Increasing the energy efficiency of warehouses using demand-side management mechanisms

Authors

  • Sergii Denysiuk National Technical University of Ukraine «Igor Sikorsky Kyiv Polytechnic Institute», 115, Borschagivska str., Kyiv, Ukraine, 03056, Ukraine https://orcid.org/0000-0002-6299-3680
  • Oleg Kotsar National Technical University of Ukraine «Igor Sikorsky Kyiv Polytechnic Institute», 115, Borschagivska str., Kyiv, Ukraine, 03056, Ukraine https://orcid.org/0000-0002-7958-2335
  • Vitalii Opryshko National Technical University of Ukraine «Igor Sikorsky Kyiv Polytechnic Institute», 115, Borschagivska str., Kyiv, Ukraine, 03056, Ukraine https://orcid.org/0000-0003-4963-2490

DOI:

https://doi.org/10.15587/2312-8372.2017.99914

Keywords:

demand-side management for energy resources, energy efficiency of buildings, transport and logistics infrastructure

Abstract

The complex approach and expansion of the functionality of DSM programs is offered due to the application of services and criteria for classification of warehouses in terms of energy efficiency. When analyzing the effectiveness of the application of DSM programs, namely the optimality of power consumption modes, it is suggested to assess the power supply mode during the entire technological period.

Considering the electrical supply of warehouses as an electricity supply to the consumer with sharply variable nonlinear characteristics, the power of which is supplied from the generators, the operating voltage and current values of which are variable, it is proposed to use the modified Frieze inactive power index. The use of the QF index is advisable, since it will be located even in the absence of reactive elements in the consumer system. The influence of the consumption mode on the first harmonic is analyzed. The received characteristics are caused by presence of influence of consumption mode on the general characteristics of electricity supply mode optimality. The analysis of higher harmonics can also be used to assess the effect of unevenness. Such analysis requires additional studies, but it can be argued that the use of the Frieze inactive power index allows to assess the degree of uneven electricity consumption in accordance with a given optimal level.

Author Biographies

Sergii Denysiuk, National Technical University of Ukraine «Igor Sikorsky Kyiv Polytechnic Institute», 115, Borschagivska str., Kyiv, Ukraine, 03056

Doctor of Technical Sciences, Professor

Department of Power Supply

Oleg Kotsar, National Technical University of Ukraine «Igor Sikorsky Kyiv Polytechnic Institute», 115, Borschagivska str., Kyiv, Ukraine, 03056

PhD, Associate Professor

Department of Power Supply

Vitalii Opryshko, National Technical University of Ukraine «Igor Sikorsky Kyiv Polytechnic Institute», 115, Borschagivska str., Kyiv, Ukraine, 03056

