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2 Journal of Ecological Engineering

2 2020

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A Promising Way to Dispose of Fatty Waste by Hydrolysis and Study of the Conditions for Immobilization of Rhizopus Japonicus Lipase on Carriers

100%

Skliar V. , Krusir G. , Shunko H. , Zakharchuk V. , Malovanyy M.

tom Vol. 21, nr 2

201--208

The hydrogenation process in oil and fat production is accompanied by the formation of a large amount of waste, the majority of which includes spent catalysts and spent sorbents. The bioconversion of lipids through the use of immobilized enzyme preparations expands the possibilities and is one of the most powerful resource potentials of environmental biotechnology. The adsorption methods are most effective, which is due to the ease of the binding process, the low cost of the carrier and the absence of toxic substances. Immobilization of adsorption provides a large surface area, which is important for the lipolytic enzymes performing catalysis at the interface. In most cases, adsorption slightly reduces the activity of lipases and, which is extremely important, does not affect their specificity. It was shown that the use of activated carbon with a grain size of 2.0–2.8 as a carrier for immobilization of lipase, leads to maximum preservation of the initial lipolytic activity. The weight ratio of carrier/ enzyme, optimal in terms of preservation of lipolytic activity, was 1 g of biopolymer carrier per 500 mg of lipase (1: 0.5) with preservation of 36.33% of the initial activity of the native enzyme. From the obtained experimental data, it follows that the rational conditions for the immobilization of Rhizopus japonicus is GM 1.5, temperature 25°С, duration of immobilization 15 minutes, the size of particles of activated carbon as a matrix is 2.0–2.8 mm. The lipolytic activity of the enzyme immobilized under these conditions is preserved by more than 30% compared with the native one, which is a high indicator of the preservation of activity.

Investigation of Enzymatic Degradation of Solid Winemaking Wastes

100%

Krusir G. , Sagdeeva O. , Malovanyy M. , Shunko H. , Gnizdovskyi O.

tom Vol. 21, nr 2

72--79

The work is devoted to the research of the enzymatic destruction process of solid waste of the primary winemaking enterprises the introduction of advanced technology of their utilization and creation of optimally balanced feed additive. The processing of grapes produces waste, the storage and accumulation of which in environmental components leads to the loss of valuable resource in the composition of waste and leads to the creation of increased levels of environmental hazards. Enzymatic degradation of cellulose in the composition of waste by the cellulase enzyme through the microorganisms’ action is the basis of the biotechnological process. To implement this process, it is necessary to determine the main parameters and modes of the bioconversion process, investigation of which the study is devoted. The basic characteristics of the enzymatic degradation process were determined and data were obtained for the technology improvement of solid waste utilization of the wine industry enterprises. Comparative analysis of bioconversion of different types of waste proves that the cellulose enzymatic degradation is the most effective for the grape pomace in the waste, allows us to obtain valuable feed additive and reduce the environmental danger level.