Edgar B. Klunder scite author profile

Edgar B. Klunder

3Publications

19Citation Statements Received

42Citation Statements Given

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Affiliations

National Energy Technology Laboratory, University of North Dakota, University of Idaho

Publications

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Subcritical (Hot/Liquid) Water Dechlorination of PCBs (Aroclor 1254) with Metal Additives and in Waste Paint

Kubátová

Herman

Steckler

et al. 2003

Environ. Sci. Technol.

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No disposal option exists for "mixed wastes" such as paint scrapings that are co-contaminated with polychlorinated biphenyls (PCBs) and radioactive metals. Either removal or destruction of the PCBs is required prior to disposal. Comparison of subcritical water dechlorination (350 degrees C, 1 h) of Aroclor 1254 in paint scrapings (180 ppm) and of standard Aroclor 1254 showed significantly enhanced dechlorination in the presence of paint. While no significant degradation was observed for standard Aroclor (no paint), the dechlorination of PCBs in paint was 99, 99, and 80% for the hepta-, hexa-, and pentachlorinated congeners, respectively, indicating that metals in the paint enhanced the dechlorination reactions. Adding metals to the standard Aroclor (no paint) reactions enhanced PCB dechlorination in subcritical water in descending order of activity: Pb approximately = Cu > Al > Zn > Fe. In the presence of both zerovalent and divalent lead and zerovalent copper in subcritical water (350 degrees C, 1 h), 99% of the Aroclor 1254 mixture (tetra- to heptachlorinated biphenyls) was dechlorinated. High dechlorination (ca. 95%) was also achieved with zerovalent aluminum. In contrast to other metals, lead retained its degradation ability at a lower temperature of 250 degrees C after 18 h. The high degradation efficiency achieved using metal additives in water at reasonable temperatures and pressures demonstrates the potential for subcritical water dechlorination of PCBs in paint scrapings and, potentially, in other solid and liquid wastes.

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Study of catalytic effects of mineral matter level on coal reactivity

Mazzocco¹,

Klunder²,

Krastman³

1981

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Coal liquefaction experiments using a 400-lb/day• bubble-column reactor tested the catalytic effects of added mineral matter level on coal conversion, desulfurization, and distillate yields in continuous operation under recycle conditions, with specific emphasis on the use of a disposable pyrite catalyst indigenous to the feed coal. Western Kentucky fill run-of-mine (ROM) and "washed" coals were used as feedstocks to determine the effects of levels of mineral matter, specifically iron compounds. Liquefaction reactivity as characterized by total distillate yield was lower for "washed'' coal, which contained less mineral matter. Liquefaction reactivity was regained when pyrite concentrate was added as a disposable catalyst to the "washed" coal feed in sufficient quantity to match the feed iron concentration of the run-of-mine coal liquefaction test run.

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Evidence for the formation of vibrationally excited triplet 1,3-biradicals in the Hg³P₁photosensitized decomposition of cis- and trans-3,4-dimethyl-Δ¹-pyrazoline

Klunder¹,

Carr²

1971

J. Chem. Soc. D

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Edgar B. Klunder

Subcritical (Hot/Liquid) Water Dechlorination of PCBs (Aroclor 1254) with Metal Additives and in Waste Paint

Study of catalytic effects of mineral matter level on coal reactivity

Evidence for the formation of vibrationally excited triplet 1,3-biradicals in the Hg³P₁photosensitized decomposition of cis- and trans-3,4-dimethyl-Δ¹-pyrazoline

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Edgar B. Klunder

Subcritical (Hot/Liquid) Water Dechlorination of PCBs (Aroclor 1254) with Metal Additives and in Waste Paint

Study of catalytic effects of mineral matter level on coal reactivity

Evidence for the formation of vibrationally excited triplet 1,3-biradicals in the Hg3P1photosensitized decomposition of cis- and trans-3,4-dimethyl-Δ1-pyrazoline

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Product

Resources

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Evidence for the formation of vibrationally excited triplet 1,3-biradicals in the Hg³P₁photosensitized decomposition of cis- and trans-3,4-dimethyl-Δ¹-pyrazoline