Optimization of Fe and Mn Removal from Coal Acid Mine Drainage (AMD) with Waste Biomaterials: Statistical Modeling and Kinetic Study

Phycoremediation of acid mine drainage (AMD) is an alternative to AMD treatment but has limited applications. The obstacle in the application of AMD phycoremediation is that the characteristic of wastewater which limits the growth of microalgae, where AMD has a high metal content and low pH. In this study, Botryococcus braunii was cultured on media with variations in the addition of AMD of (v/v) 0%, 2.5%, 3%, 3.5%, 4% and had a pH of 7.2, 5.6, 5.1, 4.8, 4.3, respectively, on the photobioreactor. Botryococcus braunii growth rate was analyzed, as well as the effect of metal exposure and pH variations on the growth of Botryococcus braunii. Botryococcus braunii showed different growth rates, sequentially from the highest rate in the media with addition of AMD (v/v) 2.5%, 3%, 0%, 3.5%, 4% is 1.403 d-1 ,1.374 d-1 ,0.0862 d-1 ,0.0738 d-1 , and 0.0616 d-1 . It is known that the highest growth rate of Botryococcus braunii is obtained in media with 2.5% (v/v) AMD with an initial pH of 5.6, and Fe and Mn concentrations of 2.15 mg.L-1 and 0.62 mg.L-1 , respectively. It is also known the ability of Botryococcus braunii to adapt to acidic conditions with Fe and Mn content, where Botryococcus braunii plays a role in increasing media pH and is able to remove Fe and Mn with the highest values of 84.28% and 98%, respectively.

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Immobilisation of Co, Fe, and Mn from acid mine drainage using activated bentonite

Biomedical Engineering and Environmental Engineering ◽

10.2495/icbeee130341 ◽

2014 ◽

Author(s):

Freeman Ntuli ◽

Thabo Falayi ◽

Lucia Harmse

Keyword(s):

Acid Mine Drainage ◽

Mine Drainage ◽

Acid Mine ◽

Fe And Mn ◽

Activated Bentonite

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Comparison of Fe and Mn removal using treatment agents for acid mine drainage

Environmental Technology ◽

10.1080/09593330902767776 ◽

2009 ◽

Vol 30 (5) ◽

pp. 445-454 ◽

Cited By ~ 5

Author(s):

Jaeyoung Choi ◽

Dongwook Kwon ◽

Jung‐Seek Yang ◽

Ju Young Lee ◽

Young‐Tae Park

Keyword(s):

Acid Mine Drainage ◽

Mine Drainage ◽

Acid Mine ◽

Fe And Mn

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A Study Employing Differents Clays for Fe and Mn Removal in the Treatment of Acid Mine Drainage

Water Air & Soil Pollution ◽

10.1007/s11270-012-1401-4 ◽

2012 ◽

Vol 224 (1) ◽

Cited By ~ 11

Author(s):

Eduardo Goldani ◽

Celso Camilo Moro ◽

Sandra Maria Maia

Keyword(s):

Acid Mine Drainage ◽

Mine Drainage ◽

Acid Mine ◽

Fe And Mn

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Adsorption Kinetics of Fe and Mn with Using Fly Ash from PT Semen Baturaja in Acid Mine Drainage

Indonesian Journal of Environmental Management and Sustainability ◽

10.26554/ijems.2017.1.1.11-14 ◽

2017 ◽

Vol 1 (1) ◽

Author(s):

Indah Purnamasari ◽

Endang Supraptiah

Keyword(s):

Heavy Metal ◽

Fly Ash ◽

Acid Mine Drainage ◽

Metal Ions ◽

Heavy Metal Ions ◽

Mine Drainage ◽

Coal Fly Ash ◽

Adsorption Model ◽

Acid Mine ◽

Fe And Mn

One used method to reduce heavy metal ions in acid mine drainage is to adsorb them by coal fly ash. This research aimed to study the isotherms equilibrium and the adsorpstion kinetics that fit with decreasing metals ion. Acid mine draigane and fly ash were charge into batch coloumn adsorption with specified comparison. Variables investigated were dactivated and activated fly ash, adsorption times (0, 20, 30, 40,50, and 60 minutes), adsorben weights (10, 20, 30, 40, 50, and 60 gram), and pH (1, 3, 5, 7, and 9). The results showed that fly ash can be used to reduce the levels of heavy metal ions Fe and Mn. Coal fly ash adsorption model of acid mine drainage fits to Freundlich adsorption isotherm in all condition. First order pseudo model kinetics is suitable for Fe and Mn adsorption processes. The value of adsorpsi rate constants vary around : Fe and Mn (deactivated fly ash) 0.2388 min-1 with R2 = 0.4455 and 0.4173 min-1 with R2 = 0.9781, Fe and Mn (activated fly ash) 0.5043 min-1 dengan R2 = 1 and 0.2027 min-1 with R2 = 0.8803.

