Transformation oil soluble catalysts based on transition metals (Co, Fe) under aquathermolysis

© SGEM 2017. All Rights Reserved. As a promising alternative to thermal steam treatment of oil-saturated reservoir technology to intensify the extraction of heavy oil catalytic aquathermolysis process can be identified. This paper presents the results of research of the active form oil soluble catalysts based on metals Co (II) and Fe (II), formed in the process of the laboratory simulation of catalytic aquathermolysis heavy crude oil, and its influence on the composition of the oil itself. Experimental data shows a decrease in viscosity catalytic aquathermolysis products. According to the hydrocarbon type content analysis (SARA) and IR spectroscopy a significant reduction of high-molecular structures of oil by catalytic thermal destruction was revealed. The composition of the active form of the catalyst powder was analyzed by X-ray diffraction method. It was shown, that the oil soluble complex based on Co is converted to the sulfide form, the complex based on Fe - to the oxide. According to the results of SEM measurements of the catalyst, the particle size is within 60 nm

Transformation oil soluble catalysts based on transition metals (Co, Fe) under aquathermolysis

© SGEM 2017. All Rights Reserved. As a promising alternative to thermal steam treatment of oil-saturated reservoir technology to intensify the extraction of heavy oil catalytic aquathermolysis process can be identified. This paper presents the results of research of the active form oil soluble catalysts based on metals Co (II) and Fe (II), formed in the process of the laboratory simulation of catalytic aquathermolysis heavy crude oil, and its influence on the composition of the oil itself. Experimental data shows a decrease in viscosity catalytic aquathermolysis products. According to the hydrocarbon type content analysis (SARA) and IR spectroscopy a significant reduction of high-molecular structures of oil by catalytic thermal destruction was revealed. The composition of the active form of the catalyst powder was analyzed by X-ray diffraction method. It was shown, that the oil soluble complex based on Co is converted to the sulfide form, the complex based on Fe - to the oxide. According to the results of SEM measurements of the catalyst, the particle size is within 60 nm

Transformation oil soluble catalysts based on transition metals (Co, Fe) under aquathermolysis

© SGEM 2017. All Rights Reserved. As a promising alternative to thermal steam treatment of oil-saturated reservoir technology to intensify the extraction of heavy oil catalytic aquathermolysis process can be identified. This paper presents the results of research of the active form oil soluble catalysts based on metals Co (II) and Fe (II), formed in the process of the laboratory simulation of catalytic aquathermolysis heavy crude oil, and its influence on the composition of the oil itself. Experimental data shows a decrease in viscosity catalytic aquathermolysis products. According to the hydrocarbon type content analysis (SARA) and IR spectroscopy a significant reduction of high-molecular structures of oil by catalytic thermal destruction was revealed. The composition of the active form of the catalyst powder was analyzed by X-ray diffraction method. It was shown, that the oil soluble complex based on Co is converted to the sulfide form, the complex based on Fe - to the oxide. According to the results of SEM measurements of the catalyst, the particle size is within 60 nm

Transformation oil soluble catalysts based on transition metals (Co, Fe) under aquathermolysis

© SGEM 2017. All Rights Reserved. As a promising alternative to thermal steam treatment of oil-saturated reservoir technology to intensify the extraction of heavy oil catalytic aquathermolysis process can be identified. This paper presents the results of research of the active form oil soluble catalysts based on metals Co (II) and Fe (II), formed in the process of the laboratory simulation of catalytic aquathermolysis heavy crude oil, and its influence on the composition of the oil itself. Experimental data shows a decrease in viscosity catalytic aquathermolysis products. According to the hydrocarbon type content analysis (SARA) and IR spectroscopy a significant reduction of high-molecular structures of oil by catalytic thermal destruction was revealed. The composition of the active form of the catalyst powder was analyzed by X-ray diffraction method. It was shown, that the oil soluble complex based on Co is converted to the sulfide form, the complex based on Fe - to the oxide. According to the results of SEM measurements of the catalyst, the particle size is within 60 nm

Federal Public Administration Implementation in Vocational Education

The transition to federal public administration in the Russian education system is determined by the legislation and presupposes responsible participation and interaction in education management of all educational agents. In the presented article an analysis has been carried out on the status of one of the federal public administration factors—information transparency of vocational and higher educational institutions. The paper defines the information realm of educational institutions from the perspective of educational services customers; there have been set the priorities for action in the field of transition to federal public administration of educational institutions. This article is written for managers and employees of the education authorities, educational institutions, as well as for all professionals and individuals interested in developing the Russian education system