Test rooms to study human comfort in buildings: A review of controlled experiments and facilities

A. L. Pisello; I. Pigliautile; M. Andargie; C. Berger; P. M. Bluyssen; S. Carlucci; G. Chinazzo; Z. Deme Belafi; B. Dong; M. Favero; A. Ghahramani; G. Havenith; A. Heydarian; D. Kastner; M. Kong; D. Licina; Y. Liu; A. Luna-Navarro; A. Mahdavi; A. Nocente; M. Schweiker; M. Touchie; M. Vellei; F. Vittori; A. Wagner; A. Wang; S. Wei

doi:10.1016/j.rser.2021.111359

Test rooms to study human comfort in buildings: A review of controlled experiments and facilities

A. L. Pisello^*, I. Pigliautile, M. Andargie, C. Berger, P. M. Bluyssen, S. Carlucci, G. Chinazzo, Z. Deme Belafi, B. Dong, M. Favero, A. Ghahramani, G. Havenith, A. Heydarian, D. Kastner, M. Kong, D. Licina, Y. Liu, A. Luna-Navarro, A. Mahdavi, A. NocenteM. Schweiker, M. Touchie, M. Vellei, F. Vittori, A. Wagner, A. Wang, S. Wei

^*Corresponding author for this work

Research output: Contribution to journal › Review article › peer-review

49 Scopus citations

Abstract

Occupants’ comfort perception affects building energy consumptions. To improve the understanding of human comfort, which is crucial to reduce energy demand, laboratory experiments with humans in controlled environments (test rooms) are fundamental, but their potential also depends on the characteristic of each research facility. Nowadays, there is no common understanding for definitions, concepts, and procedures related to human comfort studies performed in test rooms. Identifying common features would allow standardising test procedures, reproducing the same experiments in different contexts, and sharing knowledge and test possibilities. This review identifies 187 existing test rooms worldwide: 396 papers were systematically selected, thoroughly reviewed, and analysed in terms of performed experiments and related test room details. The review highlights a rising interest in the topic during the last years, since 46% of related papers has been published between 2016 and 2020. A growing interest in non-thermal sensory domains (such as visual and air quality) and multi-domain studies about occupant's whole comfort emerged from the results. These research trends have entailed a change in the way test rooms are designed, equipped and controlled, progressively becoming more realistic inhabitable environments. Nevertheless, some lacks in comfort investigation are highlighted: some continents (like Africa and South America) and climate zones are found to be underrepresented, while involved subjects are mainly students performing office tasks. This review aspires to guide scientists and professionals toward the improved design or the audit of test room experimental facilities, especially in countries and climate zones where human comfort indoors is under-studied.

Original language	English (US)
Article number	111359
Journal	Renewable and Sustainable Energy Reviews
Volume	149
DOIs	https://doi.org/10.1016/j.rser.2021.111359
State	Published - Oct 2021

Funding

This review was conducted within the framework of IEA-EBC Annex 79. A.L. Pisello and I. Pigliautile thank the Italian Ministry of Research for supporting NEXT.COM (Towards the NEXT generation of multiphysics and multidomain environmental COMfort) project (Prin 2017–20172FSCH4). I. Pigliautile's acknowledgments are due to the European Union's Horizon 2020 program – GEOFIT project (G.A. 792210). M. Vellei's work is supported by the French National Research Agency under the project ANR CLEF (ANR-17-CE22-0005-01). B. Dong, M. Kong and Y.P. Liu's work is supported by U.S. National Science Foundation (Award: #1949372) and Syracuse Centre of Excellence Faculty Fellowship Award. M. Favero and A. Nocente would like to thank the Research Centre on Zero Emission Neighborhoods in Smart Cities (FME ZEN, Grant n. 257660) and the Research Council of Norway (Norges Forskingsrådet) for the support. M. Schweiker is supported by a research grant (21055) from VILLUM FONDEN. Z. Deme Bélafi has been supported by the NRDI Fund (TKP2020 IES, Grant No. BME-IE-MISC) based on the charter of bolster issued by the NRDI Office under the auspices of the Ministry for Innovation and Technology within the framework of project (no. K 128199) with the support provided from the National Research, Development and Innovation Fund of Hungary, financed under the K_18 funding scheme. A. Wagner's related work is funded by the German Ministry for Economic Affairs and Energy through various projects. This review was conducted within the framework of IEA-EBC Annex 79. A.L. Pisello and I. Pigliautile thank the Italian Ministry of Research for supporting NEXT.COM (Towards the NEXT generation of multiphysics and multidomain environmental COMfort) project (Prin 2017–20172FSCH4). I. Pigliautile's acknowledgments are due to the European Union's Horizon 2020 program – GEOFIT project (G.A. 792210). M. Vellei's work is supported by the French National Research Agency under the project ANR CLEF ( ANR-17-CE22-0005-01 ). B. Dong, M. Kong and Y.P. Liu's work is supported by U.S. National Science Foundation (Award: #1949372) and Syracuse Centre of Excellence Faculty Fellowship Award. M. Favero and A. Nocente would like to thank the Research Centre on Zero Emission Neighborhoods in Smart Cities (FME ZEN, Grant n. 257660) and the Research Council of Norway (Norges Forskingsrådet) for the support. M. Schweiker is supported by a research grant (21055) from VILLUM FONDEN. Z. Deme Bélafi has been supported by the NRDI Fund (TKP2020 IES, Grant No. BME-IE-MISC) based on the charter of bolster issued by the NRDI Office under the auspices of the Ministry for Innovation and Technology within the framework of project (no. K 128199) with the support provided from the National Research, Development and Innovation Fund of Hungary, financed under the K_18 funding scheme. A. Wagner's related work is funded by the German Ministry for Economic Affairs and Energy through various projects.

