The Experts below are selected from a list of 67578 Experts worldwide ranked by ideXlab platform
James R Wild - One of the best experts on this subject based on the ideXlab platform.
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Ecologically Safe destruction of the detoxification products of mustard–lewisite mixtures from the Russian chemical stockpile
Journal of Chemical Technology & Biotechnology, 2000Co-Authors: Alexander M. Boronin, I I Starovoitov, I T Ermakova, Valentin G Sakharovsky, Galina M Grechkina, Robin L. Autenrieth, James R WildAbstract:An integrated chemical/biological method has been developed to create an environmentally Safe Technology for the destruction of the detoxification products of mustard–lewisite mixtures (MLM) from the Russian Stockpile of Chemical Warfare (CW) Agents. This method includes three sequential steps: (1) detoxification by alkaline hydrolysis, (2) electrochemical treatment of detoxification products including electrolysis and electrocoagulation for removing arsenic salts and for converting all organic components to bioutilized substances, and (3) bioutilization of the electrochemical products by a selected microbial association. This integrated system makes it possible to achieve an environmentally Safe destruction of MLM. The approach provided for an effective engineering process that was able to biodegrade the organic materials resulting from the alkaline hydrolysis of sulfur mustard–lewisite mixtures once toxic arsenate was removed by electrochemical means. © 2000 Society of Chemical Industry
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ecologically Safe destruction of the detoxification products of mustard lewisite mixtures from the russian chemical stockpile
Journal of Chemical Technology & Biotechnology, 2000Co-Authors: Alexander M. Boronin, I I Starovoitov, I T Ermakova, Valentin G Sakharovsky, Galina M Grechkina, Robin L. Autenrieth, James R WildAbstract:An integrated chemical/biological method has been developed to create an environmentally Safe Technology for the destruction of the detoxification products of mustard–lewisite mixtures (MLM) from the Russian Stockpile of Chemical Warfare (CW) Agents. This method includes three sequential steps: (1) detoxification by alkaline hydrolysis, (2) electrochemical treatment of detoxification products including electrolysis and electrocoagulation for removing arsenic salts and for converting all organic components to bioutilized substances, and (3) bioutilization of the electrochemical products by a selected microbial association. This integrated system makes it possible to achieve an environmentally Safe destruction of MLM. The approach provided for an effective engineering process that was able to biodegrade the organic materials resulting from the alkaline hydrolysis of sulfur mustard–lewisite mixtures once toxic arsenate was removed by electrochemical means. © 2000 Society of Chemical Industry
Alexander M. Boronin - One of the best experts on this subject based on the ideXlab platform.
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Ecologically Safe destruction of the detoxification products of mustard–lewisite mixtures from the Russian chemical stockpile
Journal of Chemical Technology & Biotechnology, 2000Co-Authors: Alexander M. Boronin, I I Starovoitov, I T Ermakova, Valentin G Sakharovsky, Galina M Grechkina, Robin L. Autenrieth, James R WildAbstract:An integrated chemical/biological method has been developed to create an environmentally Safe Technology for the destruction of the detoxification products of mustard–lewisite mixtures (MLM) from the Russian Stockpile of Chemical Warfare (CW) Agents. This method includes three sequential steps: (1) detoxification by alkaline hydrolysis, (2) electrochemical treatment of detoxification products including electrolysis and electrocoagulation for removing arsenic salts and for converting all organic components to bioutilized substances, and (3) bioutilization of the electrochemical products by a selected microbial association. This integrated system makes it possible to achieve an environmentally Safe destruction of MLM. The approach provided for an effective engineering process that was able to biodegrade the organic materials resulting from the alkaline hydrolysis of sulfur mustard–lewisite mixtures once toxic arsenate was removed by electrochemical means. © 2000 Society of Chemical Industry
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ecologically Safe destruction of the detoxification products of mustard lewisite mixtures from the russian chemical stockpile
