Advanced search
Publication Cover
Ergonomics Volume 17, 1974 - Issue 4
Submit an article Journal homepage
94
Views
31
CrossRef citations to date
0
Altmetric
Original Articles

Sensitivity to Temporal Variations in Thermal Conditions

I. D. GRIFFITHS Electricity Council Research Centre, Capenhurat, Cheater, England
&
D. A. McINTYRE Electricity Council Research Centre, Capenhurat, Cheater, England
Pages 499-507 | Published online: 25 Apr 2007

Citations (31)

Keep up to date with the latest research on this topic with citation updates for this article.

Subscribe to citation updates

Read on this site (4)

Marcel Schweiker, Gesche M. Huebner, Boris R. M. Kingma, Rick Kramer & Hannah Pallubinsky. (2018) Drivers of diversity in human thermal perception – A review for holistic comfort models. Temperature 5:4, pages 308-342.
Read now
Gloria Vargas, Ranald Lawrence & Fionn Stevenson. (2017) The role of lobbies: short-term thermal transitions. Building Research & Information 45:7, pages 759-782.
Read now
A.T. Purcell & R.H. Thorne. (1987) The Thermal Environment and Level of Arousal: Field Studies to Ascertain the Effects of Airconditioned Environments on Office Workers. Architectural Science Review 30:4, pages 91-115.
Read now
A. ENANDER. (1984) Performance and sensory aspects of work in cold environments: a review. Ergonomics 27:4, pages 365-378.
Read now

Articles from other publishers (27)

