Location: Coastal Plain Soil, Water and Plant Conservation Research
Title: Adsorption of metals from mining-impacted water onto biochar from different sourcesAuthor
AL-ABED, SOUHAIL - ENVIRONMENTAL PROTECTION AGENCY (EPA) | |
PINTO, PATRICIO - PEGASUS TECHNICAL SERVICES | |
ARAMBEWELA, MAHENDRANATH - PEGASUS TECHNICAL SERVICES | |
POTTER, PHILLIP - ENVIRONMENTAL PROTECTION AGENCY (EPA) | |
JOHNSON, MARK - ENVIRONMENTAL PROTECTION AGENCY (EPA) | |
NOVAK, JEFFREY | |
KEMP, STEVE - ENVIRONMENTAL PROTECTION AGENCY (EPA) | |
MCKERNAN, JOHN - ENVIRONMENTAL PROTECTION AGENCY (EPA) |
Submitted to: American Chemical Society Abstracts
Publication Type: Abstract Only Publication Acceptance Date: 7/24/2019 Publication Date: N/A Citation: N/A Interpretive Summary: Technical Abstract: The runoff from mine tailings in active and abandoned mine sites transport important amounts of dissolved and particulate metals into streams and water bodies, posing a serious risk for ecosystems and endangering drinking water sources. The remediation of these mining-impacted waters is challenging because a significant portion of the metals is transported in the dissolved form, which tends to be a recalcitrant problem. The removal of metals from these waters is usually carried out by precipitation, filtration, ion exchange, or adsorption. The adsorption of metals could be very effective but cumbersome and expensive at the same time. An ideal adsorbent would come from a natural source that would not raise environmental concerns, would have high superficial area with capabilities to remove several contaminants at low cost. Biochar, a carbonaceous product of the thermal degradation of biomass could be the ideal adsorbent for water treatment applications. We evaluated the zinc and other metals removal using four biochars from different vendors using sorbent loading, initial metal concentration, surface area, and initial pH as variables. We found that three of the four tested biochars had a performance similar to other tested commercial adsorbents (>80% of zinc removal efficiency), while the fourth biochar performed at lower removal rates (up to 40% of zinc removal). The interaction between sorbed metals and the biochar surface was studied using spectroscopic analyses. Overall, we concluded that biochar can be an important alternative in mining-impacted water remediation at moderate costs. |