barcelona global energy challenges 2015
TRANSCRIPT
Optimization Software for Sustainability
Environmental, economic and social
impacts with international rules around LCA
Cloud computing
Cradle to cradle
Extraction of raw materials
Transportation
Manufacturing
Distribution
Use
Reuse / recycling
Model based on a formal language: behavior
Fonseca i Casas, P., Fonseca i Casas, A., Garrido-Soriano, N., & Casanovas, J. (2014). Formal simulation model to optimize building sustainability. Advances in Engineering Software, 69, 62–74. doi:10.1016/j.advengsoft.2013.12.009
Model based on a formal language:Co-simulation
Fonseca i Casas, P., Fonseca i Casas, A., Garrido-Soriano, N., & Casanovas, J. (2014). Formal simulation model to optimize building sustainability. Advances in Engineering Software, 69, 62–74. doi:10.1016/j.advengsoft.2013.12.009
Validation Verification and Accreditation
Sargent, R. (2009). Verification and validation of simulation models. In M. D. Rossetti, R. R. Hill, B. Johansson, A. Dunkin, & R. G. Ingalls (Eds.), Proceedings of the 2009 Winter Simulation Conference (WSC) (Vol. 37, pp. 66–66). doi:10.1109/EMR.2009.5235461
• Optimization of energy efficiency for buildings based on thousand of simulation.
• combined with the environmental, economic and social impacts according to European standard CEN / TC 350.
• Analysis of the four building phases (design - build – use - deconstruction) and the subsequent treatment of waste and compensation for the generated impacts.
• Allows you to have full control of the life cycle analysis of the model of study (cycle of life analysis).
• The use of a formal language (SDL) and modular in a multidisciplinary team.
• It simplifies the definition and implementation of the model and the co-simulation.
Main innovations
RUNS ONPC – CLUSTER– CLOUD – SUPERCOMPUTER (MARENOSTRUM)
Antoni Fonseca i CasasPhD Student UPC - Architect and Eng.
Ph. D. Pau Fonseca i CasasInLab FIB, Head of Environmental Simulation