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Ranking Coal Ash Materials for Their Potential to Leach Arsenic and Selenium: Relative Importance of Ash Chemistry and Site Biogeochemistry.

Publication ,  Journal Article
Schwartz, GE; Hower, JC; Phillips, AL; Rivera, N; Vengosh, A; Hsu-Kim, H
Published in: Environmental engineering science
July 2018

The chemical composition of coal ash is highly heterogeneous and dependent on the origin of the source coal, combustion parameters, and type and configuration of air pollution control devices. This heterogeneity results in uncertainty in the evaluation of leaching potential of contaminants from coal ash. The goal of this work was to identify whether a single leaching protocol could roughly group high-leaching potential coal ash from low-leaching potential coal ash, with respect to arsenic (As) and selenium (Se). We used four different leaching tests, including the Toxicity Characteristic Leaching Protocol (TCLP), natural pH, aerobic sediment microcosms, and anaerobic sediment microcosms on 10 different coal ash materials, including fly ash, lime-treated ash, and flue gas desulfurization materials. Leaching tests showed promise in categorizing high and low-leaching potential ash materials, indicating that a single point test could act as a first screening measure to identify high-risk ash materials. However, the amount of contaminant leached varied widely across tests, reflecting the importance of ambient conditions (pH, redox state) on leaching. These results demonstrate that on-site geochemical conditions play a critical role in As and Se mobilization from coal ash, underscoring the need to develop a situation-based risk assessment framework for contamination by coal ash pollutants.

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Published In

Environmental engineering science

DOI

EISSN

1557-9018

ISSN

1092-8758

Publication Date

July 2018

Volume

35

Issue

7

Start / End Page

728 / 738

Related Subject Headings

  • Environmental Engineering
  • 4104 Environmental management
  • 4011 Environmental engineering
  • 4004 Chemical engineering
  • 0907 Environmental Engineering
  • 0904 Chemical Engineering
  • 0502 Environmental Science and Management
 

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Schwartz, G. E., Hower, J. C., Phillips, A. L., Rivera, N., Vengosh, A., & Hsu-Kim, H. (2018). Ranking Coal Ash Materials for Their Potential to Leach Arsenic and Selenium: Relative Importance of Ash Chemistry and Site Biogeochemistry. Environmental Engineering Science, 35(7), 728–738. https://doi.org/10.1089/ees.2017.0347
Schwartz, Grace E., James C. Hower, Allison L. Phillips, Nelson Rivera, Avner Vengosh, and Heileen Hsu-Kim. “Ranking Coal Ash Materials for Their Potential to Leach Arsenic and Selenium: Relative Importance of Ash Chemistry and Site Biogeochemistry.Environmental Engineering Science 35, no. 7 (July 2018): 728–38. https://doi.org/10.1089/ees.2017.0347.
Schwartz GE, Hower JC, Phillips AL, Rivera N, Vengosh A, Hsu-Kim H. Ranking Coal Ash Materials for Their Potential to Leach Arsenic and Selenium: Relative Importance of Ash Chemistry and Site Biogeochemistry. Environmental engineering science. 2018 Jul;35(7):728–38.
Schwartz, Grace E., et al. “Ranking Coal Ash Materials for Their Potential to Leach Arsenic and Selenium: Relative Importance of Ash Chemistry and Site Biogeochemistry.Environmental Engineering Science, vol. 35, no. 7, July 2018, pp. 728–38. Epmc, doi:10.1089/ees.2017.0347.
Schwartz GE, Hower JC, Phillips AL, Rivera N, Vengosh A, Hsu-Kim H. Ranking Coal Ash Materials for Their Potential to Leach Arsenic and Selenium: Relative Importance of Ash Chemistry and Site Biogeochemistry. Environmental engineering science. 2018 Jul;35(7):728–738.
Journal cover image

Published In

Environmental engineering science

DOI

EISSN

1557-9018

ISSN

1092-8758

Publication Date

July 2018

Volume

35

Issue

7

Start / End Page

728 / 738

Related Subject Headings

  • Environmental Engineering
  • 4104 Environmental management
  • 4011 Environmental engineering
  • 4004 Chemical engineering
  • 0907 Environmental Engineering
  • 0904 Chemical Engineering
  • 0502 Environmental Science and Management