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Phytoremediation of Fe and Mn Metal in Acid Mine Drainage Using Typha Angustifolia

IOP Conference Series Materials Science and Engineering ◽

10.1088/1757-899x/875/1/012025 ◽

2020 ◽

Vol 875 ◽

pp. 012025

Author(s):

R Ibrahim ◽

A Zubair ◽

M Selintung ◽

A R Dwirachma

Keyword(s):

Acid Mine Drainage ◽

Mine Drainage ◽

Typha Angustifolia ◽

Acid Mine ◽

Fe And Mn

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Neutralization Acid Mine Drainage (AMD) using NaOH at PT. Jorong Barutama Grestone, Tanah Laut, South Borneo

IJCA (Indonesian Journal of Chemical Analysis) ◽

10.20885/ijca.vol3.iss1.art3 ◽

2020 ◽

Vol 3 (1) ◽

pp. 17-21

Author(s):

Umi Baroroh Lili Utami ◽

Heru Susanto ◽

Bambang Cahyono

Keyword(s):

Acid Mine Drainage ◽

Mine Water ◽

Mine Drainage ◽

Low Ph ◽

Acid Water ◽

Acid Mine ◽

Fe And Mn ◽

Mine Acid ◽

Acid Mine Drainage Treatment

Acid mine drainage (AMD) is mine water with a low pH derived from the oxidation of pyrite containing sulfide with water and air to produce sulfide acid (H2SO4) containing free sulfate. Acid mine drainage treatment carried out at PT Jorong Barutama Greystone Tanah Laut uses limestone at a cost of Rp.220. - per cubic meter of water. This study was conducted to determine the use of technical NaOH for changes in mine acid quality (pH. Fe and Mn). The method carried out by active handling is by adding technical NaOH into mine acid water. The results showed that neutralization of acid mine drainage using technical NaOH 10% to pH 8. was able to reduce Fe by 18.60 - 25.42% and Mn by 31.95 - 39.27%. at a cost of Rp.327. - per meter cubic of water

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The Fe (II) and Mn (II) adsorption in acid mine drainage using various granular sizes of activated carbon and temperatures

IOP Conference Series Earth and Environmental Science ◽

10.1088/1755-1315/882/1/012065 ◽

2021 ◽

Vol 882 (1) ◽

pp. 012065

Author(s):

Suliestyah ◽

Pancanita Novi Hartamai ◽

Indah Permata Sari ◽

Edwardo Alexander

Keyword(s):

Activated Carbon ◽

Acid Mine Drainage ◽

Adsorption Process ◽

Mine Drainage ◽

Atomic Absorption Spectrophotometry ◽

Carbon Surface ◽

Acid Mine ◽

Bet Method ◽

Fe And Mn ◽

Mn Concentrations

Abstract Acid mine drainage (AMD) from coal mining activities contains Fe and Mn concentrations that often exceed environmental quality requirements. This study aims to determine the effect of the coal material size and temperature on the adsorption process of Fe and Mn metals contained in AMD using activated carbon made with a composition of 60% coal and 40% ZnCl2. For characterizing activated carbon, surface morphological was analyzed using SEM method, and surface area was analyzed using BET method. Meanwhile, for measuring Fe and Mn concentrations, the researchers used atomic absorption spectrophotometry. The adsorption process was carried out with various granular sizes of activated carbon (20, 28, 35, 48 and 60 mesh) and temperature (25, 35, 40, 45 and 50°C). The results showed that the maximum adsorption of Fe was 100% occurred in the treatment with an activated carbon size of 60 mesh and a temperature of 45°C, while the maximum adsorption of Mn was 11.91% in the treatment with an activated carbon size of 60 mesh and a temperature of 50°C. Furthermore, the activated carbon of coal is highly effective as an adsorbent for Fe in AMD waste but less effective for Mn.

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