Substantiating parameters of stratification cavities formation in the roof rocks during underground coal gasification

Falshtynskyi, V; Lozynskyi, Vasyl; Saik, Pavlo; Dychkovskyi, Roman; Tabachenko, M

doi:10.15407/mining10.01.016

Cited by 35 publications

(35 citation statements)

References 15 publications

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“…Scheme of heat pump geosystem of power supply with well-rock heat exchangers: 1 -gas from BUCG; 2 -heat exchanger on heat pipes; 3 -output of UCG gas to the consumer; 4 -liquid intermediate coolant (cold water); 5 -hot water cooler: 6 -tank-accumulator; 7 -HP installation; 8 -the site of heat supply; 9 -earth surface; 10 -well-rock heat exchangers Gas of BUCG 1 is formed underground by combustion (gasification) of coal seams by underground gasification. The essence of the BUCG is to drill wells, to incite the coal seam, to blast air for the coal combustion, to obtain generator gases, which is passed through the wells to the surface [21]. Next, gas 1 is fed into a heat exchanger 2 for utilizing heat and gas and for receiving hot water 5.…”

Section: Resultsmentioning

confidence: 99%

Study of Methods and Development of Technological Scheme for Heat Removal from Rock Waste Dump

Saik

2017

AEF

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Abstract. The aim of this paper is to study the methods and develop technological scheme for thermal energy removal from coal mine rock waste dumps. The prospects of renewable energy sources development in Ukraine are analyzed. A number of available ways for using the sources of waste heat of mining enterprises, namely: outlet ventilation flow, mine water and other rock waste dumps, are investigated. The technological scheme of heat recovery from rock waste dump using heat pumps, which are component segments of the heat pump geosystem on the basis of borehole underground coal gasification, is developed.

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Section: Resultsmentioning

confidence: 99%

Study of Methods and Development of Technological Scheme for Heat Removal from Rock Waste Dump

Saik

2017

AEF

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“…In the near future, a sharp increase in the use of well geotechnologies is expected, which results in pumpable state of minerals in the place of occurrence and transporting them along wells to the earth's surface [Falshtynskyi et al, 2012;Lozynskyi et al, 2018]. Significant achievements of recent years in the underground coal gasification technology and underground gasifier thermal energy recycling open up new prospects for this coal geotechnology [Gayko & Kasyanov, 2007;Falshtynskyi et al, 2016]. This technology can be part of a single complex of coal methane mining, traditional and geotechnological development of coal seams.…”

Section: Future Prospectmentioning

confidence: 99%

The Philosophy of Mining: Historical Aspect and Future Prospect

Haiko¹,

Saik²,

Lozynskyi³

2019

P&C

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The influence of the humanitarian component (sacred, religious, social factors) on the origin and initial development of mining activity, metallurgy origin, the first natural and technical knowledge accumulation and application forms are considered. The hypothesis of the metallurgy occurrence in the stable communities of primitive miners is considered. The ideology component of important technological inventions, created in an environment where both these phenomena were extremely close, is shown. The organizational forms of mining activity in which sacred factors played an extremely important role from archaic mining communities to medieval religious orders (in particular, Cistercians) were analyzed. The role of traditions, beliefs and professional knowledge in the formation of the special mining communities' nature from ancient time to the Middle Ages, their heritable resistance and isolation have been revealed. The possible ways of future mining progress are described, for which the scientists' and entrepreneurs' substandard ideas and predictions are used.

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“…Implementation of such a technology helps save organic fuel (coal, natural gas, fuel oil) in boiler houses resulting in zero emissions of harmful greenhouse gases into the environment. Consequently, new tendencies in developing technological schemes of complex use of geosystem (Earth's interior) to generate electric energy and heat have made it possible for Australia to increase efficiency of mining enterprises and their economic indicators (Falshtynskyi, Lozynskyi, Saik, Dychkovskyi, & Tabachenko, 2016).…”

Section: Best Available Techniques Of the Developed Countriesmentioning

confidence: 99%

Survey of the world practice of implementing energy-efficient technologies in terms of mining enterprises

Гончаренко¹,

Ryzhakova²,

Sedova³

et al. 2019

Min. miner. depos.

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Purpose is the analysis of world practice of applying the best available techniques to increase energy saving and energy efficiency of mining enterprises being the important factor of the economic development. Methods. The research methodology is based on the scientific approaches: historical-evolutionary, interdisciplinary, integration, process, and situational. Methods of retrospective, categorical, and system analysis as well as modeling have been applied. The analysis was performed on the basis of both initial information sources (original texts of legislative documents, strategies) and material of the international analytical organizations (International Energy Agency, World Bank) as well as the data of official statistical records. Findings. For the first time, different variants of the best available techniques in Japan, the USA, and the EU have been analyzed as well as the role of a state in applying institutional measures of energy efficiency support, including mining complex, and prospects of its use in the Russian Federation. It has been determined that energy efficiency is the effective and economically feasible tool in reaching sustainable development of the national economy. It has been demonstrated that energy saving and increased energy efficiency may reduce the needs in investment, raise industrial competitiveness and consumer welfare as well as improve environmental protection owing to the reduced greenhouse gas emissions and decreased air pollution. Energy efficiency growth has direct effect upon the industrial competitiveness; it can be achieved by means of innovations. Originality. Emphasis has been put on the key scientific and technical aspects and approaches stimulating increased energy efficiency in the developed countries under the effect of strong, coordinated, and consistent national policy in different sectors of economy. Practical implications. The carried-out analysis is useful in terms of the innovative and technological development of different industries of the Russian Federation in the context of its complicated cooperation with European countries and the USA, dependence on foreign technologies, and limited access to them.

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Substantiating parameters of stratification cavities formation in the roof rocks during underground coal gasification

Cited by 35 publications

References 15 publications

Study of Methods and Development of Technological Scheme for Heat Removal from Rock Waste Dump

Study of Methods and Development of Technological Scheme for Heat Removal from Rock Waste Dump

The Philosophy of Mining: Historical Aspect and Future Prospect

Survey of the world practice of implementing energy-efficient technologies in terms of mining enterprises

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