Remediation of Acid Mine Drainage Based on a Novel Coupled Membrane-Free Microbial Fuel Cell with Permeable Reactive Barrier System

Abstract It has recently been shown that pervious concrete is a promising, effective technology as permeable reactive barrier for treatment of acid mine drainage (AMD). However, pore clogging also occurs simultaneously during AMD treatment. In the present study, mixtures of pervious concrete were made and used in a column experiment during which pore clogging occurred in the samples. Pore volume, connectivity and other parameters of pervious concrete were evaluated using five (5) different methods comprising the volumetric method (VM), linear – traverse method (LTM), image analysis (IA), falling head permeability test and X - ray micro - computed tomography. It was found that pervious concrete effectively removed from AMD, about 90 to 99% of various heavy metals including Al, Fe, Zn, Mn and Mg. Cr concentration significantly increased in the treated effluent, owing to leaching from cementitious materials used in mixtures. The VM and LTM gave statistically similar pore volume results, while IA’s values were 20 to 30% higher than those of the conventional methods. The falling head permeability test and IA were found to be effective in quantifying pore clogging effects. Pervious concrete exhibited high pore connectivity of 95.0 to 99.7%, which underlies its efficacious hydraulic conductivity.

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Remediation of acid mine drainage using microbial fuel cell based on sludge anaerobic fermentation

Environmental Technology ◽

10.1080/09593330.2016.1262462 ◽

2016 ◽

Vol 38 (19) ◽

pp. 2400-2409 ◽

Cited By ~ 11

Author(s):

Xiang Peng ◽

Tianle Tang ◽

Xiaoqiao Zhu ◽

Gaohui Jia ◽

Yanran Ding ◽

...

Keyword(s):

Fuel Cell ◽

Acid Mine Drainage ◽

Microbial Fuel Cell ◽

Mine Drainage ◽

Anaerobic Fermentation ◽

Acid Mine

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A systematic mapping study on the development of permeable reactive barrier for acid mine drainage treatment

MATEC Web of Conferences ◽

10.1051/matecconf/201926806019 ◽

2019 ◽

Vol 268 ◽

pp. 06019

Author(s):

April Anne Tigue ◽

Roy Alvin Malenab ◽

Michael Angelo Promentilla

Keyword(s):

Acid Mine Drainage ◽

Mine Drainage ◽

Permeable Reactive Barrier ◽

Systematic Mapping Study ◽

Systematic Mapping ◽

Remediation Technology ◽

Reactive Barrier ◽

Acid Mine ◽

Acid Mine Drainage Treatment ◽

Reactive Media

Acid mine drainage is a result of exposure of sulfide ore and minerals to water and oxygen. This environmental pollutant has been considered the second biggest environmental problem after global warming. On the other hand, permeable reactive barrier is an emerging remediation technology which can be used to treat acid mine drainage. However, the effectiveness of this proposed remediation technology greatly depends on the reactive media. Also, treatment of acid mine drainage using permeable reactive barrier is still in the infancy stage, and long-term performance is still unknown. Hence, this study was conducted to identify what have been studied, addressed and what are currently the biggest challenges and limitations on the use of permeable reactive barrier for acid mine drainage treatment. Through systematic mapping approach, the results have shown that the reactive media used in permeable reactive barrier can be categorized into five namely iron-based, organic-based, inorganic minerals-based, industrial waste-based, and combined media. The data revealed that majority of the papers which is about 40% use combined media as the reactive substrate. The future direction is toward the use of combined media as a reactive material for AMD treatment, for instance, use of geopolymer with mine tailings and silts as reactive media in combination with organic-based media

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Treatment of Simulated Acid Mine Drainage by Permeable Reactive Barrier: Column Study

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.989-994.966 ◽

2014 ◽

Vol 989-994 ◽

pp. 966-969

Author(s):

Chang Feng Cai ◽

Fu Zhang Qi ◽

Xiao Liang Lin ◽

Lin Jiang

Keyword(s):

Acid Mine Drainage ◽

Metal Ions ◽

Removal Efficiency ◽

Mine Drainage ◽

Permeable Reactive Barrier ◽

Inlet Velocity ◽

Reactive Barrier ◽

Treatment Performance ◽

Acid Mine ◽

Reactive Media

Three polyvinyl chloride (PVC) columns filled with different ratios of reactive media, ceramsite and corncob, were conducted to assess the treatment performance of simulated acid mine drainage (AMD). The results indicated that the columns could effectively remove sulfate and metal ions from AMD with the removal efficiency of 57.7% and 96.5% respectively. The removal efficiency decreased with the increasing inlet velocity and at the same sample ports the sulfate and metal ions concentrations at the velocity of 1 ml/min were lower than that at the velocity of 2ml/min and 3ml/min.

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