Characterization of Southern Illinois Water Treatment Residues for Sustainable Applications

Ackah, Louis Akainya; Guru, Rajesh; Peiravi, Meisam; Mohanty, Manoj; Ma, Xingmao; Kumar, Sanjeev; Liu, Jia

Characterization of Southern Illinois Water Treatment Residues for Sustainable Applications

Louis Akainya Ackah, Rajesh Guru, Meisam Peiravi, Manoj Mohanty, Xingmao Ma, Sanjeev Kumar and Jia Liu
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Louis Akainya Ackah: Department of Mining & Mineral Resources Engineering, Southern Illinois University, 1230 Lincoln Dr., Carbondale, IL 62901, USA
Rajesh Guru: Department of Mining & Mineral Resources Engineering, Southern Illinois University, 1230 Lincoln Dr., Carbondale, IL 62901, USA
Meisam Peiravi: Department of Civil & Environmental Engineering, Southern Illinois University, 1230 Lincoln Dr., Carbondale, IL 62901, USA
Manoj Mohanty: Department of Mining & Metallurgical Engineering, University of Nevada, Reno, 1664 N. Virginia St., Reno, NV 89557, USA
Xingmao Ma: Department of Civil Engineering, Texas A&M University, 115-F DLEB College Station, TX 77843, USA
Sanjeev Kumar: Department of Civil & Environmental Engineering, Southern Illinois University, 1230 Lincoln Dr., Carbondale, IL 62901, USA
Jia Liu: Department of Civil & Environmental Engineering, Southern Illinois University, 1230 Lincoln Dr., Carbondale, IL 62901, USA

Sustainability, 2018, vol. 10, issue 5, 1-14

Abstract: Although they are abundantly available, the specific applicability of water treatment residues (WTRs) is dictated largely by the favorability of physicochemical characteristic properties and mineralogical composition. We have suggested that WTRs have a high potential for remediation application. In addition, the relevant properties that define the beneficial reuse of WTRs may be widely variable due to the influence of the dose, type of coagulant/softening agent, and quality of source water. This study investigated the physical, chemical, agronomic, and mineralogical characteristics of three different types of WTRs that were collected from treatment plants in the Midwestern U.S, in order to compare and assess their suitability for remediating impacted ecosystems, such as abandoned mine lands (AML). An analysis of the results showed that the differences in the properties of the WTR samples were significant. The total metal concentrations by inductively coupled plasma mass spectrometry (ICP-MS) revealed the abundance of Fe, Al, Mn, Cu, and other co-occurring metals. The leachability of metal(loid)s, regulated under the Resource Conservation and Recovery Act (RCRA 8 metals), were below their respective US Environmental Protection Agency (EPA) allowable limits of 5.0, 100, 1.0, 5.0, 5.0, 0.2, 1.0, and 5.0 mg/kg, indicating that the WTRs were non-hazardous to the environment. Comparatively, the Al-WTR showed a significant release of arsenic (As), possibly from livestock waste and pesticide application from farms in the catchment area of the raw water source. The WTRs were alkaline (potential of hydrogen [pH] 7.00–9.10), which suggested a high acidity-neutralizing potential. The Ca:Mg ratio was between 1:7 and 1:1.5 (meq basis), which contributed to a cation exchange capacity (CEC) range of 4.6–16.2 meg/100g. The WTRs also showed adequate capability to supply relevant plant nutrients, such as Zn, Ca, Mg, S, Cu, and Fe, although readily available concentrations of NO 3 -N, P, and K were generally low. Thus, the alkalinity, significant CEC, low metal concentration and the presence of X-ray diffraction amorphous phases and calcites suggested that WTRs could be safely applied as low-cost sustainable alternatives for soil improvement and remediating contaminants such as metal(loid)s in AML.

Keywords: water treatment residue; coagulants; alum; ferric salt; lime; drinking water; sustainable reuse (search for similar items in EconPapers)
JEL-codes: O13 Q Q0 Q2 Q3 Q5 Q56 (search for similar items in EconPapers)
Date: 2018
References: View complete reference list from CitEc
Citations: View citations in EconPapers (1)

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