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Ade Mansyur , 2014

STUDI POTENSI PEMBENTUKAN AIR ASAM TAMBANG LAPISAN TANAH PENUTUP

(OVERBURDEN) TAMBANG BATUBARA MENGGUNAKAN LEACH COLUMN TEST, FLOODING TEST DAN NAG TEST

Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu

BAB VI

DAFTAR PUSTAKA

Administrator ESDM. (2014). Kurangi Kecelakaan Kerja, Badiklat ESDM

Laksanakan Workshop. [Online].

Tersedia:http://www.esdm.go.id/berita/umum [8 Mei 2014].

ARD Test Handbook. (2002). Project P387A Prediction and Kinetic Control of

Acid Mine Drainage. Ian Wark Institute, Enviromental Geochemistry

International Pty Ltd: Australia, AMIRA International.

Baiquni, H. (2007). “Mengelola Drainase Asam Dan Logam”, Dalam Praktek

Unggulan Program Pembangunan Berkelanjutan Untuk Industri

Pertambangan. Canbera, Autralian Government: Departmen of Industry

Tourism and Resources.

Cui, M., et al. (2013). “Removal of dissolved Zn(II) using coal mine drainage

slugde: Implications for acidic wastewater treatment”. Journal of Environmental Management. 116, 107-112.

Environmental Geochemistry international PTY LTD. (2006).”Geochemical Characterisation And ARD Assessment of Sample from The Roseby

Copper Project”, Balmain: Environmental Geochemistry International PTY LTD.

Environmental Protection Agency. (2011). “Methode 1627: Kinetic Test Method

for the Prediction on Mine Drainage Quality”. Washington, DC: Office of

Water Office of Science and Technology Engineering and Analysis

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Ade Mansyur , 2014

STUDI POTENSI PEMBENTUKAN AIR ASAM TAMBANG LAPISAN TANAH PENUTUP

(OVERBURDEN) TAMBANG BATUBARA MENGGUNAKAN LEACH COLUMN TEST, FLOODING TEST DAN NAG TEST

Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu

Environmental Protection Agency. (1994). “Technical Document Acid Mine Drainage Prediction”. Washington, DC: Office of Solid Waste Special

Waste Branch.

Erguler, G.K. et al. (2014). “The effect of column dimensions and particles size

on the results of kinetic column test used for acid mine drainage (AMD)

prediction”. Mineral Engineering. 55, 18-29.

Gammos, C.H,. et al. (2010). “Geochemistry and stable isotope investigation of

acid mine drainage associated with abandoned coal mines in central

Montana, USA”.Chemical Geology. 269, 100-112.

Gautama, R.S. dan Hartaji, S. (2004). “Improving the Accuracy of Geochemical

Rock Modelling for Acid Rock Drainage Prevention in Coal Mine”.

Mine Water and the Environment. 23,100-104.

Herniwanti, et al. (2012). “Simulasi Aliran Air Asam Tambang”. Jurnal of

Degraded and Mining lands Management. 3, (2), 28-33.

Hughes T.A & Gray N.F. (2013). “Co-treatment of acid mine drainage with

municipal wastewater: performance evaluation”. Environmental Science Pollution Research. 20, 7863-7877.

Irfani, N. (2011). “Analisis Air Asam Tambang Batubara Kalimantan”. Laporan Praktik Kerja Lapangan, Bandung: UNPAD.

Jennings, S.R., Neuman, D.R. dan Blicker, P.S. (2008). “Acid Mine Drainage and

Effectc on Fish Health and Ecology: A Review”. Reclamation Research

Group Publication, Bozeman, MT.

Li, X. et al. (2013). “Dynamics In Leachate Chemistry Of Cu-Au Tailings In

Response To Biochar And Woodchip Amendment: A Column Leaching

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Ade Mansyur , 2014

STUDI POTENSI PEMBENTUKAN AIR ASAM TAMBANG LAPISAN TANAH PENUTUP

(OVERBURDEN) TAMBANG BATUBARA MENGGUNAKAN LEACH COLUMN TEST, FLOODING TEST DAN NAG TEST

Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu

Marganingrum, D. dan Noviardi, R. (2010). “Pencemaran Air Dan Tanah Di

Kawasan Pertambangan Batubara di PT Berau Coal, Kalimantan Timur”.

Jurnal Riset Geologi dan Pertambangan. 20, (1), 11-20.

Nurisman, E., Cahyadi, R., dan Hardriansyah, I. (2012). “Studi Terhadap Dosis Penggunaan Kapur Tohor (CaO) Pada Proses Pengolahan Air Asam

Tambang Pada Kolam Pengendap Lumpur Tambang Air Laya PT. Bukit

Asam (Persero), Tbk”. Jurnal Patra Akademika Edisi 5.

Peng, Bo. et al. (2009).”Heavy metal geochemistry od the acid mine drainage

discharged from the Hejiacum uranium mine in central Hunan, China”.

Enviromental Geologi. 57, 421-434.

Pusat Pengembangan dan Penerapan Amdal Bapedal. (2001). Aspek Lingkungan

Dalam Amdal Bidang Pertambangan, Jakarta: Bapedal.

Ravindra, W. et al. (2011). “Removal of metal from acid mine drainage (AMD)

by using natural zeolite of Nizarneshwar Hills of Western India”. Saudi Society for Geoscience. 4, 85-89.

Romero, F.M., et al. (2011). “Evaluation of the Potential of Indigeous Calcareous

Shale for Neutralization and Removal of Arsenic and Heavy Metals from

Acid Mine Drainage in the Taxco Mining Area, Mexico”. Arch Environmental Contaminant Toxicol. 60, 191-203.

Saria, L. et al. (2006). “Leaching of heavy metals in acid mine drainage”. Waste

Management & Research. 24, 134-140.

Sariwahyuni. (2012). “Rehabilitasi Lahan Bekas Tambang PT. Incosorowako

Dengan Bahan Organik, Bakteri Pelarut Fosfat dan Bakteri Pereduksi

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Ade Mansyur , 2014

STUDI POTENSI PEMBENTUKAN AIR ASAM TAMBANG LAPISAN TANAH PENUTUP

(OVERBURDEN) TAMBANG BATUBARA MENGGUNAKAN LEACH COLUMN TEST, FLOODING TEST DAN NAG TEST

Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu

Sanchez-Andrea, et al. (2014). “Sulfate reduction at low pH to remediate acid

mine drainage”. Journal of Hazardous Materials. 269: 98-109.

Silva, L.F.O. et al. (2013). “Study of environmental pollution and mineralogical

characterization of sediment reivers from Brazilian coal mining acid

drainage”. Science of the Total Environment. 447, 169-178.

Tabatabaei, S.H. et al. (2012).”Compost’ Leachate Recycling Through Land

Treatment and Application of Natural Zeolite”. International Journal Of Recycling of Organic Waste in Agriculture, Springer. 1, (2), 1-7.

Widyanti, E. (2008). “Peran Mikroba Tanah Pada Kegiatan Rehabilitas Lahan

Bekas Tambang (Roles of Soil Microbes In Ex-Mining Land

Rehabilitation)”. Info Hutan. 6, (2), 151-160.

World Coal Institute. (2014). Sumber Daya Batubaran Tinjauan Lengkap

Referensi

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