Journal of Chemical Technology & Biotechnology, 2000Co-Authors: Alexander M. Boronin, I I Starovoitov, I T Ermakova, Valentin G Sakharovsky, Galina M Grechkina, Robin L. Autenrieth, James R WildAbstract:An integrated chemical/biological method has been developed to create an environmentally Safe Technology for the destruction of the detoxification products of mustard–lewisite mixtures (MLM) from the Russian Stockpile of Chemical Warfare (CW) Agents. This method includes three sequential steps: (1) detoxification by alkaline hydrolysis, (2) electrochemical treatment of detoxification products including electrolysis and electrocoagulation for removing arsenic salts and for converting all organic components to bioutilized substances, and (3) bioutilization of the electrochemical products by a selected microbial association. This integrated system makes it possible to achieve an environmentally Safe destruction of MLM. The approach provided for an effective engineering process that was able to biodegrade the organic materials resulting from the alkaline hydrolysis of sulfur mustard–lewisite mixtures once toxic arsenate was removed by electrochemical means. © 2000 Society of Chemical Industry
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utilization of detoxification products of yperite lewisite mixtures
Applied Biochemistry and Microbiology, 1999Co-Authors: Alexander M. Boronin, I T Ermakova, Galina M Grechkina, V G Sakharovskiĭ, V I Tugoshov, A I Kochergin, E V Kashparova, N P KuzminAbstract:: An approach to developing an ecologically Safe Technology for disposal of yperite-lewisite mixtures has been developed. The Technology includes three sequential stages: (1) detoxification by alkaline hydrolysis (resulting in the loss of toxic properties); (2) electrochemical treatment of detoxification products (electrocoagulation, to eliminate arsenic salts, and electrochemical oxidation, to convert all organic components into bioutilizable matter); and (3) degradation of the compounds obtained at the two preceding stages by a bred microbial association.
I I Starovoitov - One of the best experts on this subject based on the ideXlab platform.
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Ecologically Safe destruction of the detoxification products of mustard–lewisite mixtures from the Russian chemical stockpile
Journal of Chemical Technology & Biotechnology, 2000Co-Authors: Alexander M. Boronin, I I Starovoitov, I T Ermakova, Valentin G Sakharovsky, Galina M Grechkina, Robin L. Autenrieth, James R WildAbstract:An integrated chemical/biological method has been developed to create an environmentally Safe Technology for the destruction of the detoxification products of mustard–lewisite mixtures (MLM) from the Russian Stockpile of Chemical Warfare (CW) Agents. This method includes three sequential steps: (1) detoxification by alkaline hydrolysis, (2) electrochemical treatment of detoxification products including electrolysis and electrocoagulation for removing arsenic salts and for converting all organic components to bioutilized substances, and (3) bioutilization of the electrochemical products by a selected microbial association. This integrated system makes it possible to achieve an environmentally Safe destruction of MLM. The approach provided for an effective engineering process that was able to biodegrade the organic materials resulting from the alkaline hydrolysis of sulfur mustard–lewisite mixtures once toxic arsenate was removed by electrochemical means. © 2000 Society of Chemical Industry
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ecologically Safe destruction of the detoxification products of mustard lewisite mixtures from the russian chemical stockpile
Journal of Chemical Technology & Biotechnology, 2000Co-Authors: Alexander M. Boronin, I I Starovoitov, I T Ermakova, Valentin G Sakharovsky, Galina M Grechkina, Robin L. Autenrieth, James R WildAbstract:An integrated chemical/biological method has been developed to create an environmentally Safe Technology for the destruction of the detoxification products of mustard–lewisite mixtures (MLM) from the Russian Stockpile of Chemical Warfare (CW) Agents. This method includes three sequential steps: (1) detoxification by alkaline hydrolysis, (2) electrochemical treatment of detoxification products including electrolysis and electrocoagulation for removing arsenic salts and for converting all organic components to bioutilized substances, and (3) bioutilization of the electrochemical products by a selected microbial association. This integrated system makes it possible to achieve an environmentally Safe destruction of MLM. The approach provided for an effective engineering process that was able to biodegrade the organic materials resulting from the alkaline hydrolysis of sulfur mustard–lewisite mixtures once toxic arsenate was removed by electrochemical means. © 2000 Society of Chemical Industry
Valentin G Sakharovsky - One of the best experts on this subject based on the ideXlab platform.
