Chandra Sekhar
Title
Cited by
Cited by
Year
How can airborne transmission of COVID-19 indoors be minimised?
L Morawska, JW Tang, W Bahnfleth, PM Bluyssen, A Boerstra, ...
Environment international 142, 105832, 2020
5702020
Progress in thermal comfort research over the last twenty years
RJ de Dear, T Akimoto, EA Arens, G Brager, C Candido, KWD Cheong, ...
Indoor air 23 (6), 442-461, 2013
4032013
Airflow dynamics of human jets: sneezing and breathing-potential sources of infectious aerosols
JW Tang, AD Nicolle, CA Klettner, J Pantelic, L Wang, AB Suhaimi, ...
PloS one 8 (4), e59970, 2013
2072013
Thermal comfort study of an air-conditioned lecture theatre in the tropics
KWD Cheong, E Djunaedy, YL Chua, KW Tham, SC Sekhar, NH Wong, ...
Building and environment 38 (1), 63-73, 2003
1532003
Development of the ASHRAE global thermal comfort database II
VF Ličina, T Cheung, H Zhang, R De Dear, T Parkinson, E Arens, C Chun, ...
Building and Environment 142, 502-512, 2018
1482018
A comparative study of VOCs in Singapore and European office buildings
MS Zuraimi, CA Roulet, KW Tham, SC Sekhar, KWD Cheong, NH Wong, ...
Building and environment 41 (3), 316-329, 2006
1212006
Energy analysis of the personalized ventilation system in hot and humid climates
S Schiavon, AK Melikov, C Sekhar
Energy and buildings 42 (5), 699-707, 2010
1202010
Dismantling myths on the airborne transmission of severe acute respiratory syndrome coronavirus (SARS-CoV-2)
JW Tang, WP Bahnfleth, PM Bluyssen, G Buonanno, JL Jimenez, ...
Journal of Hospital Infection, 2021
1102021
Findings of personalized ventilation studies in a hot and humid climate
SC Sekhar, N Gong, KW Tham, KW Cheong, AK Melikov, DP Wyon, ...
HVAC&R Research 11 (4), 603-620, 2005
1082005
Experimental investigation of the human convective boundary layer in a quiescent indoor environment
D Licina, J Pantelic, A Melikov, C Sekhar, KW Tham
Building and Environment 75, 79-91, 2014
1032014
Thermal comfort and IAQ assessment of under-floor air distribution system integrated with personalized ventilation in hot and humid climate
R Li, SC Sekhar, AK Melikov
Building and Environment 45 (9), 1906-1913, 2010
1002010
The acceptable air velocity range for local air movement in the tropics
N Gong, KW Tham, AK Melikov, DP Wyon, SC Sekhar, KW Cheong
Hvac&r Research 12 (4), 1065-1076, 2006
982006
k-Shape clustering algorithm for building energy usage patterns analysis and forecasting model accuracy improvement
J Yang, C Ning, C Deb, F Zhang, D Cheong, SE Lee, C Sekhar, KW Tham
Energy and Buildings 146, 27-37, 2017
962017
On the study of energy performance and life cycle cost of smart window
SC Sekhar, KLC Toon
Energy and Buildings 28 (3), 307-316, 1998
941998
Higher space temperatures and better thermal comfort—a tropical analysis
SC Sekhar
Energy and Buildings 23 (1), 63-70, 1995
891995
Measurements and computations of contaminant's distribution in an office environment
KWD Cheong, E Djunaedy, TK Poh, KW Tham, SC Sekhar, NH Wong, ...
Building and Environment 38 (1), 135-145, 2003
872003
Thermal comfort and IAQ characteristics of naturally/mechanically ventilated and air-conditioned bedrooms in a hot and humid climate
SC Sekhar, SE Goh
Building and Environment 46 (10), 1905-1916, 2011
822011
Thermal comfort in air‐conditioned buildings in hot and humid climates–why are we not getting it right?
SC Sekhar
Indoor air 26 (1), 138-152, 2016
812016
Ceiling mounted personalized ventilation system in hot and humid climate—An energy analysis
B Yang, C Sekhar, AK Melikov
Energy and Buildings 42 (12), 2304-2308, 2010
812010
Indoor air quality and energy performance of air-conditioned office buildings in Singapore
SC Sekhar, KW Tham, KW Cheong
Indoor air 13 (4), 315-331, 2003
782003
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