Postgraduate Student

Department of Power Supply

References

  1. Davtyan, Y. V. (2012). The Theoretical Foundations of the International Transport Corridors and their Role in the Economy of Ukraine. Business Inform, 12, 151–155.
  2. Cherniavskyi, Yu. I. (2013). Ekolohichni aspekty rozvytku mizhnarodnoho transportnoho korydoru Yevropa-Aziia. Ekonomika pryrodokorystuvannia i okhorony dovkillia, 227–234.
  3. Stechenko, D. M. (2006). Rozmishchennia produktyvnykh syl i rehionalistyka. Kyiv, 396.
  4. Kopylova, O. A., Rahmangulov, A. N. (2012). Metodika formirovaniia energoeffektivnoi transportno-logisticheskoi infrastruktury. Sovremennye problemy transportnogo kompleksa Rossii, 2, 45–53.
  5. Rakhmanhulov, A. N., Kopylova, O. A., Autiv, Ye. K. (2012). Vybir mists dlia lohistychnykh potuzhnostei. Svit transportu, 2, 19–22.
  6. Razvitie logisticheskih tsentrov. (2013). Central Asia Regional Economic Cooperation (CAREC). Available: http://www.carecprogram.org/uploads/events/2013/CFCFA-training-KGZ/009_103_209_logistics-center-development-ru.pdf
  7. Klassifikatsiia skladskih pomeshchenii. Commercial Property. Available: http://commercialproperty.ua/references/warehouse.php
  8. Profesiini rishennia dlia skladskoi lohistyky. «ІМVO» COMPANY. Available: http://www.imvo.lviv.ua/uploads/files/IMVO_presentation_ukr.pdf. Last accessed: 12.12.2016.
  9. Evteev, S. Aiti – logistika i sklad: kompleksnye resheniia dlia avtomatizatsii logistiki. IT. Available: http://www.it.ru/itrfid/effect.pdf
  10. Knight Frank. Available: http://www.knightfrank.ru/
  11. Directive 2012/27/EU of the European Parliament and of the Council of 25 October 2012. (2012). Official Journal of the European Union, L 315/1. Available: http://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=OJ:L:2012:315:0001:0056:en:PDF
  12. Sostoianie, tranzitnyi potentsial, problemy i perspektivy razvitiia Sistemy mezhdunarodnyh transportnyh koridorov (MTK) Rossii na primere dostavki i tamozhennogo oformleniia mezhdunarodnyh ekspress-gruzov. (2014, June). Riga. Available: http://www.rmsforum.lv/admuploads/file/3_shljapnikov_transbaltica_2014.pdf
  13. Karpenko, O. A., Kovalchuk, S. O., Yefimova, Ye. O. (2012). Doslidzhennia perevah lohistychnoho pidkhodu pry orhanizatsii system materialno-tekhnichnoho zabezpechennia pidpryiemstv. Upravlinnia proektamy, systemnyi analiz i lohistyka. Tekhnichna seriia, 9, 82–85.
  14. Nikolaichuk, V. (1999). Vzaimosviaz' i razlichiia logistiki i marketinga. Economy of Ukraine, 4. Available: http://masters.donntu.org/2003/fem/gavrischuk/library/index1.htm
  15. Krykavskyi, Ye. (1997). Ekonomichnyi potentsial lohistychyykh system. Lviv: DU «Lvivska politekhnika», 168.
  16. Oklander, M. A. (2000). Kontury ekonomichnoi lohistyky. Kyiv: Naukova dumka, 174.
  17. Sergeev, V. I. (2001). Logistika v biznese. Moscow: INFRA-M, 608.
  18. Harrison, A., Van Hoek, R. (2004). Logistics Management and Strategy. Ed. 2. Financial Times/Prentice Hall, 336.
  19. Classification warehouse. (2014, April 11). Bachfest Leipzig. Available: http://bachfest-leipzig.com/classification-warehouse/
  20. SwissReal Group. Available: http://swissreal.com/
  21. Goswami, D. Y., Kreith, F. (2015). Energy Efficiency and Renewable Energy. Ed. 2. CRC Press, 1846.
  22. Energy Efficiency Indicators: Fundamentals on Statistics. (2014). Paris: OECD/IEA, 388.
  23. Ożadowicz, A., Grela, J. (2016). Energy saving in the street lighting control system – a new approach based on the EN-15232 standard. Energy Efficiency, 1–14. doi:10.1007/s12053-016-9476-1
  24. Hernández-Santoyo, J., Sánchez-Cifuentes, A. (2003). Trigeneration: an alternative for energy savings. Applied Energy, 76 (1-3), 219–227. doi:10.1016/s0306-2619(03)00061-8
  25. Ghicajanu, M. (2008). Programs of Energy Efficiency – Demand Side Management (DSM). International conference on economics, law and management. Available: http://www.upm.ro/proiecte/EEE/Conferences/papers/S335.pdf
  26. Opryshko, V. (2016). Osoblyvosti intehratsii osnovnykh prohram i metodiv z keruvannia popytom spozhyvannia elektroenerhii. III Mizhnarodna naukovo-tekhnichna ta navchalno-metodychna konferentsiia «Enerhetychnyi menedzhment: stan ta perspektyvy rozvytku – PEMS16», 88–89.
  27. Stognii, B. S., Kyrylenko, O. V., Prahovnyk, O. V., Denysiuk, S. P. (2012). The evolution of intelligent electrical networks and their prospects in Ukraine. Tekhnichna Elektrodynamika, 5, 52–67.
  28. Drehsler, R.; Translation from Czech: Okin, A. A. (1985). Izmerenie i otsenka kachestva elektroenergii pri nesimmetrichnoi i nelineinoi nagruzke. Moscow: Energoatomizdat, 113.

Published

2017-03-30

How to Cite

Denysiuk, S., Kotsar, O., & Opryshko, V. (2017). Increasing the energy efficiency of warehouses using demand-side management mechanisms. Technology Audit and Production Reserves, 2(1(34), 39–45. https://doi.org/10.15587/2312-8372.2017.99914

Issue

Section

Technology and System of Power Supply: Original Research