Asistant Professor (University of Lisbon, FCUL, DEGGE)
Research fiels: Building Energy Systems, Natural Ventilation, Building Thermal Simulation
Validation of EnergyPlus thermal simulation of a double skin naturally and mechanically ventilated test cell.
Nuno M. Mateus, Armando Pinto, Guilherme Carrilho da Graça. Energy and Buildings, Vol. 75, June 2014.
Building Energy Demand Response Simulation for an Office Tower in New York
MM Lerer, GC da Graca, PF Linden. Proceedings of BSIM 2013.
Thermal and Airflow Simulation of the Gulbenkian Great Hall
Nuno Mateus, G. Carrilho da Graça. Proceedings of BSIM 2013.
Thermal and Airflow Simulation of a Naturally Ventilated Shopping Mall.
G. Carrilho da Graça, C. Horta, N. Martins. Energy and Buildings, 2012, 10.1016/j.enbuild.2012.03.037.
Solar powered net zero energy houses for southern Europe: Feasibility study.
G. Carrilho da Graça, A. Augusto, M. Lerer. Solar Energy, 86.1, 2012.
Design and testing of a control strategy for a large, naturally ventilated office building.
G. Carrilho da Graça, P. F. Linden, P. Haves. BSERT Journal, 25 (3), p.223-240, 2004. 08 / 2004.
Use of simulation in the design of a large naturally ventilated commercial office building.
P. Haves, G. Carrilho da Graça, P. F. Linden. BSERT Journal, 25 (3), p.211-222, 2004. 08 / 2004.
Use of simulation in the design of the climate control system for a concert hall.+
G. Carrilho da Graça, M. Boucinha, I. Sarmento, Proceedings of RoomVent 2004, Setembro de 2004.
Simplified modeling of cross-ventilation airflow.
G. Carrilho da Graça, P. F. Linden. ASHRAE Transactions, Volume 109, 1, 2003.
Simulation of wind-driven ventilative cooling systems for an apartment building in Beijing/Shanghai.
G. Carrilho da Graça, Q. Chen, L.R. Gliksman, L. K. Norford. Energy and Buildings, Vol. 34, 1-11. 07 / 2001.