Keywords

Acoustic comfort
Climate chamber
Energy performance
Human comfort
Human-centric experiments
Indoor air quality
Indoor environmental quality
Laboratory
Multi-domain comfort
Test room
Thermal comfort
Visual comfort

ASJC Scopus subject areas

Renewable Energy, Sustainability and the Environment

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1016/j.rser.2021.111359

Cite this

Pisello, A. L., Pigliautile, I., Andargie, M., Berger, C., Bluyssen, P. M., Carlucci, S., Chinazzo, G., Deme Belafi, Z., Dong, B., Favero, M., Ghahramani, A., Havenith, G., Heydarian, A., Kastner, D., Kong, M., Licina, D., Liu, Y., Luna-Navarro, A., Mahdavi, A., ... Wei, S. (2021). Test rooms to study human comfort in buildings: A review of controlled experiments and facilities. Renewable and Sustainable Energy Reviews, 149, Article 111359. https://doi.org/10.1016/j.rser.2021.111359

@article{73b5f11bec874a4d8f84bc2ded6ea81e,

title = "Test rooms to study human comfort in buildings: A review of controlled experiments and facilities",

abstract = "Occupants{\textquoteright} comfort perception affects building energy consumptions. To improve the understanding of human comfort, which is crucial to reduce energy demand, laboratory experiments with humans in controlled environments (test rooms) are fundamental, but their potential also depends on the characteristic of each research facility. Nowadays, there is no common understanding for definitions, concepts, and procedures related to human comfort studies performed in test rooms. Identifying common features would allow standardising test procedures, reproducing the same experiments in different contexts, and sharing knowledge and test possibilities. This review identifies 187 existing test rooms worldwide: 396 papers were systematically selected, thoroughly reviewed, and analysed in terms of performed experiments and related test room details. The review highlights a rising interest in the topic during the last years, since 46% of related papers has been published between 2016 and 2020. A growing interest in non-thermal sensory domains (such as visual and air quality) and multi-domain studies about occupant's whole comfort emerged from the results. These research trends have entailed a change in the way test rooms are designed, equipped and controlled, progressively becoming more realistic inhabitable environments. Nevertheless, some lacks in comfort investigation are highlighted: some continents (like Africa and South America) and climate zones are found to be underrepresented, while involved subjects are mainly students performing office tasks. This review aspires to guide scientists and professionals toward the improved design or the audit of test room experimental facilities, especially in countries and climate zones where human comfort indoors is under-studied.",

keywords = "Acoustic comfort, Climate chamber, Energy performance, Human comfort, Human-centric experiments, Indoor air quality, Indoor environmental quality, Laboratory, Multi-domain comfort, Test room, Thermal comfort, Visual comfort",

author = "Pisello, {A. L.} and I. Pigliautile and M. Andargie and C. Berger and Bluyssen, {P. M.} and S. Carlucci and G. Chinazzo and {Deme Belafi}, Z. and B. Dong and M. Favero and A. Ghahramani and G. Havenith and A. Heydarian and D. Kastner and M. Kong and D. Licina and Y. Liu and A. Luna-Navarro and A. Mahdavi and A. Nocente and M. Schweiker and M. Touchie and M. Vellei and F. Vittori and A. Wagner and A. Wang and S. Wei",

note = "Publisher Copyright: {\textcopyright} 2021",

year = "2021",

month = oct,

doi = "10.1016/j.rser.2021.111359",

language = "English (US)",

volume = "149",

journal = "Renewable and Sustainable Energy Reviews",

issn = "1364-0321",

publisher = "Elsevier Ltd",

}

Pisello, AL, Pigliautile, I, Andargie, M, Berger, C, Bluyssen, PM, Carlucci, S, Chinazzo, G, Deme Belafi, Z, Dong, B, Favero, M, Ghahramani, A, Havenith, G, Heydarian, A, Kastner, D, Kong, M, Licina, D, Liu, Y, Luna-Navarro, A, Mahdavi, A, Nocente, A, Schweiker, M, Touchie, M, Vellei, M, Vittori, F, Wagner, A, Wang, A & Wei, S 2021, 'Test rooms to study human comfort in buildings: A review of controlled experiments and facilities', Renewable and Sustainable Energy Reviews, vol. 149, 111359. https://doi.org/10.1016/j.rser.2021.111359

TY - JOUR

T1 - Test rooms to study human comfort in buildings

T2 - A review of controlled experiments and facilities

AU - Pisello, A. L.

