TY - JOUR TT - Predictions Related to Whether Acide Mine Drainages will Occur or Not in Mine Deposits Containing Sulphurous Minerals During and After Operating: Examples of Akdağ, Karıncadağ and Bolkardağ Chapter 2: Estimations Related to Whether Acide Mine Drainages Will Occur or Not AU - Anıl, Mesut AU - Özdemir, Ali Can AU - Altınçelep, Zehra AU - Demirel, Emine PY - 2016 DA - July DO - 10.21605/cukurovaummfd.242855 JF - Çukurova Üniversitesi Mühendislik-Mimarlık Fakültesi Dergisi JO - cukurovaummfd PB - Çukurova Üniversitesi WT - DergiPark SN - 1019-1011 SP - 127 EP - 145 VL - 29 IS - 1 KW - Sülfürlü mineraller KW - Asit kaya/maden drenajı KW - Karıncadağ-Bolkardağ KW - kestirim N2 - Mineralogical properties of primary and secondary minerals in paragenesis and their chemical contents were investigated in the first part. In the second part, it was studied whether the Acid Rock/Mine of the drainage will constitute in Karıncadağ complex ores. Summary about the prediction method used for performing this had presented in advance and then total amount of sulfur and carbonate was measured on samples taken from the mine sites, and proceeding was performed by internationally recognized calculation methods. Pyrite which is one of the sulphide minerals usually can appear and it can cause to the acid drainage. The tailing occurs by both operating activities and probable mineral processing operations. Tailing reacts with much larger surfaces than current stage at tailing pool impoundment by combing atmospheric water and oxygen of air. This condition causes to acid production equations which were examined at the first part and can form acid drainage. But the rocks are predominantly carbonate and sulphide ore mineral is well below 10 percent by weight in the material to be excavated. The acid and base calculations based on the total amount of sulfur and carbonate was performed on 10 representative samples taken during operation. It was determined that acid drainage will not occur during the operation because of both the balance value very stable for neutralization and the net neutralization potential of the sample containing minimum carbonate to be 3 times more than threshold value CR - 1. Morin, K.A., and N.M. Hutt. 1997. A comparison AMD Predictions with Historical Records. IN: R.W. McLean and L.C. Bell., eds., Proceedings of the Workshop on Acid Mine Drainage, 15-18July, Darwin, Northern Territory, Australia, Australian Centre for Minesite Rehabilitation Research, p. 33-44.in Karadeniz, 2008 CR - 2. Environmental Protection Agency - EPA (US), 1994. Technical Document - Acid Mine Drainage Prediction. CR - 3. Lapakko, K.A., 2002. Metal Mine Rock and Waste Characterization Tools: An overview, International Institute for Environment and Development, No:67. CR - 4. Karadeniz, M., 2008. Sülfürlü Madenlerin Sorunu Asit Maden Drenajı ve Çözümü, MMO Yayını, 231 s, Ankara. CR - 5. Paktunç, A.D.,1998. “Characterization of Mine Wastes for Prediction of Asid Mine Drainage”, Environmenta Impacts of Mining Activities, Azcue, J.M., (Ed). Pp.19-40. CR - 6. Environment Australia, 1997. Managing Sulphidic Mine Wastes and Asid Drainage, Best Practice Environmental Management in Mining Booklet Series. CR - 7. Skousen, J., Perry, E., Leavitt, B., Sames, G., Chisolm, W., Cecil, C. B., Hammack, R., 2000. “Chapter 4: Static Tests for Coal Mining Acid Mine Dainage Prediction in the Eastern U. S.” Kleinmann, R. L. P. (Ed.), the National Mine Land Reclamation Center Located at West Virginia University, pp. 73-98. UR - https://doi.org/10.21605/cukurovaummfd.242855 L1 - https://dergipark.org.tr/tr/download/article-file/211258 ER -