania wyrobisk na jakość wód kopalnianych na przykładzie rejonu częstochowskich kopalń rud żelaza. Prz. Gór. 1999, nr 9, 29-35.
- 55. Razowska L.: Zmiany hydrogeochemiczn w rejonie częstochowskim spowodowane zatopieniem kopalń rud żelaza - Biuletyn PIG nr 390. 2000. 35-93.
- 56. Razowska L.: Changes of groundwater chemistry caused by the flooding of iron mines (Częstochowa Region, Southern Poland). Journal of Hydrology. 2001.244. 17-32.
- 57. Rogoż M., Posyłek E.: Problemy hydrogeologiczne w polskich kopalniach węgla kamiennego. Główny Instytut Górnictwa. Katowice 2000.
- 58. Rosner U.: Effects of historical mining activities on surface water and groundwater - an example from northwest Arizona. Environ. Geol., 1998.33, 4, 224-229.
- 59. Sasowsky I. D., White W. В.: Geochemistry of the Obey River Basin, north-central Tennessee: a case of acid mine water in a karst drainage system. Journal of Hydrology. 1993. 146, 29-48.
- 60. Schwartz M. O., Ploethner D.: Removal of heavy metals from mine water by carbonate precipitation in the Grootfontcin-Omatako canal, Namibia. Environmental Geology, 1999. 39, 1117-1126.
- 61. Siddharth S., Jamal A., Dhar В. В., Shukla R.: Acid-Base accounting: A geochemical tool for management of Acid Drainage in coal mines. Mine Water and Environment. 2002. Nr 3. Springer. 106-110.
- 62. Smith M. W, Skema V. W.: Evaluation the potential for acid mine drainage remediatopn through remining in the Tangascootack Creek watershed, Clinton County, Pennsylvania. Mining Engineering. 2001, 41-48.
- 63. Sobolewski A.: Wetlands for the Treatment of Mine Drainage, 2004. Internet: www.technology.infomine.com/wetlands/
- 64. Szczepański A.: Problemy hydrogeologiczne związane z likwidacją kopalń. Biul. PIG. 1999. Nr 388. 211-228.
- 65. USGS.: Abandoned Mine lands Initiative - Providing Science for Watershed Issues. 1999. U.S. Geological Survey. Dept. of Interior. Meeting at Helena. Internet: www.usgs.gov/MineDrainage/
- 66. van Tonder G. J., Marce I. P., Miliard P.: Neutralization of acid coal mine water with dolomite in a fluidised reactor, 1994. Proceedings of the IMWA Congress. Nottingham. 587-599.
- 67. Wilk Z. red.: Hydrogeologia polskich złóż kopalin i problemy wodne górnictwa. Uczelniane Wydawnictwa Naukowo-Dydaktyczne. Kraków. 2003.
- 68. Williams T. M., Smith В.: Hydrochemical characterization of acute acid mine drainage at Iron Duke Mine, Mazowe, Zimbabwe. Environmental Geology, 2000, 39(3/4), 272-278.
- 69. Wood A., Reddy V.: Acid Mine Drainage as a factor in the impact of underground discharges from Grootvlei Gold mine. 1998. IMWA Johannesburg. 387-398.
- 70. Woods С, Younger P. L, Robins N. S.: Long-term changes in the quality of polluted minewater discharges from abandoned underground coal workings in Scotland. 1999. Quaterly Journal of Engineering Geology, 32, 69-79.
- 71. Younger P. L.: Hydrogeochemistry of minewaters flowing from abandoned coal workings in the Durham Coalfield. 1995. Quaterly Journal of Engineering Geology, 28 (4), 101 -S113.
- 72. Younger P.L.: Coalfield abandonment: geochemical, processes and hydrochemical products. 1998. Nicholson K., Energy and environment. Geochemistry of fossil, nuclear and renewable resources. Society for Environmental Geochemistry and Health. Me Gregor Science. Abcrdeenshire. 1-24.
- 73. Younger P.L.: Coalfield closure and the water environment in the EU: Perspectives from the Fifth Framework research community. 2003. Final Report PIRAMID (Passive in Situ Rcmadiation of Acidic Mine/Industrial Drainage. Internet: www.piramid.org.
- 74. Zakrzewski M.: Mineralogia spągowego poziomu rud syderytowych obszaru częstochowskiego. 1974. Pr. Miner. Komis. Nauk Miner. PAN. Kraków. Nr 38.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BGPK-1139-4791