Zonal modeling for simulating indoor environment of buildings: Review, recent developments, and applications AC Megri, F Haghighat Hvac&R Research 13 (6), 887-905, 2007 | 196 | 2007 |
Development and validation of a zonal model—POMA F Haghighat, Y Li, AC Megri Building and environment 36 (9), 1039-1047, 2001 | 145 | 2001 |
A comprehensive validation of two airflow models—COMIS and CONTAM F Haghighat, AC Megri Indoor air 6 (4), 278-288, 1996 | 115 | 1996 |
Measurement of thermal comfort and indoor air quality aboard 43 flights on commercial airlines F Haghighat, F Allard, AC Megri, P Blondeau, R Shimotakahara Indoor and Built Environment 8 (1), 58-66, 1999 | 80 | 1999 |
Prediction of the thermal comfort indices using improved support vector machine classifiers and nonlinear kernel functions AC Megri, I El Naqa Indoor and Built Environment 25 (1), 6-16, 2016 | 44 | 2016 |
Advanced Manufacturing Online STEM Education Pipeline for Early-College and High School Students AC Megri, S Hamoush, IZ Megri, Y Yu Journal of Online Engineering Education 12 (2), 01-06, 2021 | 36 | 2021 |
Building zonal thermal and airflow modelling-A review AC Megri, M Snyder, M Musy International journal of ventilation 4 (2), 177-188, 2005 | 35 | 2005 |
A learning machine approach for predicting thermal comfort indices AC Megri, IE Naqa, F Haghighat International journal of ventilation 3 (4), 363-376, 2005 | 31 | 2005 |
A review of the development of airflow models used in building load calculation and energy simulation Y Yu, AC Megri, S Jiang Building Simulation 12, 347-363, 2019 | 30 | 2019 |
New calibrated zonal model (POMA+) for temperature and airflow predictions AC Megri, Y Yu Building and Environment 94, 109-121, 2015 | 24 | 2015 |
An integrated fuzzy support vector regression and the particle swarm optimization algorithm to predict indoor thermal comfort F Megri, AC Megri, R Djabri Indoor and Built Environment 25 (8), 1248-1258, 2016 | 17 | 2016 |
Using plastic waste as thermal insulation for the slab-on-grade floor and basement of a building AC Megri, G Achard, F Haghighat Building and environment 33 (2-3), 97-104, 1998 | 17 | 1998 |
Building load and energy simulation programs and the design process AC Megri International Journal of Ventilation 6 (2), 177-192, 2007 | 15 | 2007 |
Zonal model—a new generation of combined airflow and thermal model Y Lin, AC Megri, F Haghighat Proceedings of Indoor Air 99, 1999 | 11 | 1999 |
Responses of disabled, temporarily ill and elderly persons to thermal environments. F Haghighat, AC Megri, G Donnini | 9 | 2000 |
Study of residential underfloor air distribution (UFAD) systems using a new modelling approach AC Megri, Y Yu Indoor and Built Environment 26 (1), 5-20, 2017 | 8 | 2017 |
Teaching high-rise plumbing design for engineers AC Megri 2011 ASEE Annual Conference & Exposition, 22.1395. 1-22.1395. 19, 2011 | 8 | 2011 |
A novel method for thermostat set point prediction for energy savings and/or better human thermal comfort-a zonal modelling approach Y Yu, C Megri International Journal of Ventilation 13 (3), 299-318, 2014 | 7 | 2014 |
A novel pressurized zonal model using the momentum equation Y Yu, AC Megri American Journal of Engineering and Applied Sciences 7 (1), 77-87, 2014 | 7 | 2014 |
Air flow modeling in multizone buildings equipped with a ventilation system. Prediction of pollutant transport AC Megri published in French. Ph. D. thesis 303, 1993 | 7 | 1993 |