• Journal of Korean Society of Environmental Engineers
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• v.31 no.2
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• pp.147-152
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• 2009

In this study, the applicability of alginate-immobilized Pseudomonas putida mt-2 KG1206 on the environments, contaminated with toluene analogs was conducted. Genetically engineered strain KG1206 produces light by direct (m-toluate, benzoate) and indirect (toluene, xylenes) inducers. The protocol for the alginate-immobilization was determined in terms of the cell to alginate ratio, solution, proper number of alginate beads, and other conditions. Maximum bioluminescences of five chemicals by immobilized strain were generally observed in following orders: m-toluate > p-xylene > toluene > o-xylene > m-xylene. In relationship between bioluminescence activity and inducer reduction, initial m-toluate (5 mM) in solution was removed approximately 48% of initial at 5 h exposure, showing continuous decrease of inducer chemical in solution. These results of study with alginate-immobilized beads would be useful, especially, for biomonitoring of contaminated environments with specific compounds, such as petroleum hydrocarbon compounds including toluene analogs.

• Proceedings of the KSEEG Conference
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• 2007.04a
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• pp.66-69
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• 2007

• Journal of Korean Society of Environmental Engineers
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• v.27 no.5
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• pp.507-512
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• 2005

This research focuses on the development and application of a method for the detection of m-toluate in soils using a genetically engineered bioluminescent bacteria, Pseudomonas putida mt-2 KG1206. KG1206 produces light by direct (m-toluate and benzoate) and indirect (toluene analogs) inducers. For detection of m-toluate in soil system, 9.9 mL strain was amended with 0.1 mL soil ethanol extractant. A high correlation ($r^2>0.97$) was observed between bioluminescence and m-toluate concentration. The unknown concentrations of m-toluate in soil samples were pre-determined using a method developed based on bioluminescence activity of strain with extracted inducers. Values between by LC analysis and bioluminescence activity show moderate statistical results. These results demonstrate the feasibility of recombinant bioluminescent microorganism, engineered to generate a quantifiable bioluminescence signal in response to specific pollutants, may serve as combined sensing and reporting tools in environmental monitoring.

• Fire Science and Engineering
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• v.33 no.6
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• pp.80-86
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• 2019

In Korea, a total of 556 chemical accidents occurred from 2012 to 2018 caused by adverse reactions of two or more chemicals, which required significant amounts of time to identify the causative chemicals. Rapid analysis is required for effective incident response and probing. In this study, a quantum transition time-of-flight mass spectrometer was used to identify the causative agents of chemical accidents caused by adverse reactions. The analyzer enabled fast real-time analysis without the need for sample collection and pretreatment. Quantitative and qualitative analysis of most volatile organic compounds with high hydrogen affinity was performed to investigate the cause of the chemical accidents. In fact, in the month of 201◯, methanol and toluene were detected as causative agents of the accident using a quantum transition time mass spectrometer, and were also the cause of the reported odor.

• Clean Technology
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• v.27 no.1
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• pp.79-84
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• 2021

In this study, the waste activated carbon used in the painting process was filled into a cylindrical cartridge and the characteristics of desorption by low temperature gas were investigated. Adsorption and desorption experiments of toluene with activated carbon were conducted to determine the flow rate of desorption. In an experiment where desorption was performed while changing conditions at flow rates of 1, 2 and 4 ㎥ min-1, it was determined that 2 ㎥ min-1 was appropriate due to the high THC concentration and desorption time. In the early stage of the desorption of waste activated carbon, 2-butanone and MIBK (methyl isobutyl ketone) with a low boiling point were generated at a high rate in the gas component, and after that, the concentration of THC decreased and the BTX was desorbed at a high rate. The total calorific value of the gas component generated during the desorption of waste activated carbon was 316 kcal kg-1. From repeating the regeneration of waste activated carbon with toluene five times, it was observed that the iodine value and the specific surface area were relatively lower than that of new activated carbon. In the desorption experiment where two cylindrical cartridges were connected in series, the maximum THC concentration was about 470 ppm.