AU - Pigliautile, I.

AU - Andargie, M.

AU - Berger, C.

AU - Bluyssen, P. M.

AU - Carlucci, S.

AU - Chinazzo, G.

AU - Deme Belafi, Z.

AU - Dong, B.

AU - Favero, M.

AU - Ghahramani, A.

AU - Havenith, G.

AU - Heydarian, A.

AU - Kastner, D.

AU - Kong, M.

AU - Licina, D.

AU - Liu, Y.

AU - Luna-Navarro, A.

AU - Mahdavi, A.

AU - Nocente, A.

AU - Schweiker, M.

AU - Touchie, M.

AU - Vellei, M.

AU - Vittori, F.

AU - Wagner, A.

AU - Wang, A.

AU - Wei, S.

PY - 2021/10

Y1 - 2021/10

N2 - Occupants’ comfort perception affects building energy consumptions. To improve the understanding of human comfort, which is crucial to reduce energy demand, laboratory experiments with humans in controlled environments (test rooms) are fundamental, but their potential also depends on the characteristic of each research facility. Nowadays, there is no common understanding for definitions, concepts, and procedures related to human comfort studies performed in test rooms. Identifying common features would allow standardising test procedures, reproducing the same experiments in different contexts, and sharing knowledge and test possibilities. This review identifies 187 existing test rooms worldwide: 396 papers were systematically selected, thoroughly reviewed, and analysed in terms of performed experiments and related test room details. The review highlights a rising interest in the topic during the last years, since 46% of related papers has been published between 2016 and 2020. A growing interest in non-thermal sensory domains (such as visual and air quality) and multi-domain studies about occupant's whole comfort emerged from the results. These research trends have entailed a change in the way test rooms are designed, equipped and controlled, progressively becoming more realistic inhabitable environments. Nevertheless, some lacks in comfort investigation are highlighted: some continents (like Africa and South America) and climate zones are found to be underrepresented, while involved subjects are mainly students performing office tasks. This review aspires to guide scientists and professionals toward the improved design or the audit of test room experimental facilities, especially in countries and climate zones where human comfort indoors is under-studied.

AB - Occupants’ comfort perception affects building energy consumptions. To improve the understanding of human comfort, which is crucial to reduce energy demand, laboratory experiments with humans in controlled environments (test rooms) are fundamental, but their potential also depends on the characteristic of each research facility. Nowadays, there is no common understanding for definitions, concepts, and procedures related to human comfort studies performed in test rooms. Identifying common features would allow standardising test procedures, reproducing the same experiments in different contexts, and sharing knowledge and test possibilities. This review identifies 187 existing test rooms worldwide: 396 papers were systematically selected, thoroughly reviewed, and analysed in terms of performed experiments and related test room details. The review highlights a rising interest in the topic during the last years, since 46% of related papers has been published between 2016 and 2020. A growing interest in non-thermal sensory domains (such as visual and air quality) and multi-domain studies about occupant's whole comfort emerged from the results. These research trends have entailed a change in the way test rooms are designed, equipped and controlled, progressively becoming more realistic inhabitable environments. Nevertheless, some lacks in comfort investigation are highlighted: some continents (like Africa and South America) and climate zones are found to be underrepresented, while involved subjects are mainly students performing office tasks. This review aspires to guide scientists and professionals toward the improved design or the audit of test room experimental facilities, especially in countries and climate zones where human comfort indoors is under-studied.

KW - Acoustic comfort

KW - Climate chamber

KW - Energy performance

KW - Human comfort

KW - Human-centric experiments

KW - Indoor air quality

KW - Indoor environmental quality

KW - Laboratory

KW - Multi-domain comfort

KW - Test room

KW - Thermal comfort

KW - Visual comfort

UR - http://www.scopus.com/inward/record.url?scp=85109201104&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=85109201104&partnerID=8YFLogxK

U2 - 10.1016/j.rser.2021.111359

DO - 10.1016/j.rser.2021.111359

M3 - Review article

AN - SCOPUS:85109201104

SN - 1364-0321

VL - 149

JO - Renewable and Sustainable Energy Reviews

JF - Renewable and Sustainable Energy Reviews

M1 - 111359

ER -

Test rooms to study human comfort in buildings: A review of controlled experiments and facilities

Abstract

Funding

Keywords

ASJC Scopus subject areas

UN SDGs

Access to Document

Other files and links

Fingerprint

Cite this