Yuxin Wu, Zixuan Zhang, Hong Liu, Baizhan Li, Risto Kosonen, Juha Jokisalo & Weining Wang. (2023) Effect of change rates and directions of air temperature ramps on thermal responses of occupants under warm summer conditions. Building and Environment 243, pages 110614.
Crossref
Christiane Berger, Ardeshir Mahdavi, Eleni Ampatzi, Sarah Crosby, Runa Hellwig, Dolaana Khovalyg, Anna Pisello, Astrid Roetzel, Adam Rysanek & Marika Vellei. (2023) Thermal Conditions in Indoor Environments: Exploring the Reasoning behind Standard-Based Recommendations. Energies 16:4, pages 1587.
Crossref
Noor Syazwanee Md Taib, Sheikh Ahmad Zaki, Hom Bahadur Rijal, Azli Abd Razak, Fitri Yakub, Mohamed Sukri Mat Ali & Nor’azizi Othman. (2023) Effect of Office Design Characteristics and Anthropometrics on Thermal Comfort in Malaysian Universities Air-Conditioned Buildings. E3S Web of Conferences 396, pages 01004.
Crossref
Yuxin Wu, Zixuan Zhang, Hong Liu, Baizhan Li, Baofan Chen, Risto Kosonen & Juha Jokisalo. (2023) Age differences in thermal comfort and physiological responses in thermal environments with temperature ramp. Building and Environment 228, pages 109887.
Crossref
Yuliya Dzyuban, Graces N.Y. Ching, Sin Kang Yik, Adrian J. Tan, Shreya Banerjee, Peter J. Crank & Winston T.L. Chow. (2022) Outdoor thermal comfort research in transient conditions: A narrative literature review. Landscape and Urban Planning 226, pages 104496.
Crossref
Noor Syazwanee Md Taib, Sheikh Ahmad Zaki, Hom Bahadur Rijal, Azli Abd Razak, Aya Hagishima, Waqas Khalid & Mohamed Sukri Mat Ali. (2022) Associating thermal comfort and preference in Malaysian universities’ air-conditioned office rooms under various set-point temperatures. Journal of Building Engineering 54, pages 104575.
Crossref
Shuai Zhang & Neng Zhu. (2022) Gender differences in thermal responses to temperature ramps in moderate environments. Journal of Thermal Biology 103, pages 103158.
Crossref
Shuai Zhang & Neng Zhu. (2022) Human thermal responses to temperature ramps in moderate built environments. Building and Environment 208, pages 108571.
Crossref
Matteo Favero, Igor Sartori & Salvatore Carlucci. (2021) Human thermal comfort under dynamic conditions: An experimental study. Building and Environment 204, pages 108144.
Crossref
Yuxin Wu, Hong Liu, Baofan Chen, Baizhan Li, Risto Kosonen, Juha Jokisalo & Tiankai Chen. (2020) Effect of long-term thermal history on physiological acclimatization and prediction of thermal sensation in typical winter conditions. Building and Environment 179, pages 106936.
Crossref
Daniele Costa, Joana C. Guedes & J. Santos Baptista. 2020. Occupational and Environmental Safety and Health II. Occupational and Environmental Safety and Health II 427 434 .
Wu Qingqing, Liu Jianhua, Zhang Liang, Zhang Jiawen & Jiang Linlin. (2019) Study on thermal sensation and thermal comfort in environment with moderate temperature ramps. Building and Environment, pages 106640.
Crossref
Fanny Kobiela, Rongrong Shen, Marcel Schweiker & Robert Dürichen. (2019) Personal thermal perception models using skin temperatures and HR/HRV features. Personal thermal perception models using skin temperatures and HR/HRV features.
Eleftherios Bourdakis, Angela Simone & Bjarne W. Olesen. (2018) An experimental study of the effect of different starting room temperatures on occupant comfort in Danish summer weather. Building and Environment 136, pages 269-278.
Crossref
Fan Zhang, Richard de Dear & Christhina Candido. (2016) Thermal comfort during temperature cycles induced by direct load control strategies of peak electricity demand management. Building and Environment 103, pages 9-20.
Crossref
Fan Zhang & Richard de Dear. (2015) Thermal environments and thermal comfort impacts of Direct Load Control air-conditioning strategies in university lecture theatres. Energy and Buildings 86, pages 233-242.
Crossref
Robert F. Szafran, Jerry L. Williams & Jeffery E. Roth. (2012) If Local Weather Was Our Only Indicator. Simulation & Gaming 44:2-3, pages 409-426.
Crossref
L. Schellen, W. D. Van Marken Lichtenbelt, M. G. L. C. Loomans, J. Toftum & M. H. De Wit. (2010) Differences between young adults and elderly in thermal comfort, productivity, and thermal physiology in response to a moderate temperature drift and a steady-state condition. Indoor Air 20:4, pages 273-283.
Crossref
H. Zhang, C. Huizenga, E. Arens & D. Wang. (2004) Thermal sensation and comfort in transient non-uniform thermal environments. European Journal of Applied Physiology 92:6, pages 728-733.
Crossref
Rom Mcguffin, Rick Burke, Charley Huizenga, Zhang Hui, Andreas Vlahinos & George Fu. Human Thermal Comfort Model and Manikin. Human Thermal Comfort Model and Manikin.
Rom Mcguffin. Modeling of Human Thermal Comfort. Modeling of Human Thermal Comfort.
Guy R. Newsham. (1997) Clothing as a thermal comfort moderator and the effect on energy consumption. Energy and Buildings 26:3, pages 283-291.
Crossref
Radu Zmeureanu & Arto Doramajian. (1992) Thermally acceptable temperature drifts can reduce the energy consumption for cooling in office buildings. Building and Environment 27:4, pages 469-481.
Crossref
Max Sherman. (1985) A simplified model of thermal comfort. Energy and Buildings 8:1, pages 37-50.
Crossref
D. Paul Mehta. (2016) Effects of Thermal Insulation On the Dynamics of an Occupied Space in a Building System. Journal of Thermal Insulation 5:2, pages 78-92.
Crossref
D. J. Fisk. (2016) Mean square error as a criterion for temperature control. Building Services Engineering Research and Technology 2:3, pages 127-132.
Crossref
D.A. McIntyre. 1981. Bioengineering, Thermal Physiology and Comfort. Bioengineering, Thermal Physiology and Comfort 195 220 .

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.