Radiative free cooling for energy and water saving in data centers
Data centers consume large amounts of electricity and water specifically for cooling purposes. Integrating free cooling technologies is an essential part of broad efforts to reduce data centers' energy, carbon, and water footprints. Adding a new technique to the existing portfolio of free cooli...
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sg-ntu-dr.10356-1746762024-04-12T15:37:26Z Radiative free cooling for energy and water saving in data centers Aili, Ablimit Long, Wenjun Cao, Zhiwei Wen, Yonggang School of Computer Science and Engineering Computer and Information Science Data center Energy saving Data centers consume large amounts of electricity and water specifically for cooling purposes. Integrating free cooling technologies is an essential part of broad efforts to reduce data centers' energy, carbon, and water footprints. Adding a new technique to the existing portfolio of free cooling technologies for data centers, we present how all-day passive radiative cooling can reduce energy and water consumptions of data centers. All-day passive radiative cooling is a free cooling technique, in which sky-facing surfaces with high solar reflectivity and midinfrared emissivity spontaneously reject heat into the sky, without consuming electricity and evaporating water. Using custom-built physics-based models, we simulate three configurations that integrate all-day radiative free cooling into data centers. We show that data center cooling energy and water consumptions differ substantially depending on the integration configuration. Particularly, direct free cooling of data center return air gives the highest energy saving with an annual average of around 20.0% under the tropical climate of Singapore which hosts a large number of data centers, whereas free cooling of compressed refrigerant prior to the chiller condenser gives the highest water saving with an annual average of around 84.0%. These results offer multiple viable options for integrating radiative free cooling into data center cooling systems to simultaneously achieve water and energy savings. Nanyang Technological University National Research Foundation (NRF) Submitted/Accepted version A. Aili acknowledges support from the Gopalakrishnan-NTU Presidential Postdoctoral Fellowship 2021 under Award No. 021978-00001. Y. Wen acknowledges financial support from the National Research Foundation, Singapore, under Grant No. NRF2020NRFCG001-027. 2024-04-07T09:25:36Z 2024-04-07T09:25:36Z 2024 Journal Article Aili, A., Long, W., Cao, Z. & Wen, Y. (2024). Radiative free cooling for energy and water saving in data centers. Applied Energy, 359, 122672-. https://dx.doi.org/10.1016/j.apenergy.2024.122672 0306-2619 https://hdl.handle.net/10356/174676 10.1016/j.apenergy.2024.122672 2-s2.0-85183043410 359 122672 en 021978-00001 NRF2020NRFCG001-027 Applied Energy © 2024 Elsevier Ltd. All rights reserved. This article may be downloaded for personal use only. Any other use requires prior permission of the copyright holder. The Version of Record is available online at http://doi.org/10.1016/j.apenergy.2024.122672. application/pdf |
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Computer and Information Science Data center Energy saving |
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Computer and Information Science Data center Energy saving Aili, Ablimit Long, Wenjun Cao, Zhiwei Wen, Yonggang Radiative free cooling for energy and water saving in data centers |
| description |
Data centers consume large amounts of electricity and water specifically for cooling purposes. Integrating free cooling technologies is an essential part of broad efforts to reduce data centers' energy, carbon, and water footprints. Adding a new technique to the existing portfolio of free cooling technologies for data centers, we present how all-day passive radiative cooling can reduce energy and water consumptions of data centers. All-day passive radiative cooling is a free cooling technique, in which sky-facing surfaces with high solar reflectivity and midinfrared emissivity spontaneously reject heat into the sky, without consuming electricity and evaporating water. Using custom-built physics-based models, we simulate three configurations that integrate all-day radiative free cooling into data centers. We show that data center cooling energy and water consumptions differ substantially depending on the integration configuration. Particularly, direct free cooling of data center return air gives the highest energy saving with an annual average of around 20.0% under the tropical climate of Singapore which hosts a large number of data centers, whereas free cooling of compressed refrigerant prior to the chiller condenser gives the highest water saving with an annual average of around 84.0%. These results offer multiple viable options for integrating radiative free cooling into data center cooling systems to simultaneously achieve water and energy savings. |
| author2 |
School of Computer Science and Engineering |
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School of Computer Science and Engineering Aili, Ablimit Long, Wenjun Cao, Zhiwei Wen, Yonggang |
| format |
Article |
| author |
Aili, Ablimit Long, Wenjun Cao, Zhiwei Wen, Yonggang |
| author_sort |
Aili, Ablimit |
| title |
Radiative free cooling for energy and water saving in data centers |
| title_short |
Radiative free cooling for energy and water saving in data centers |
| title_full |
Radiative free cooling for energy and water saving in data centers |
| title_fullStr |
Radiative free cooling for energy and water saving in data centers |
| title_full_unstemmed |
Radiative free cooling for energy and water saving in data centers |
| title_sort |
radiative free cooling for energy and water saving in data centers |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/174676 |
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1800916337884659712 |