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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.
antoni.fonseca@necada.com
Ph. D. Pau Fonseca i CasasInLab FIB, Head of Environmental Simulation
pau@fib.upc.edu
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