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  • ICT4S_2024

    Accepted author manuscript, 13.9 MB, PDF document

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Mind the gap! : The role of ICT in office heating & comfort

Research output: Contribution in Book/Report/Proceedings - With ISBN/ISSNConference contribution/Paperpeer-review

Forthcoming

Standard

Mind the gap! : The role of ICT in office heating & comfort. / Tyler, Adam; Bates, Oliver; Friday, Adrian et al.
ICT4S 2024 Proceedings. Springer, 2024.

Research output: Contribution in Book/Report/Proceedings - With ISBN/ISSNConference contribution/Paperpeer-review

Harvard

Tyler, A, Bates, O, Friday, A & Remy, C 2024, Mind the gap! : The role of ICT in office heating & comfort. in ICT4S 2024 Proceedings. Springer, ICT4S 2024, Stockholm, Sweden, 24/06/24.

APA

Tyler, A., Bates, O., Friday, A., & Remy, C. (in press). Mind the gap! : The role of ICT in office heating & comfort. In ICT4S 2024 Proceedings Springer.

Vancouver

Tyler A, Bates O, Friday A, Remy C. Mind the gap! : The role of ICT in office heating & comfort. In ICT4S 2024 Proceedings. Springer. 2024

Author

Tyler, Adam ; Bates, Oliver ; Friday, Adrian et al. / Mind the gap!  : The role of ICT in office heating & comfort. ICT4S 2024 Proceedings. Springer, 2024.

Bibtex

@inproceedings{1d2d1f5829b24d4ba0887d49ccecdf5b,
title = "Mind the gap! : The role of ICT in office heating & comfort",
abstract = "One of the largest single uses of energy, and in most countries therefore oil and gas, is the heating and cooling of buildings. Much of the built environment we need to decarbonise by 2050 is already built. Adapting this infrastructure is going to be disruptive and expensive, and take time we arguably do not have. The main current approach to limiting this consumption is to try to tightly control the indoor conditions to a given setpoint temperature. But, is there another approach? We have conducted a year-long study of the actual thermal performance of a large non-domestic building. We find that there are three significant socio-technical gaps between the buildings systems{\textquoteright} perception of how the building performs and the temperatures experienced by building users which affect peoples{\textquoteright} comfort and waste energy. In contrast with traditional approaches, we argue for more flexibility and adaptivity in both the policy and and how the building is controlled to address this. We believe that mitigating these gaps and avoiding the wasted energy and associated indirect emissions is a significant opportunity for future ICT for sustainability systems.",
keywords = "non-domestic building, building policy, energy management, adaptive thermal comfort, energy reduction",
author = "Adam Tyler and Oliver Bates and Adrian Friday and Christian Remy",
year = "2024",
month = may,
day = "7",
language = "English",
booktitle = "ICT4S 2024 Proceedings",
publisher = "Springer",
note = "ICT4S 2024 ; Conference date: 24-06-2024 Through 28-06-2024",
url = "https://conf.researchr.org/home/ict4s-2024",

}

RIS

TY - GEN

T1 - Mind the gap! 

T2 - ICT4S 2024

AU - Tyler, Adam

AU - Bates, Oliver

AU - Friday, Adrian

AU - Remy, Christian

PY - 2024/5/7

Y1 - 2024/5/7

N2 - One of the largest single uses of energy, and in most countries therefore oil and gas, is the heating and cooling of buildings. Much of the built environment we need to decarbonise by 2050 is already built. Adapting this infrastructure is going to be disruptive and expensive, and take time we arguably do not have. The main current approach to limiting this consumption is to try to tightly control the indoor conditions to a given setpoint temperature. But, is there another approach? We have conducted a year-long study of the actual thermal performance of a large non-domestic building. We find that there are three significant socio-technical gaps between the buildings systems’ perception of how the building performs and the temperatures experienced by building users which affect peoples’ comfort and waste energy. In contrast with traditional approaches, we argue for more flexibility and adaptivity in both the policy and and how the building is controlled to address this. We believe that mitigating these gaps and avoiding the wasted energy and associated indirect emissions is a significant opportunity for future ICT for sustainability systems.

AB - One of the largest single uses of energy, and in most countries therefore oil and gas, is the heating and cooling of buildings. Much of the built environment we need to decarbonise by 2050 is already built. Adapting this infrastructure is going to be disruptive and expensive, and take time we arguably do not have. The main current approach to limiting this consumption is to try to tightly control the indoor conditions to a given setpoint temperature. But, is there another approach? We have conducted a year-long study of the actual thermal performance of a large non-domestic building. We find that there are three significant socio-technical gaps between the buildings systems’ perception of how the building performs and the temperatures experienced by building users which affect peoples’ comfort and waste energy. In contrast with traditional approaches, we argue for more flexibility and adaptivity in both the policy and and how the building is controlled to address this. We believe that mitigating these gaps and avoiding the wasted energy and associated indirect emissions is a significant opportunity for future ICT for sustainability systems.

KW - non-domestic building

KW - building policy

KW - energy management

KW - adaptive thermal comfort

KW - energy reduction

M3 - Conference contribution/Paper

BT - ICT4S 2024 Proceedings

PB - Springer

Y2 - 24 June 2024 through 28 June 2024

ER -