Wyniki wyszukiwania - BazTech

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Remediacja środowiska gruntowo-wodnego zanieczyszczonego chlorowanymi związkami organicznymi z wykorzystaniem metod in situ

Janiszewska S., Kruszyńska E., Białobrzeski T., Ciepiela K.

Przegląd Geologiczny

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2017

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Vol. 65, nr 10/2

916--921

EN

The article discusses purification of groundwater contaminated with chlorinated solvents including tetrachlorethane (PCE) and trichloroethene (TCE), using reactive barriers and in situ injection. For the dehalogenation of complex chlorinated hydrocarbons, a reagent consisting of zero-value controlled iron and nutrient-stimulating bio-degradable substances was used in the remediation works. The effectiveness of remediation ofsoil and water contaminated with TCE and PCE depends on the degree ofunderstanding of the processes that pollutants undergo. The combination of three methods made it possible to reduce pollution in groundwater by 80%. The Regulation on the Register of Historic Land Pollution, introduced in September 2016, paves the way for restoring contaminated land to its initial quality with the remediation processes, but does not answer the question of how to assess the quality of water in the context of the proposed remediation work.

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Mikrobiologiczna dehalogenacja chloro- i bromolaktonów

Żołnierczyk A. K., Anioł M., Wawrzeńczyk C.

Przemysł Chemiczny

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2013

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T. 92, nr 5

802-805

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Enzymatyczna degradacja związków chlorowcoorganicznych

Lewandowicz A.

Wiadomości Chemiczne

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2001

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[Z] 55, 9-10

883--911

EN

Degradation of the halogenated organic compound poses ecological, sanitary, as well as synthetic, and other problems. Enzymatic degradation of these compounds seems to be a promising option. There are many natural sources of the chlorinated organic compounds, as well as those connected with human activity. The first source dominates. However, human production cannot be ignored, however, due to the considerable toxicity of the compounds produced and their dissemination. The mechanisms, by which enzymes called dehalogenases catalyze halogen-carbon bond breaking varies. Dehalogenases following different pathways were isolated from many microorganisms. Their substrates are usually involved in halorespiration processes, so dehalogenation is involved in carbon source and energy supply, as well. Moreover, cometabolic dehalogenation is possible. Dehalogenases are also present in mammals. For example, iodine dehalogenases (so called deiodinases) are necessary for thyroid hormones homeostasis. Hydrolytic dehalogenases are currently the most studied among all classes of dehalogenases. They include such unusual enzymes as 4-chlorobenzoil-CoA dehalogenase, which is capable of breaking chlorine - aromatic carbon bond under room temperature and neutral pH, and fluoroacetate dehalogenase, which cleaves the carbon-fluorine bond. For some of these enzymes three-dimensional structures are available now and mechanistic details have been studied. This contribution summarizes the present knowledge of enzymatic catalysis of this unusual chemical processes with special consideration on reaction mechanism of the best known hydrolytic dehalogenases.