https://sci.ldubgd.edu.ua/jspui/handle/123456789/5453 2026-04-20T14:48:13Z https://sci.ldubgd.edu.ua/jspui/handle/123456789/5548 Title: Энергетический метод анализа теплообмена в глубокой скважине Authors: Карпенко, В.М.; Стародуб, Юрий Петрович Abstract: On the basis of experimental data, the geophysical energy method for analyzing the process of stationary heat exchange between the geological environment and the deep well space in which the drilling mud circulates during the washing of the well is developed. The method is based on the Stefan-Boltzmann radioactive heat transfer law according to the "hot" Earth model. Description: In he paper heat exchange between the geological environment and the deep well space is investigate 2017-01-01T00:00:00Z https://sci.ldubgd.edu.ua/jspui/handle/123456789/5547 Title: Investigation of Civil Objects Protection with the Use of Finite Element Modeling Method Authors: Starodub, Yuriy; Batyuk, Vitaly Abstract: In order to solve the tasks of civilian protection services, the method for modeling of the soil layer reaction under the engineering objects on the tectonic, seismic and other ecological and geophysical influences of the stress-strain state of the earth's crust in the engineering objects vicinity is developed. An algorithm for usage the finite element method is elaborated. The physical and mathematical formulation of the problem is carried out. Problem is solved on test examples. Solid models of engineering structures functioning for which the stress-deformation characteristics of the soil mass are simulated are developed. The theoretical determination and modeling of the critical values of the stress-strain state of the soil mass influenced by loads are carried out. The last allows predicting the nature of the influence of ecological-geophysical mechanical processes in the environment on the determination of stability of engineering structures. The stress-strain processes of the solid rock mass are explored, as a result of which there are extraordinary situations of natural and man-made nature. Description: The determination and modeling of the critical values of the stress-strain state of the soil mass influenced by loads. 2017-01-01T00:00:00Z https://sci.ldubgd.edu.ua/jspui/handle/123456789/5523 Title: RESEARCH OF GEOTHERMAL ENERGY PARAMETERS IN DEEP WELLS Authors: V. M. KARPENKO, Yu. P. STARODUB Abstract: The aim of the work is to develop and study an energy method for extracting geothermal energy from deep wells, which is generated by rocks to the internal space of wells during the circulation of the washing fluid in it in different geological conditions of the world, and in particular in Ukraine. The method of achieving the goal includes the results of experimental and theoretical studies of the stationary process of heat flow from the geological environment to the space of the deep well in the various productions of drill pumps, in different geological conditions, with different properties of the washing liquid. The research took into account the models of “cold” and “hot” Earth. The investigation included the heat transfer in deep wells in different geological conditions of the world, and studied the questions about the physics of the measured heat flux, the maximum possible density of the heat flux, and their dependent physical and technological parameters. The influence of the geothermal energy factor on the part of rocks in the space of the well during the circulation of the washing liquid in it at various pump outputs was studied. It is established that the value of the density of the heat flux from the rocks in the well significantly exceeds the known values that are determined by the geophysical law of the Fourier thermal conductivity on the basis of the use of geothermal gradient data. The energy method for the determining of the real energy characteristics of the geothermal energy factor, which show the ability of deep wells to generate thermal energy for commercial use is proposed. The legitimacy of “cold” Earth models with a decrease and “hot” Earth with stable values of temperatures for the well hole is confirmed. The scientific novelty consists in solving the problem of identifying the experimental parameters of the heat transfer system in the borehole with the geophysical parameters of the process, on the basis of the developed energy method of heat transfer in the space of the well This provided a scientific explanation of the increased and reduced value of the density of heat fluxes in the processes of heat transfer in deep wells based on the “cold” and “hot” models of the Earth. The practical significance of the results obtained substantiated the feasibility of building geothermal plants with an industrial capacity for the extraction of geothermal energy based on the use of separate insulating layers in deep wells. Description: Figures underwrited in English, other text is in Ukrainian 2017-01-01T00:00:00Z