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Ecologically Safe destruction of the detoxification products of mustard–lewisite mixtures from the Russian chemical stockpile
Journal of Chemical Technology & Biotechnology, 2000Co-Authors: Alexander M. Boronin, I I Starovoitov, I T Ermakova, Valentin G Sakharovsky, Galina M Grechkina, Robin L. Autenrieth, James R WildAbstract:An integrated chemical/biological method has been developed to create an environmentally Safe Technology for the destruction of the detoxification products of mustard–lewisite mixtures (MLM) from the Russian Stockpile of Chemical Warfare (CW) Agents. This method includes three sequential steps: (1) detoxification by alkaline hydrolysis, (2) electrochemical treatment of detoxification products including electrolysis and electrocoagulation for removing arsenic salts and for converting all organic components to bioutilized substances, and (3) bioutilization of the electrochemical products by a selected microbial association. This integrated system makes it possible to achieve an environmentally Safe destruction of MLM. The approach provided for an effective engineering process that was able to biodegrade the organic materials resulting from the alkaline hydrolysis of sulfur mustard–lewisite mixtures once toxic arsenate was removed by electrochemical means. © 2000 Society of Chemical Industry
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ecologically Safe destruction of the detoxification products of mustard lewisite mixtures from the russian chemical stockpile
Journal of Chemical Technology & Biotechnology, 2000Co-Authors: Alexander M. Boronin, I I Starovoitov, I T Ermakova, Valentin G Sakharovsky, Galina M Grechkina, Robin L. Autenrieth, James R WildAbstract:An integrated chemical/biological method has been developed to create an environmentally Safe Technology for the destruction of the detoxification products of mustard–lewisite mixtures (MLM) from the Russian Stockpile of Chemical Warfare (CW) Agents. This method includes three sequential steps: (1) detoxification by alkaline hydrolysis, (2) electrochemical treatment of detoxification products including electrolysis and electrocoagulation for removing arsenic salts and for converting all organic components to bioutilized substances, and (3) bioutilization of the electrochemical products by a selected microbial association. This integrated system makes it possible to achieve an environmentally Safe destruction of MLM. The approach provided for an effective engineering process that was able to biodegrade the organic materials resulting from the alkaline hydrolysis of sulfur mustard–lewisite mixtures once toxic arsenate was removed by electrochemical means. © 2000 Society of Chemical Industry
Robin L. Autenrieth - One of the best experts on this subject based on the ideXlab platform.
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Ecologically Safe destruction of the detoxification products of mustard–lewisite mixtures from the Russian chemical stockpile
Journal of Chemical Technology & Biotechnology, 2000Co-Authors: Alexander M. Boronin, I I Starovoitov, I T Ermakova, Valentin G Sakharovsky, Galina M Grechkina, Robin L. Autenrieth, James R WildAbstract:An integrated chemical/biological method has been developed to create an environmentally Safe Technology for the destruction of the detoxification products of mustard–lewisite mixtures (MLM) from the Russian Stockpile of Chemical Warfare (CW) Agents. This method includes three sequential steps: (1) detoxification by alkaline hydrolysis, (2) electrochemical treatment of detoxification products including electrolysis and electrocoagulation for removing arsenic salts and for converting all organic components to bioutilized substances, and (3) bioutilization of the electrochemical products by a selected microbial association. This integrated system makes it possible to achieve an environmentally Safe destruction of MLM. The approach provided for an effective engineering process that was able to biodegrade the organic materials resulting from the alkaline hydrolysis of sulfur mustard–lewisite mixtures once toxic arsenate was removed by electrochemical means. © 2000 Society of Chemical Industry
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ecologically Safe destruction of the detoxification products of mustard lewisite mixtures from the russian chemical stockpile
Journal of Chemical Technology & Biotechnology, 2000Co-Authors: Alexander M. Boronin, I I Starovoitov, I T Ermakova, Valentin G Sakharovsky, Galina M Grechkina, Robin L. Autenrieth, James R WildAbstract:An integrated chemical/biological method has been developed to create an environmentally Safe Technology for the destruction of the detoxification products of mustard–lewisite mixtures (MLM) from the Russian Stockpile of Chemical Warfare (CW) Agents. This method includes three sequential steps: (1) detoxification by alkaline hydrolysis, (2) electrochemical treatment of detoxification products including electrolysis and electrocoagulation for removing arsenic salts and for converting all organic components to bioutilized substances, and (3) bioutilization of the electrochemical products by a selected microbial association. This integrated system makes it possible to achieve an environmentally Safe destruction of MLM. The approach provided for an effective engineering process that was able to biodegrade the organic materials resulting from the alkaline hydrolysis of sulfur mustard–lewisite mixtures once toxic arsenate was removed by electrochemical means. © 2000 Society of Chemical Industry
