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Data centre waste heat: applications, societies, metrics

Research output: ThesisDoctoral Thesis

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Data centre waste heat: applications, societies, metrics. / Terenius, Petter.
Lancaster University, 2024. 308 p.

Research output: ThesisDoctoral Thesis

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Terenius P. Data centre waste heat: applications, societies, metrics. Lancaster University, 2024. 308 p. doi: 10.17635/lancaster/thesis/2339

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@phdthesis{4ef6e6c126fa4c36855ae38adcc1286c,
title = "Data centre waste heat: applications, societies, metrics",
abstract = "In the near future, a few percent of world electricity may be needed to power data centres around the world. This energy ultimately becomes waste heat, and the thesis investigates ways to use it. But for selected uses in cold regions, previous research has not addressed this issue. Neither have the growing data needs of low-income countries been discussed much from an environmental perspective.The thesis argues there exists a bond between technology, societal progress and environmental sustainability, and that this bond can be used to solve the energy problems of the rapidly growing data centre industry. In fact, a society in need of data exchange and a planet unable to cope with unsustainable energy use turn out to be good bed-fellows, as an evidently holistic problem calls for an equally holistic, systems science-based solution.Through three cases studies (Malaysia, Costa Rica, Sweden), research is carried out relating to dehydration of commodities such as coffee beans, wooden pellets and seaweed, as well as to energy storage solutions. The concepts are then evaluated using a developed analytical framework and novel data centre energy efficiency metrics. The work is underpinned by a literature review, interviews and ethnographic studies. Crucial to the evaluation has been the possibility to compare the three contrasting cases, where the Arctic meets the tropics and where city meets countryside.The results show that a systems science-based view and a high-level metric open up new possibilities for data centre waste heat use worldwide.",
keywords = "data centre, waste heat, material social studies, circular economy, commodity dehydration",
author = "Petter Terenius",
year = "2024",
doi = "10.17635/lancaster/thesis/2339",
language = "English",
publisher = "Lancaster University",
school = "Lancaster University",

}

RIS

TY - BOOK

T1 - Data centre waste heat

T2 - applications, societies, metrics

AU - Terenius, Petter

PY - 2024

Y1 - 2024

N2 - In the near future, a few percent of world electricity may be needed to power data centres around the world. This energy ultimately becomes waste heat, and the thesis investigates ways to use it. But for selected uses in cold regions, previous research has not addressed this issue. Neither have the growing data needs of low-income countries been discussed much from an environmental perspective.The thesis argues there exists a bond between technology, societal progress and environmental sustainability, and that this bond can be used to solve the energy problems of the rapidly growing data centre industry. In fact, a society in need of data exchange and a planet unable to cope with unsustainable energy use turn out to be good bed-fellows, as an evidently holistic problem calls for an equally holistic, systems science-based solution.Through three cases studies (Malaysia, Costa Rica, Sweden), research is carried out relating to dehydration of commodities such as coffee beans, wooden pellets and seaweed, as well as to energy storage solutions. The concepts are then evaluated using a developed analytical framework and novel data centre energy efficiency metrics. The work is underpinned by a literature review, interviews and ethnographic studies. Crucial to the evaluation has been the possibility to compare the three contrasting cases, where the Arctic meets the tropics and where city meets countryside.The results show that a systems science-based view and a high-level metric open up new possibilities for data centre waste heat use worldwide.

AB - In the near future, a few percent of world electricity may be needed to power data centres around the world. This energy ultimately becomes waste heat, and the thesis investigates ways to use it. But for selected uses in cold regions, previous research has not addressed this issue. Neither have the growing data needs of low-income countries been discussed much from an environmental perspective.The thesis argues there exists a bond between technology, societal progress and environmental sustainability, and that this bond can be used to solve the energy problems of the rapidly growing data centre industry. In fact, a society in need of data exchange and a planet unable to cope with unsustainable energy use turn out to be good bed-fellows, as an evidently holistic problem calls for an equally holistic, systems science-based solution.Through three cases studies (Malaysia, Costa Rica, Sweden), research is carried out relating to dehydration of commodities such as coffee beans, wooden pellets and seaweed, as well as to energy storage solutions. The concepts are then evaluated using a developed analytical framework and novel data centre energy efficiency metrics. The work is underpinned by a literature review, interviews and ethnographic studies. Crucial to the evaluation has been the possibility to compare the three contrasting cases, where the Arctic meets the tropics and where city meets countryside.The results show that a systems science-based view and a high-level metric open up new possibilities for data centre waste heat use worldwide.

KW - data centre

KW - waste heat

KW - material social studies

KW - circular economy

KW - commodity dehydration

U2 - 10.17635/lancaster/thesis/2339

DO - 10.17635/lancaster/thesis/2339

M3 - Doctoral Thesis

PB - Lancaster University

ER -