Estimation of the Maximum Consumption of Permanganate by Aquifer Solids Using a Modified Chemical Oxygen Demand Test

Knowledge of the consumption of permanganate by naturally occurring reduced species associated with aquifer materials is required for site screening and design purposes to support permanganate in situ chemical oxidation (ISCO) applications. It has been established that this consumption is not a sing...

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Published in	Journal of environmental engineering (New York, N.Y.) Vol. 134; no. 5; pp. 353 - 361
Main Authors	Xu, Xiuyuan, Thomson, Neil R
Format	Journal Article
Language	English
Published	Reston, VA American Society of Civil Engineers 01.05.2008
Subjects	Applied sciences Biological and physicochemical phenomena Exact sciences and technology Groundwaters Natural water pollution Pollution TECHNICAL PAPERS Water treatment and pollution Permanganates Mixing Sensitivity analysis In situ Oxidant Ground-water pollution Aquifers Design Batchwise Chemical oxygen demand Oxidation Water pollution Remedial action Total organic carbon Reactor Ground water
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ISSN	0733-9372 1943-7870
DOI	10.1061/(ASCE)0733-9372(2008)134:5(353)

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Abstract	Knowledge of the consumption of permanganate by naturally occurring reduced species associated with aquifer materials is required for site screening and design purposes to support permanganate in situ chemical oxidation (ISCO) applications. It has been established that this consumption is not a singled-valued quantity, but rather is kinetically controlled. Current methods to determine this permanganate natural oxidant demand (NOD) involve the use of well-mixed batch tests, which are time consuming and subject to test variables (e.g., concentration, mass of oxidant to solid ratio, reaction duration, and mixing conditions) that significantly affect the results. In this paper, we propose a modified chemical oxygen demand (COD) test using permanganate, which can be used to determine the maximum permanganate NOD of an aquifer material. As an initial point of comparison, we tested aquifer materials collected from eight potential ISCO sites using this modified or permanganate COD method, the traditional dichromate COD method, and a method based on well-mixed batch reactors. The results from this comparison indicated that there was no statistically significant difference (α=5%) between the results of the permanganate COD test and the maximum NOD from the well-mixed batch reactors, while on average the dichromate COD test overestimated the maximum NOD by 100%. The permanganate COD test results were highly correlated to the batch-test maximum NOD data (r=0.996) , and to the total organic carbon and amorphous Fe content of the aquifer materials (r=0.91) . A limited sensitivity investigation of this proposed permanganate COD test revealed that the suspected formation of manganese oxides, a reaction byproduct, may lead to increased experimental variability. However, in spite of this concern we recommend that this proposed permanganate COD method is a quick and economical approach for estimating the maximum permanganate NOD for aquifer materials to support permanganate ISCO site screening and initial design purposes.
AbstractList	Knowledge of the consumption of permanganate by naturally occurring reduced species associated with aquifer materials is required for site screening and design purposes to support permanganate in situ chemical oxidation (ISCO) applications. It has been established that this consumption is not a singled-valued quantity, but rather is kinetically controlled. Current methods to determine this permanganate natural oxidant demand (NOD) involve the use of well-mixed batch tests, which are time consuming and subject to test variables (e.g., concentration, mass of oxidant to solid ratio, reaction duration, and mixing conditions) that significantly affect the results. In this paper, we propose a modified chemical oxygen demand (COD) test using permanganate, which can be used to determine the maximum permanganate NOD of an aquifer material. As an initial point of comparison, we tested aquifer materials collected from eight potential ISCO sites using this modified or permanganate COD method, the traditional dichromate COD method, and a method based on well-mixed batch reactors. The results from this comparison indicated that there was no statistically significant difference ( alpha =5%) between the results of the permanganate COD test and the maximum NOD from the well-mixed batch reactors, while on average the dichromate COD test overestimated the maximum NOD by 100%. The permanganate COD test results were highly correlated to the batch-test maximum NOD data (r=0.996), and to the total organic carbon and amorphous Fe content of the aquifer materials (r=0.91). A limited sensitivity investigation of this proposed permanganate COD test revealed that the suspected formation of manganese oxides, a reaction byproduct, may lead to increased experimental variability. However, in spite of this concern we recommend that this proposed permanganate COD method is a quick and economical approach for estimating the maximum permanganate NOD for aquifer materials to support permanganate ISCO site screening and initial design purposes. Maximum consumption of permanganate by aquifer solids using a modified chemical oxygen demand (COD) test was estimated. This proposed test method was used in a comparative study that involved eight different aquifer materials. The results showed that the proposed test method was superior to the dichromate COD test and could be used to directly estimate the maximum NOD for site screening and initial design purposes. Based on this limited sensitivity investigation, it is recommend that a reaction duration of 2 h, an initial permanganate concentration of 10 g/L, and an aquifer material sample size of 1.5 g should be used in the permanganate COD test to estimate the maximum natural oxygen demand (NOD) of aquifer materials. Knowledge of the consumption of permanganate by naturally occurring reduced species associated with aquifer materials is required for site screening and design purposes to support permanganate in situ chemical oxidation (ISCO) applications. It has been established that this consumption is not a singled-valued quantity, but rather is kinetically controlled. Current methods to determine this permanganate natural oxidant demand (NOD) involve the use of well-mixed batch tests, which are time consuming and subject to test variables (e.g., concentration, mass of oxidant to solid ratio, reaction duration, and mixing conditions) that significantly affect the results. In this paper, we propose a modified chemical oxygen demand (COD) test using permanganate, which can be used to determine the maximum permanganate NOD of an aquifer material. As an initial point of comparison, we tested aquifer materials collected from eight potential ISCO sites using this modified or permanganate COD method, the traditional dichromate COD method, and a method based on well-mixed batch reactors. The results from this comparison indicated that there was no statistically significant difference (α=5%) between the results of the permanganate COD test and the maximum NOD from the well-mixed batch reactors, while on average the dichromate COD test overestimated the maximum NOD by 100%. The permanganate COD test results were highly correlated to the batch-test maximum NOD data (r=0.996) , and to the total organic carbon and amorphous Fe content of the aquifer materials (r=0.91) . A limited sensitivity investigation of this proposed permanganate COD test revealed that the suspected formation of manganese oxides, a reaction byproduct, may lead to increased experimental variability. However, in spite of this concern we recommend that this proposed permanganate COD method is a quick and economical approach for estimating the maximum permanganate NOD for aquifer materials to support permanganate ISCO site screening and initial design purposes.
Author	Xu, Xiuyuan Thomson, Neil R
Author_xml	– sequence: 1 givenname: Xiuyuan surname: Xu fullname: Xu, Xiuyuan organization: Univ. of Waterloo , Dept. of Civil and Environmental Engineering, , 200 University Ave. West, Waterloo, ON, Canada N2L 3G1 – sequence: 2 givenname: Neil R surname: Thomson fullname: Thomson, Neil R email: nthomson@uwaterloo.ca organization: Univ. of Waterloo , Dept. of Civil and Environmental Engineering, , 200 University Ave. West, Waterloo, ON, Canada N2L 3G1. E-mail
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Snippet	Knowledge of the consumption of permanganate by naturally occurring reduced species associated with aquifer materials is required for site screening and design... Maximum consumption of permanganate by aquifer solids using a modified chemical oxygen demand (COD) test was estimated. This proposed test method was used in a...
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Title	Estimation of the Maximum Consumption of Permanganate by Aquifer Solids Using a Modified Chemical Oxygen Demand Test
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