Effect of carbon source and metal toxicity for potential acid mine drainage (AMD) treatment with an anaerobic sludge using sulfate-reduction
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Title
Effect of carbon source and metal toxicity for potential acid mine drainage (AMD) treatment with an anaerobic sludge using sulfate-reduction
Authors
Keywords
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Journal
WATER SCIENCE AND TECHNOLOGY
Volume -, Issue -, Pages -
Publisher
IWA Publishing
Online
2021-04-29
DOI
10.2166/wst.2021.163
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- (2018) Priyesh Menon et al. INTERNATIONAL BIODETERIORATION & BIODEGRADATION
- Process integration for biological sulfate reduction in a carbon monoxide fed packed bed reactor
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- Heavy metal and sulfate removal from sulfate-rich synthetic mine drainages using sulfate reducing bacteria
- (2018) Sun Kyung Hwang et al. SCIENCE OF THE TOTAL ENVIRONMENT
- Acid mine drainage: Prevention, treatment options, and resource recovery: A review
- (2017) Kebede K. Kefeni et al. JOURNAL OF CLEANER PRODUCTION
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- Comparing lactate and glycerol as a single-electron donor for sulfate reduction in fluidized bed reactors
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- The influences of the amount of organic substrate on the performance of pilot-scale passive bioreactors for acid mine drainage treatment
- (2014) Giljae Yim et al. Environmental Earth Sciences
- Organic wastes as carbon sources to promote sulfate reducing bacterial activity for biological remediation of acid mine drainage
- (2014) Mingliang Zhang et al. MINERALS ENGINEERING
- A novel low pH sulfidogenic bioreactor using activated sludge as carbon source to treat acid mine drainage (AMD) and recovery metal sulfides: Pilot scale study
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- Heavy metal removal in anaerobic semi-continuous stirred tank reactors by a consortium of sulfate-reducing bacteria
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- (2010) Kathryn D. Wakeman et al. WATER RESEARCH
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