MODERN TECHNOLOGIES FOR INCREASING THE ENERGY AND ENVIRONMENTAL EFFICIENCY OF ENERGY PRODUCTION

Authors

DOI:

https://doi.org/10.20535/1813-5420.3.2022.271992

Keywords:

energy efficiency, environmental performance, microflare incineration technology, contact energy exchange.

Abstract

The problems of energy efficiency of energy production along with improving the environmental safety of enterprises are becoming increasingly relevant. One of the ways to solve these problems is the implemention of effective technologies, which include microflare incineration technology (MIT-technology) of gaseous fuels. The use of MIT- technology, in addition to a significant reduction in harmful emissions into the atmosphere, can simultaneously increase the energy efficiency of thermal power plants.

A significant positive effect can also be achieved by using contact energy exchange plants. A striking example of such a gas-steam plant “Aquarius” the operation of which exceeds the efficiency of gas turbine plants by 10-12% with a simultaneous significant decrease in the concentration of toxic nitrogen oxides NOx and carbon monoxide CO in flue gases.

References

G. Varlamov, K. Pryimak, H. Shvartszova, “General approaches to the creation of methodological bases for energy-environmental analysis of the operation of FEC facilities”, Energy saving. Power engineering. Energy audit, no. 116, pp. 2-9, 2013.

G. Varlamov, K. Pryimak, N. Olinevych, M. Ocheretyanko, “Features of integrated energy assessment of the actual environmental performance of energy facilities”, Electromechanical and energy saving systems, vol. 32, no. 4, pp. 75-81, 2015.

G. Varlamov, O. Daschenko, S. Kasianchuk, M. Ocheretianko, “The principle of ecological equilibrium as a key to increasing environmental security”, Sustainable development of the 21st century: management, technology, models, pp. 153-158, 2016.

“Trade, environment and sustainable development - report of the Secretary-General”, United Nations, 1996. [Online]. Available: https://www.un.org/ga/search/view_doc.asp?symbol=

=E/CN.17/1996/8&Lang=E. [Accessed: 16- Nov- 2019].

G. Varlamov, O. Dashchenko, K. Romanova, “Sustainable development of megacities on the basis of the introduction of new ecological-energy paradigm”, IV International Scientific Conference on Sustainable Development - 21st Century: Governance, Technologies, Models. Discussions 2017: collective foreign monograph, pp. 355-358, 2017.

G. Varlamov, T. Shy, “Sustainable development in harmony with nature: axioms and principles of a new energy-ecological paradigm”, Sustainable development - 21st century: management, technologies, models. Discussions 2018: a collective monograph, pp. 361-369, 2018.

G. Varlamov, A. Aleksandrov, V. Maliarenko, K. Pryimak, Fuel and Energy Complex. Environmental aspects of energy generation. Kyiv, 2019.

G. Varlamov, A. Khalatov, P. Pozniakov, D. Iurashev, “A new generation of gas turbine gas turbine burner systems based on a microflame incineration technology of combustion”, Eastern-European Journal of Enterprise Technologies, vol. 57, no. 3, pp. 9-14, 2012.

G. Varlamov, K. Romanova,M. Mukhin, “Aerodynamic and thermal advantages of operation of combustion chambers of gas turbines when using microflame incineration technology of combustion”, Energy: Economics, technology, ecology, vol. 54, no. 4, p. 9, 2018.

G. Varlamov, A. Khalatov, “Aerodynamic and thermal characteristics of GTU combustion chambers with a tube-type burner system”, Eastern-European Journal of Enterprise Technologies, vol. 63, no. 3, pp. 79-83, 2013.

G. Varlamov, P. Pozniakov, D. Iurashev, “Features of a tubular-type burner system for a GTU combustion chamber as part of a GTE-10”, Ecotechnology and resource conservation, no. 2, pp. 13-19, 2012.

G. Varlamov, IU. Kamaev, P. Pozniakov, D. Iurashev, “Modernization of the burner system of a DN80 gas turbine engine using tubular gas-burning technology”, Bulletin of the National Technical University “KPI”, no. 18, pp. 117-126, 2012.

G. Varlamov, IU. Kamaev, P. Pozniakov, D. Iurashev, “Improving the characteristics of the combustion chamber of a gas turbine engine through the use of tubular gas combustion technology”, Gas turbine technology, vol. 104, no. 3, pp. 2-8, 2012.

G. Varlamov, W. Zongyan, “Improving the quality of burning gas and fuel oil in energy boilers through the use of microflame burners”, in VII International Scientific and Practical Conference on the topic: “Actual problems of transport and energy: ways of their innovative solutions”, Astana, The Republic of Kazakhstan, 2019, pp. 413-419.

O. Chebotarov, S. Glazyrin, G. Varlamov, “Features of aerodynamic and thermal processes in the furnace of the PTVM-100 boiler when replacing the regular burners with micro-torch gas burners”, in XVII International Scientific and Practical Conference of Young Scientists and Students: “Modern problems of scientific Support energy”, Kyiv, Ukraine, 2019, p. 245.

M. Mukhin, G. Varlamov, “Features of aerodynamic and thermal processes in the furnace of the KVGM-20 boiler when operating the regular burner RGMG-20”, in XVII International Scientific and Practical Conference of Young Scientists and Students: “Modern problems of scientific Support energy”, Kyiv, Ukraine, 2019, p. 254.

W. Zongyan, G. Varlamov, “The main results of the modernization of the PTVM-180 boiler burner system when using micro-flame burners” in XVII International Scientific and Practical Conference of Young Scientists and Students: “Modern problems of scientific support energy, Kyiv, Ukraine, 2019, p. 269.

G. Varlamov, K. Romanova, O. Daschenko, M. Ocheretyanko, S. Kasyanchuk, “The use of contact heat generators of the new generation for heat production”, Eastern-European Journal of Enterprise Technologies, vol. 84, no. 6, pp. 52-58, 2016.

Y. Osypenko, G. Varlamov, “Improving the efficiency of the AOM heat generator due to structural changes” in XVI International Scientific and Practical Conference of Young Scientists and Students: “Modern problems of scientific support energy”, Kiev, Ukraine, 2018,

p. 193.

Y. Osypenko, G. Varlamov, “Complex advantages of new generation AOM heat generator” in XV International Scientific and Practical Conference of Young Scientists and Students: “Modern problems of scientific support energy”, Kiev, Ukraine, 2017, p. 96.

G. Varlamov, K. Romanova K., I. Nazarova, O. Dashchenko, A. Kapustiansky, “Improvement of energy efficiency and environmental safety of thermal energy through the implementation of contact energy exchange processes”, Archives of Thermodynamics, vol. 38,

no. 4, pp. 127-137, 2017.

Khristich V.A., Varlamov G.B. Gas turbine installations: history and prospects. Polytechnic, Kyiv, 2006, 435p.

Published

2023-03-09

Issue

Section

TECHNOLOGIES AND EQUIPMENT IN ENERGY