Heat pumps complex for recycling of secondary energy resources of petrochemical plants

The created heat pump complex allows to utilize simultaneously different types of secondary energy resources of petrochemical industries. The main potential for the resources used for the developed heat pump complex is the heat of flammable waste gases and heat of circulating water, and the final received energy resources are heat of heati ng water with a temperature of 150°0C and electricity for internal and external consumption.

1. Taimarov M.A., Efremov D.A., Stepanova T.O. Increase of efficiency of secondary thermal energy resources use in OJSC "Kazanorgsintez" // Bulletin of Kazan Technological University. 2015. V.18, No.22. P. 75–78.

2. Taimarov M.A. Directions for the development of energy conservation in the energy sector. Kazan: KGEU, 2003. 67 p.

3. Taimarov M.A. Fundamentals of physical and chemical processes for the production of thermal energy. Kazan: KGEU, 2003. 120 p.

4. Grigorov V.G., Neiman V.K., Surakov S.D. Utilization of low-potential thermal secondary energy resources at chemical enterprises. M: Chemistry, 1987. 240 p.

5. Kalkin I.M. Prospects for the development of heat pumps // Refrigeration technology. 1994. No. 1. P. 4–8.

6. Slesarenko VV, Knyazev VV, Slesarenko IV. Perspektivy primeneniya teplovykh nasosov pri utilizatsii teploty gorodskikh stokov. Energosberezheniye i vodopodgotovka. 2012;3(77): 28–33.

7. Anikina ID, Sergeyev VV, Amosov NT, Luchko MG. Ispolzovaniye teplovykh nasosov v tekhnologicheskikh skhemakh generatsii teplovoy energii TETs. Alternativnaya energetika i ekologiya. 2016; 3–4 (191–192): S. 39–49.

8. REGNUM news agency // URL: https://www.regnum.runews/26965.html (accessed: 16.12.2017).

9. Business electronic newspaper of Tatarstan "Business online" // URL: https://www.business-gazeta.ru/news/315798 (accessed: 04.02.2018).

10. Alexikov I.Y. Experience in the use of absorption refrigeration equipment to improve energy efficiency in the modernization of oil refining and petrochemical enterprises // Chemical Engineering. 2016. No. 2. P. 18–20.

11. Kovetsky V.M., Kovetsky M.M., Lavrik V.М. Effective use of internal fuel sources of oil refineries // Industrial heat engineering. 2010. V.32, No. 5.. P. 72–78.

12. Sokolov A.D., Muzychuk S.Y., Muzychuk R.I. Heat Waste and Their Influence on the Energy Efficiency of the Russian Economy: Territorial and Branch Aspects // Economic Analysis: Theory and Practice. 2016. No. 6. P. 44–56.

13. Slesarenko V.V., Knyazev V.V., Slesarenko I.V. Prospects for the use of heat pumps in the utilization of the heat of urban effluents // Energy saving and water treatment. 2012. No. 3 (77). P. 28–33.

14. Anikina I.D., Sergeev V.V., Amosov N.T., Luchko M.G. The use of heat pumps in technological schemes for generating thermal energy of CHPP // Alternative energy and ecology. 2016. No. 3-4 (191-192). P. 39–49.

15. Bondarenko A.S., Callas V.L., Litvin A.A. Operation of marine gas turbine engines on gas oil and hydrogen-containing gas obtained from oil refining // Scientific works. 2006. V. 61, issue 48. P. 218–219.

16. Pedersen S.E. The heat pump station with a capacity of 18 MW, utilizing the low-potential wastewater waste heat in Norway // Heat pumps. 2011. No. 1. P. 36–37.

17. Gorshkov V.G., Pazdnikov A.G., Mukhin D.G., Sevastyanov R.V. Industrial Experience and Prospects for Using Domestic Absorption Bromistolithium Refrigeration Machines and Heat Pumps of the New Generation // Refrigerating Equipment. 2007. No. 8. P. 23–31.

18. Daniel Brdar R., Robert M. Jones. GE IGCC Technology and Experience with Advanced Gas Turbines // GE Power Systems. Электронный ресурс. Режим входа : http://www.netl.doe.gov/technologies/coalpower/turbines/refshelf/igcc-h2-sygas

19. Nakamura D.N. Global ethylene capacity increases slightly in 2006 // Oil and Gas Journal. 2007. V. 105, № 27. Р.45–48.

20. Hisajlma D., Kawamura H., Oouchi T. Determination of Thermal Properties of Dilute LiBr-Water Solutions // International Iournal of Thermophysics. 1997. Vol. 18, No. 2. P. 397–406.