Potential for the use of heat pumps for heat supply of metro stations

At present, specialists of foreign and domestic research organizations and industrial firms pay much attention to the use of steam compression heat pump plants (HPP) as an energy-saving technology. Modern compressor units allow receiving 3-4 kW for 1 kW of power consumed by HPP, and under certain conditions up to 5-6 kW of useful power. Today HPPs are most used in heat supply systems for residential and office buildings, especially in Scandinavia, Germany, Switzerland, USA, Japan, China. The paper discusses features of the operation of steam compressor heat pump plants as systems for improving energy efficiency with a description of the device of a heat pump plant; its main components are also listed. Review of the existing practice of introducing such systems in foreign countries is presented, including in Minsk - the Minsk metro, and in Russia - the Moscow Metro. The project, performed by specialists of JSC “VNIIZhT” and MIIT, is considered for the Moscow Metro (with reference to the heating systems of the Nagatinskaya and Pushkinskaya metro stations) for the use of dumping heat of ventilation shafts for heating and hot water supply, proposed by scientists of JSC “VNIIZhT” in 2012 within the framework of the exhibition of technical achievements. Authors presented information on the implementation of the pilot project at the station “Salar’yevo” (Moscow Metro) on the use of HPP in the heat and cooling supply system of the station for further comprehensive analysis of the effectiveness of the HPP application in the operating conditions of the metro. From the analysis of the data given in the work, it is concluded that metro systems are significant sources of low-potential heat, which can be used for the heat supply of stations and/or nearby urban sites by means of HPP. By now, there is a lot of experience (especially abroad) of the practical application of HPP in the heat supply systems of facilities. Nevertheless, for a reliable and comprehensive assessment of the feasibility and cost-effectiveness of projects using low-potential heat of metro systems as an energy-saving technology, a complex of studies is needed, including operational tests of currently implemented pilot projects.

metro systems, station, heat supply, sources of low-potential heat, heat pump steam compression plants, energy balance, energy saving technologies

1. Danilov O. L., Garyaev A. B., Yakovlev I. V., Klimenko A. V. Energosberezhenie v teploenergetike i teplotekhnologiyakh [Energy saving in heat power engineering and heat technologies]. Moscow, Publishing House MEI, 2010, 424 p.

2. Gavrilova S. G. Teplovye nasosy dlya Rossii: tekhnologiya ispol'zovaniya geotermal'nogo i sbrosnogo tepla predpriyatiyami [Heat pumps for Russia: technology of geothermal and dumping heat utilization by enterprises]. Teplovye nasosy [Heat Pumps], no. 4, 2008. URL: http://esco.co.ua (retrieved on 12.04.2018).

3. Lund J. W., Boyd T. L. Direct utilization of geothermal energy 2015: worldwide review. Proceedings World Geothermal congress. Melbourne, Australia, 19 – 25 April, 2015. [s. l.]., 2015. P. 31.

4. Kosarev A. B., Naumenko S. N., Zarucheyskiy A. V., Rebrov I. A. Analiz trendov razvitiya elektrogeneratsii i otsenka perspektiv primeneniya innovatsionnykh energoeffektivnykh tekhnologiy na transporte [Analysis of trends in the development of power generation and assessment of the prospects for the use of innovative energy-efficient technologies in transport]. Byulleten' Ob"edinennogo uchenogo soveta OAO “RZhD” [Bulletin of the Joint Scientific Council of the JSC “Russian Railways”], 2018, no. 3, pp. 51 – 62.

5. Energy strategy of Russia for the period up to 2035. The project in edition from 01.02.2017. URL: https://minenergo.gov.ru/node/1920 (retrieved on 10.04.2018) (in Russ.).

6. Heat pumps produced by Geothermatex. URL: http://telemiks.by/geo/enterprise.html (retrieved on 12.04.2018) (in Russ.)

7. Naumenko S. N., Minaev B. N., Filippov M. D. Perspektivy ispol'zovaniya teplovykh nasosov na gorochnykh kompleksakh zheleznykh dorog [Prospects for the use of heat pumps on the hump complexes of railways]. Vestnik VNIIZhT [Vestnik of the Railway Research Institute], 2012, no. 4, pp. 25 – 29.

8. Naumenko S. N., Kostin N. M., Filippov M. D. Compressor cooling device on the hump complexes (options). Patent for the utility model PM no. 115118.

9. Kosarev A. B., Naumenko S. N., Kostin N. M. Utilization of metro dumping heat. Patent for utility model PM no. 120753.

10. Minaev B. N., Naumenko S. N., Kostin N. M., Gusev G. B., Shepit’ko T. V. Ispol'zovanie teplovykh nasosov dlya teplosnabzheniya stantsiy metropolitena [The use of heat pumps for the heat supply of metro stations]. Perspektivy razvitiya metropolitenov v usloviyakh intensivnogo vnedreniya novykh tekhnologiy. Infrastruktura i podvizhnoy sostav metropolitena. Tr. Mezhdunarodnoy vystavki-konferentsii “Intermetro-2017” [Prospects for the development of subways in conditions of intensive introduction of new technologies. Infrastructure and rolling stock of the subway. Works of the International Exhibition and Conference “Intermetro- 2017”]. Moscow, MIIT Publ., 2017, pp. 96 – 97.

11. Vasil’ev G. P., Gornov V. F., Shapkin P. V., Popov M. I., Burmistrov A. A. Teplonasosnye sistemy teplokhladosnabzheniya ob"ektov Moskovskogo metropolitena [Heat pump systems of heat- cooling supply of objects of the Moscow underground]. Ventilyatsiya, otoplenie, konditsionirovanie vozdukha, teplosnabzhenie i stroitel'naya teplofizika (AVOK) [Ventilation, heating, air conditioning, heat supply and construction thermal physics], 2018, no. 2, pp. 14 – 26. URL: https://www.abok.ru/for_spec/articles.php?nid=6859 (retrieved on 09.04.2018).