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Improvement of Environmental Conditions of Faryab Chromite Mine Using Backfill

Yıl 2012, Cilt: 33 Sayı: 1, 81 - 97, 01.02.2012

Öz

There are many sources for waste production such as surface & underground mines, mineral processing plant and smelter refinery in Faryab chromite mine which has created serious hazards for environmental conditions. On the other hand, the massive and violent collapse of pillars which has been labelled as a domino failure occurred in this mine. These hazards were led to study the replacement of waste materials in underground spaces. Accordingly, the need for environmental protections and the stability of underground stopes in Faryab mine have necessitated ever stricter requirements for the introduction of a more environmental-friendly mining method which is labelled as green backfill. In this research for estimation of backfill required strength, a numerical model was developed. On the other hand, to reduce or eliminate cement from the backfill mixes, investigations were conducted regarding the replacement of cement by chromite slag for the first time as an alternative. Test results indicated that mechanical properties of backfill materials were improved by chromite slag. The results also showed that cement consumption will be reduced by at least 2-3% using chromite slag as a binding agent. According to these results, it is possible to point out that chromite slag is a potential replacement material for Portland cement in backfill mixes. By using waste materials and chromite slag, the environmental conditions of Faryab mine will improve. 

Kaynakça

  • American society for testing and materials, 2000a. Standard Practice for Slump of Hydraulic - Cement Concrete. Designa- tion: C143/C 143M - 98, Annual Book of ASTM Standards, Sec. 4, Vol. 04.02, Concrete and Aggregates, Philadelphia (PA), pp. 88-90.
  • American society for testing and materials, 2000b. Standard Practice for Making and Curing Concrete Test Specimens in the Labo- ratory. Designation: C192/C 192M - 98, Annual Book of ASTM Standards, Sec. 4, Vol. 04.02, Concrete and Aggregates, Philadelphia (PA), pp. 113-120.
  • BS, 2000a. Testing hardened concrete-Part 1: Shape, dimensions and other require- ments for specimens and moulds, BS EN 12390-1.
  • BS, 2000b. Testing hardened concrete-Part 2: Making and curing specimens for strength tests, BS EN 12390-2.
  • BS, 2000c. Testing hardened concrete-Part 3: Compressive strength of test speci- mens, BS EN 12390-3.
  • Benkendorff, P.N., 2006. Potential of Lead/Zinc Slag for use in Cemented Mine Backfill. Scopus Journals, Transaction of Insti- tution of Mining and Metallurgy, Secti- on C, Mineral Processing and Extracti- ve Metallurgy, Vol. 115, 171-173.
  • Brown, E.T., 1981. Rock characterization tes- ting &monitoring, ISRM suggested met- hods. Pergamon Press.
  • Bieniawski, Z.T., 1989. Engineering Rock Mass Classification, J.Willey, New York.
  • Das B.M., 1983. Advanced soil mechanics. McGraw Hill Limited, New York.
  • Dehghan, S., Shahriar, K., Maarefvand, P., and Goshtasbi, K., 2010. Calculation of pillar stress in room and rib pillar mine during the ore exploitation. Proceeding of 4th International conference on Mining in- novation, Santiago, Chile, 503-512.
  • Dehghan, S., Shahriar, K., Maarefvand, P., and Goshtasbi, K., 2011. Analysis and Nu- merical Modeling of Cemented Backfill Pillars Behaviour in stope and pillar mi- ning method. PhD thesis, Mining Engi- neering Department, Science and Re- search Branch, Islamic Azad University, Poonak, Hesarak, Tehran, Iran (unpub- lished).
  • DeSouza, E., Archibald, J., and Dirige, A., 2003. Economics and perspectives of underg- round backfill practices in Canadian mining. 105th Annual General Meeting of the Canadian Institute of Mining, Me- tallurgy and Petroleum. Montreal, CIM.
  • Faryab Company, 2007. Technical report.
  • Grice, A.G., 1989. Fill research at Mount Isa Mi- nes Limited. Innovations, Proc. Forth International Symposium on Mining with Backfill, F.P. Hassani, M.J. Scob- le and T.R. Yu Eds., A.A. Balkema (Rot- terdam), pp. 15-22.
  • Hassani, F., and Archibald, J., 1998. Mine Back- fill. CIM Conference Proceedings, Ca- nadian Institute of Mining and Metal- lurgy, Montreal, Que.
  • Khoek, S.C., 1981. Metallurgical Slag as Ce- menting in Underground Mine Filling. Proc. Of Asian Mining’81, Singapore, Malaysia, 285-291.
  • Niemineh, P., and Seppanen, P., 1983. The use of blast-furnace slag and other by pro- ducts as binding agents in consolida- ted backfilling at Outokumpu Oy’s mi- nes. International Symposium on Mi- ning with Backfill, Lulea.
  • Peila, D., Guardini, C., and Pelizza, S., 2008. Geomechanical Design of a Room and Rib Pillar. Granite Mine, Journal of Uni- versity of Science & Technology Beijing, Vol 15, No 2, 97-103.
  • Petrolito, J., Anderson, R.M., and Pigdon, S.P., 2005. A review of Binder materials used in Stabilized Backfills. CIM Bulletin; 98,
  • ; ProQuest Science Journals, 85.
  • Sivakugan, N., Rankine, R.M., Rankine, K.J., and Rankine, K.S., 2006. Geotechni- cal considerations in mine backfilling in Australia. Journal of Cleaner Producti- on, 1168-1175.
  • Thomas, E.G., and Cowling, R., 1978. Pozzola- nic Behavior of Ground Isa Mine Slag in Cemented Hydraulic Mine Fill at High Slag/Cement Ratios. Proc. of 12th Can. Rock Mechanics Symposium, 129-132.

