Mechanical Engineering and Engineering Science
Zakharevich V.G., Matishov G.G., Shumeiko V.I. —
Creation of thermo-baromagnetic air separator and fuel combustion synergetic models, based on carbon dioxide and water absorption, compensating burnt oxygen
// Electronics and Machinery. – 2017. – ¹ 1.
– P. 16 - 44.
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Review: The research subject is the development of a termo-baromagnetic air separator, synergetic technological processes, methodological and calculation bases for design of progressive pilot and demonstration objects, optimizing fuel combustion with oxygen, separated from air, absorbing and utilizing carbon dioxide and water, and compensating burnt oxygen.
The described scientific research generalizes the fundamental and applied research in the field of geophysics, geochemistry, thermodynamics, electromagnetism, construction, ecology, economics, and law, and helps design the synergetic model of restoration of oxygen, water, and carbon cycles, which can serve as a base for the technology of optimal burning of natural gas, solid and liquid fuel, and gasification products, carbon dioxide and water absorption and utilization with compensation of oxygen, burnt out of the atmosphere during fuel burning. The research methodology includes the creation of a new bio-transport-energy paradigm, which will help reduce socio-economic losses caused by transport emissions and thermal power stations, and by accidents, fires and road accidents, caused by wrong approach to the formation and functioning of technosphere. Unlike the cost-intensive nature of the compliance with competition documents (clause 2.3.4. “general expenditures for CO2 removal – not more than 400 rubles per ton” and clause 2.3.5. “expenditures for burial about 100 rubles per ton of CO2”), which will tot to 24,96 billion rubles per year for road and transport infrastructure of Rostov-on-Don (for removal) and 6,24 billion rubles per year (for burial) correspondingly, the proposed project estimates nonrecurring costs for “bio-architecture” of Rostov-on-Don at 14,49 billion rubles, and 650,0 billion rubles for the “PARSEK” systems launching in all thermal power and boiler stations of Rostov, which will be repaid in 8,3 years.
Keywords: ultrasonic aerosol injection, compensation of burnt oxygen, water absorption, fuel combustion, carbon dioxide utilization, greenhouse gases, thermomagnetic air separation, ecological harm elimination, thermal power stations' safety, biotechnological paradigm
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