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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 725-726Comparison of Air Conditioning Systems for...

Comparison of Air Conditioning Systems for Advanced Data Centers

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Abstract:

Considering nowadays growth of electronic data, the necessity of major data centers establishment is also increasing. Such centers may contain data distribution, storing and processing systems, like servers. The equipment generates huge heat energy, so an appropriate microclimate is required in such premises. High capacity air conditioners are used for maintaining of appropriate parameters and assuring normal functioning of these systems. Herein you can find comparison analysis of central and precision air conditioning systems considering two parameters: cost and energy efficiency for the central regions of the Russian Federation. During such comparison analysis the most cost-efficient and ergonomic air conditioning system was revealed for the Data Center Berzarina, Moscow.

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Periodical:

Applied Mechanics and Materials (Volumes 725-726)

Pages:

1279-1284

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.725-726.1279

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Online since:

January 2015

Authors:

Olesya Aver’yanova, Viktoria Voronkova*, Viktoria Demchenko, Nailya Kudaibergenova, Anna Solobay

Keywords:

Central Air Conditioning System, Data Centers, Energy Efficiency, Microclimate, Precision Air Conditioning System

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© 2015 Trans Tech Publications Ltd. All Rights Reserved

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[1] Al Okbi, I.S., Kravets, O. Ya. Vidyi i metodyi monitoringa zagruzhennosti informatsionnyih setey i data-tsentrov (2014) Informatsionnyie tehnologii modelirovaniya i upravleniya, 2 (86), pp.158-168.

[2] Leohin, Yu.L., Dvoretskiy, I.N. Tendentsii razvitiya nauki i tehniki v oblasti proizvodstva servernogo oborudovaniya dlya data-tsentrov (2013) Izvestiya vyisshih uchebnyih zavedeniy. Priborostroenie, 12 (56), pp.20-24.

[3] Yakovleva, M.S., Kukartsev, V.V. Perspektivyi razvitiya data-tsentrov v rossii (2013) Reshetnevskie chteniya, 17 (2), pp.271-272.

[4] Grischenko, E.V. Korporativnaya IT-infrastruktura (2013) Vek kachestva, 4, pp.56-59.

[5] Maslova, L.V., Sergeeva, I.I. TsOD V sovremennyih sotsialno - ekonomicheskih usloviyah (2011) Nauchnyie zapiski orelgiet, 1, pp.409-413.

[6] Durand-Estebe, B., Le Bot, C.A., Mancos, J.N., Arquis, E. Simulation of a temperature adaptive control strategy for an IWSE economizer in a data center (2014) Applied Energy, 134, pp.45-56.

DOI: 10.1016/j.apenergy.2014.07.072

[7] Uddin, M., Alsaqour, R., Shah, A., Saba, T. Power usage effectiveness metrics to measure efficiency and performance of data centers (2014) Applied Mathematics and Information Sciences, 8 (5), pp.2207-2216.

DOI: 10.12785/amis/080514

[8] Karyakin A.I. Novoe v reshenii sistem ohlazhdeniya data-tsentrov ot MONTAIR (2014) Santehnika, otoplenie, konditsionirovanie, 10 (130), pp.66-68.

[9] Stepanov A. TsOD sleduet podavat holodnyim (2014) Zhurnal setevyih resheniy LAN, 7, pp.38-40.

[10] Barskov A. Inzhenernaya infrastruktura TsOD: kurs na energoeffektivnost (2014) Zhurnal setevyih resheniy LAN, 7, pp.32-37.

[11] Rayter R. Metodyi regulirovaniya ohlazhdeniya holodnogo koridora v TsOD (2014) Zhurnal setevyih resheniy LAN, 5, pp.30-35.

[12] Sonich, V.F., Burkov, F.I. K voprosu o primenenii pretsizionnyih konditsionerov v permskom krae (2013) Vestnik Permskogo natsionalnogo issledovatelskogo politehnicheskogo universiteta. stroitelstvo i arhitektura, 2, pp.107-115.

[13] Ardashev, V.A., Lyannaya, A.V., Lunyaka, K.V. Vyibor sistemyi ohlazhdeniya servernoy HNTU (2011) Vestnik hersonskogo natsionalnogo tehnicheskogo universiteta, 1 (40), pp.32-36.

[14] Yu, B.F., Hu, Z.B., Liu, M., Yang, H.L., Kong, Q.X., Liu, Y.H. Review of research on air-conditioning systems and indoor air quality control for human health (2009) International Journal of Refrigeration, 32 (1), pp.3-20.

DOI: 10.1016/j.ijrefrig.2008.05.004

[15] Yonghua, Z., Xinqiao, J., Xing, F., Zhimin, Du. Optimal control of combined air conditioning system with variable refrigerant flow and variable air volume for energy saving (2014) International Journal of Refrigeration, 42, pp.14-26.

DOI: 10.1016/j.ijrefrig.2014.02.006

[16] Gang, L., Yunho, H., Reinhard, R. Review of cold storage materials for air conditioning application (2012) International Journal of Refrigeration, 35 (8), p.2063-(2077).

[17] Malyavin, E.G., Kryuchkova, O. Yu. Otsenka energopotrebleniya razlichnyimi tsentralnyimi sistemami konditsionirovaniya vozduha (2014) Nauchno-tehnicheskiy vestnik Povolzhya, 4, pp.149-152.

[18] Malyavin, E.G., Kryuchkova, O. Yu. Ekonomicheskaya otsenka tsentralnyih sistem konditsionirovaniya vozduha s razlichnyimi shemami ego obrabotki (2014) Promyishlennoe i grazhdanskoe stroitelstvo, 7, pp.30-34.

[19] SN 512-78 Instruktsiya po proektirovaniyu zdaniy i pomescheniy dlya elektronno-vyichislitelnyih mashin.