Improvement of Environmental Conditions of Faryab Chromite Mine Using Backfill

Yıl 2012, Cilt: 33 Sayı: 1, 81 - 97, 01.02.2012

Öz

-

Kaynakça

  • American society for testing and materials, 2000a. Standard Practice for Slump of Hydraulic - Cement Concrete. Designa- tion: C143/C 143M - 98, Annual Book of ASTM Standards, Sec. 4, Vol. 04.02, Concrete and Aggregates, Philadelphia (PA), pp. 88-90.
  • American society for testing and materials, 2000b. Standard Practice for Making and Curing Concrete Test Specimens in the Labo- ratory. Designation: C192/C 192M - 98, Annual Book of ASTM Standards, Sec. 4, Vol. 04.02, Concrete and Aggregates, Philadelphia (PA), pp. 113-120.
  • BS, 2000a. Testing hardened concrete-Part 1: Shape, dimensions and other require- ments for specimens and moulds, BS EN 12390-1.
  • BS, 2000b. Testing hardened concrete-Part 2: Making and curing specimens for strength tests, BS EN 12390-2.
  • BS, 2000c. Testing hardened concrete-Part 3: Compressive strength of test speci- mens, BS EN 12390-3.
  • Benkendorff, P.N., 2006. Potential of Lead/Zinc Slag for use in Cemented Mine Backfill. Scopus Journals, Transaction of Insti- tution of Mining and Metallurgy, Secti- on C, Mineral Processing and Extracti- ve Metallurgy, Vol. 115, 171-173.
  • Brown, E.T., 1981. Rock characterization tes- ting &monitoring, ISRM suggested met- hods. Pergamon Press.
  • Bieniawski, Z.T., 1989. Engineering Rock Mass Classification, J.Willey, New York.
  • Das B.M., 1983. Advanced soil mechanics. McGraw Hill Limited, New York.
  • Dehghan, S., Shahriar, K., Maarefvand, P., and Goshtasbi, K., 2010. Calculation of pillar stress in room and rib pillar mine during the ore exploitation. Proceeding of 4th International conference on Mining in- novation, Santiago, Chile, 503-512.
  • Dehghan, S., Shahriar, K., Maarefvand, P., and Goshtasbi, K., 2011. Analysis and Nu- merical Modeling of Cemented Backfill Pillars Behaviour in stope and pillar mi- ning method. PhD thesis, Mining Engi- neering Department, Science and Re- search Branch, Islamic Azad University, Poonak, Hesarak, Tehran, Iran (unpub- lished).
  • DeSouza, E., Archibald, J., and Dirige, A., 2003. Economics and perspectives of underg- round backfill practices in Canadian mining. 105th Annual General Meeting of the Canadian Institute of Mining, Me- tallurgy and Petroleum. Montreal, CIM.
  • Faryab Company, 2007. Technical report.
  • Grice, A.G., 1989. Fill research at Mount Isa Mi- nes Limited. Innovations, Proc. Forth International Symposium on Mining with Backfill, F.P. Hassani, M.J. Scob- le and T.R. Yu Eds., A.A. Balkema (Rot- terdam), pp. 15-22.
  • Hassani, F., and Archibald, J., 1998. Mine Back- fill. CIM Conference Proceedings, Ca- nadian Institute of Mining and Metal- lurgy, Montreal, Que.
  • Khoek, S.C., 1981. Metallurgical Slag as Ce- menting in Underground Mine Filling. Proc. Of Asian Mining’81, Singapore, Malaysia, 285-291.
  • Niemineh, P., and Seppanen, P., 1983. The use of blast-furnace slag and other by pro- ducts as binding agents in consolida- ted backfilling at Outokumpu Oy’s mi- nes. International Symposium on Mi- ning with Backfill, Lulea.
  • Peila, D., Guardini, C., and Pelizza, S., 2008. Geomechanical Design of a Room and Rib Pillar. Granite Mine, Journal of Uni- versity of Science & Technology Beijing, Vol 15, No 2, 97-103.
  • Petrolito, J., Anderson, R.M., and Pigdon, S.P., 2005. A review of Binder materials used in Stabilized Backfills. CIM Bulletin; 98,
  • ; ProQuest Science Journals, 85.
  • Sivakugan, N., Rankine, R.M., Rankine, K.J., and Rankine, K.S., 2006. Geotechni- cal considerations in mine backfilling in Australia. Journal of Cleaner Producti- on, 1168-1175.
  • Thomas, E.G., and Cowling, R., 1978. Pozzola- nic Behavior of Ground Isa Mine Slag in Cemented Hydraulic Mine Fill at High Slag/Cement Ratios. Proc. of 12th Can. Rock Mechanics Symposium, 129-132.
Toplam 22 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Mühendislik
Bölüm Makaleler
Yazarlar

Saeed Dehghan Bu kişi benim

Koroush Shahrıar Bu kişi benim

Parviz Maarefvand Bu kişi benim

Kamran Ghostasbı Bu kişi benim

Yayımlanma Tarihi 1 Şubat 2012
Gönderilme Tarihi 24 Mart 2015
Yayımlandığı Sayı Yıl 2012 Cilt: 33 Sayı: 1

Kaynak Göster

EndNote Dehghan S, Shahrıar K, Maarefvand P, Ghostasbı K (01 Şubat 2012) Improvement of Environmental Conditions of Faryab Chromite Mine Using Backfill. Yerbilimleri 33 1 81–97.