Ferrero, Luca; Sangiorgi, Giorgia; Ferrini, Barbara; Perrone, Maria; Moscatelli, Marco; D’Angelo, Luca; Rovelli, Grazia; Ariatta, Alberto; Truccolo, Redy; Bolzacchini, Ezio Aerosol Corrosion Prevention and Energy-Saving Strategies in the Design of Green Data Centers (Article) Environmental Science & Technology, 47 (8), pp. 3856-3864, 2013. (Abstract | Links | BibTeX) @article{doi:10.1021/es304790f,
title = {Aerosol Corrosion Prevention and Energy-Saving Strategies in the Design of Green Data Centers},
author = {Ferrero, Luca and Sangiorgi, Giorgia and Ferrini, Barbara S. and Perrone, Maria G. and Moscatelli, Marco and D’Angelo, Luca and Rovelli, Grazia and Ariatta, Alberto and Truccolo, Redy and Bolzacchini, Ezio},
url = {http://pubs.acs.org/doi/abs/10.1021/es304790f},
year = {2013},
date = {2013-01-01},
journal = {Environmental Science & Technology},
volume = {47},
number = {8},
pages = {3856-3864},
abstract = {The energy demands of data centers (DCs) worldwide are rapidly increasing, as are their environmental and economic costs. This paper presents a study conducted at Sannazzaro de’ Burgondi (Po Valley), Italy, specifically aimed at optimizing the operating conditions of a DC designed for the Italian Oil and Gas Company (Eni) (5200 m2 of Information Technology installed, 30 MW) and based on a direct free cooling (DFC) system. The aim of the study was to save the largest possible quantity of energy, while at the same time preventing aerosol corrosion. The aerosol properties (number size distribution, chemical composition, deliquescence relative humidity (DRH), acidity) and meteorological parameters were monitored and utilized to determine the potential levels of aerosol entering the DC (equivalent ISO class), together with its DRH. These data enabled us both to select the DC’s filtering system (MERV13 filters) and to optimize the cooling cycle through calculation of the most reliable humidity cycle (60% of maximum allowed RH) applicable to the DFC. A potential energy saving of 81%, compared to a traditional air conditioning cooling system, was estimated: in one year, for 1 kW of installed information technology, the estimated energy saving is 7.4 MWh, resulting in 2.7 fewer tons of CO2 being emitted, and a financial saving of € 1100. URL = http://pubs.acs.org/doi/abs/10.1021/es304790f},
keywords = {}
}
The energy demands of data centers (DCs) worldwide are rapidly increasing, as are their environmental and economic costs. This paper presents a study conducted at Sannazzaro de’ Burgondi (Po Valley), Italy, specifically aimed at optimizing the operating conditions of a DC designed for the Italian Oil and Gas Company (Eni) (5200 m2 of Information Technology installed, 30 MW) and based on a direct free cooling (DFC) system. The aim of the study was to save the largest possible quantity of energy, while at the same time preventing aerosol corrosion. The aerosol properties (number size distribution, chemical composition, deliquescence relative humidity (DRH), acidity) and meteorological parameters were monitored and utilized to determine the potential levels of aerosol entering the DC (equivalent ISO class), together with its DRH. These data enabled us both to select the DC’s filtering system (MERV13 filters) and to optimize the cooling cycle through calculation of the most reliable humidity cycle (60% of maximum allowed RH) applicable to the DFC. A potential energy saving of 81%, compared to a traditional air conditioning cooling system, was estimated: in one year, for 1 kW of installed information technology, the estimated energy saving is 7.4 MWh, resulting in 2.7 fewer tons of CO2 being emitted, and a financial saving of € 1100. URL = http://pubs.acs.org/doi/abs/10.1021/es304790f
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