Phytoremediation Of Coal Mining Acid Water In PT Bukit Asam Tanjung Enim South Sumatera

The using of some water plants to improve the quality of waters which is polluted by acid mine drainage (AMD) containing sulphate(SO42−) and heavy metal(Fe and Mn) can be used as one of the ways of biological controls which is environmental friendly, accurate, effective and efficient. Research about...

Full description

Saved in:
Bibliographic Details
Published in:Journal of physics. Conference series 2018-09, Vol.1095 (1), p.12037
Main Authors: Pertiwi Estuningsih, Sri, Yudono, Bambang, Yonanda
Format: Article
Language:English
Subjects:
Ability tests
Acid mine drainage
Acid Mine Drainage Coal
Coal
Coal mines
Coal mining
Heavy metals
Iron
Manganese
Phytoremediation
Water Plants
Citations: Items that this one cites
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:The using of some water plants to improve the quality of waters which is polluted by acid mine drainage (AMD) containing sulphate(SO42−) and heavy metal(Fe and Mn) can be used as one of the ways of biological controls which is environmental friendly, accurate, effective and efficient. Research about "The Ability Test Several Types of Water Plants as the Agents Phytoremediation Acid Mine Drainage Coal PT Bukit Asam, TanjungEnim, South Sumatera" aims to know the ability of Eichhorniacrassipes, Limnocharisflava, and Neptuniaoleraceain phytoremediation acid mine drainage coal at many concentrations. This research use complete randomly plans (CRP), the pattern factorial with two factors, they were water plants (Eichhorniacrassipes, Limnocharisflava, and Neptuniaoleracea) and concentration of acid mine drainage coal (0%, 25%, 50%, 75% and 100%), every combination was repeated twice. Based on the data from the research, Eichhorniacrassipes, Limnocharisflava, and Neptuniaoleracea are potentially as agent of phytoremediation AMD. The high percentage of decreasing sulphate (SO42−) at 75% concentration of AMD as media for water plant but the ability of water plant to decreased sulphate is same level. Interaction between kinds of water plants with concentration of AMD effect the percentage of decreasing manganese (Mn), L. flavain 75% concentration of AMD has the percentage of decreasing manganese which is high rather than E. crassipesand N. oleraceain different concentration of AMD. By considering its ability of growth in AMD, N. oleraceahas a better capability than E. crassipes and L. flava.
ISSN:1742-6588
1742-6596
DOI:10.1088/1742-6596/1095/1/012037