TY - JOUR
T1 - Personalized environmental control systems (PECS)
T2 - A systematic review of performance evaluation methods for thermal comfort, air quality and energy
AU - Al-Assaad, Douaa
AU - Pigliautile, Ilaria
AU - Shinoda, Jun
AU - Rawal, Rajan
AU - André, Maíra
AU - Vashi, Siddhi
AU - Rugani, Roberto
AU - Torriani, Giulia
AU - Pasut, Wilmer
AU - Gupta, Akshit
AU - Afshari, Alireza
AU - Kong, Meng
AU - Nabilou, Fatemeh
AU - Rewitz, Kai
AU - Kim, Joyce
AU - Babich, Francesco
AU - Bavaresco, Mateus
AU - Khovalyg, Dolaana
AU - Sekhar, Chandra
AU - Kazanci, Ongun Berk
AU - Cui, Yanghao
AU - Ashrafian, Touraj
AU - Bandurski, Karol
AU - Boudier, Katharina
AU - Chinazzo, Giorgia
AU - Chong, Adrian
AU - Crosby, Sarah
AU - Favero, Matteo
AU - Rupp, Ricardo Forgiarini
AU - Geraldi, Matheus
AU - Vasquez, Natalia Giraldo
AU - Gnecco, Veronica Martins
AU - Hoffmann, Sabine
AU - Jung, Wooyoung
AU - Kim, Chul
AU - Kim, Hyojin
AU - Lee, Jeongseo
AU - Kramer, Tobias
AU - Lamberti, Giulia
AU - Lipczynska, Aleksandra
AU - Martinez-Alcaraz, Pablo
AU - Pisello, Anna Laura
AU - Sonta, Andrew
AU - Sun, Ruiji
AU - Topak, Fatih
AU - Vellei, Marika
AU - Wu, Zhibin
AU - Chen, Xinhao
AU - Zhang, Shiyu
AU - Fan, Xianbing
AU - Wang, Lihui
AU - Liu, Fan
N1 - Publisher Copyright:
© 2025 Elsevier Ltd
PY - 2025/10/1
Y1 - 2025/10/1
N2 - Personalized Environmental Control Systems (PECS) can improve both comfort and energy efficiency by shifting indoor climate control toward localized, occupant-tailored comfort, unlike conventional systems that condition entire, partly unoccupied spaces uniformly. Despite their potential, the absence of standardized assessment and reporting methods, and the diversified PECS technical specifics hinder consistent performance evaluation practices. Conducted in the framework of IEA EBC's Annex 87, this review, based on the PRISMA statement, provides a comprehensive overview of existing methods and indicators used to evaluate the performance of PECS, specifically targeting thermal and air quality domains. A novel three-layered classification approach was applied to categorize PECS types, and reviewed studies were grouped into four methodological categories: building simulation, CFD, chamber, and field studies. The review identifies methods’ usage trends, benefits, and limitations. Among 302 reviewed papers, more than half (61 %) adopt controlled laboratory tests, while CFD is the most used simulation method (68.6 % of simulation studies). Field studies are a minority, highlighting the limited implementation of PECS in real-world scenarios. Simulations are cost effective in rapidly prototyping and developing PECS. However, the insights they provide into PECS performance are limited by either model resolution constraints or high complexity. Comfort evaluations do not consider individual occupant differences nor behavior inherent to PECS. It is through experiments that knowledge can be gained on realistic occupant responses. However, they can be resource intensive and require careful planning. This review provides best practice guidelines to assist researchers in improving quality reporting of their methods.
AB - Personalized Environmental Control Systems (PECS) can improve both comfort and energy efficiency by shifting indoor climate control toward localized, occupant-tailored comfort, unlike conventional systems that condition entire, partly unoccupied spaces uniformly. Despite their potential, the absence of standardized assessment and reporting methods, and the diversified PECS technical specifics hinder consistent performance evaluation practices. Conducted in the framework of IEA EBC's Annex 87, this review, based on the PRISMA statement, provides a comprehensive overview of existing methods and indicators used to evaluate the performance of PECS, specifically targeting thermal and air quality domains. A novel three-layered classification approach was applied to categorize PECS types, and reviewed studies were grouped into four methodological categories: building simulation, CFD, chamber, and field studies. The review identifies methods’ usage trends, benefits, and limitations. Among 302 reviewed papers, more than half (61 %) adopt controlled laboratory tests, while CFD is the most used simulation method (68.6 % of simulation studies). Field studies are a minority, highlighting the limited implementation of PECS in real-world scenarios. Simulations are cost effective in rapidly prototyping and developing PECS. However, the insights they provide into PECS performance are limited by either model resolution constraints or high complexity. Comfort evaluations do not consider individual occupant differences nor behavior inherent to PECS. It is through experiments that knowledge can be gained on realistic occupant responses. However, they can be resource intensive and require careful planning. This review provides best practice guidelines to assist researchers in improving quality reporting of their methods.
KW - Building simulations
KW - Chamber and field studies
KW - Computational fluid dynamics
KW - Personalized environmental control systems (PECS)
UR - https://www.scopus.com/pages/publications/105011829832
UR - https://www.scopus.com/pages/publications/105011829832#tab=citedBy
U2 - 10.1016/j.buildenv.2025.113471
DO - 10.1016/j.buildenv.2025.113471
M3 - Review article
AN - SCOPUS:105011829832
SN - 0360-1323
VL - 284
JO - Building and Environment
JF - Building and Environment
M1 - 113471
ER -