0000000000330758

AUTHOR

Adolfo Palombo

0000-0003-2469-0897

showing 2 related works from this author

Supporting the Sustainable Energy Transition in the Canary Islands: Simulation and Optimization of Multiple Energy System Layouts and Economic Scenar…

2021

The Canary Islands have great potential for the implementation of sustainable energy systems due to its availability of natural resources. The archipelago is not connected to the mainland electricity grid and the current generation system is mainly based on traditional fossil fuel. Therefore, the islands strongly dependent on fuel importations, with high costs due to logistics. Furthermore, due to the inadequate coverage of residential heating and cooling needs, the per capita energy consumption is far below the Spanish national average. This occurrence has inspired an intense debate on the current development model of the Canary Archipelago, which has led to the implementation of actions a…

Science (General)renewable technologies020209 energyPopulationTime horizon02 engineering and technologyTRNSYSsustainable energy transitionQ1-390020401 chemical engineeringsustainable energy transition renewable technologies sustainability in Canary Islands modeling and simulation multiple scenarios multi-objective optimizationmodeling and simulation0202 electrical engineering electronic engineering information engineeringEnergy supply0204 chemical engineeringeducationH1-99education.field_of_studyWind powermultiple scenariosbusiness.industryEnvironmental impact of the energy industryEnergy consumptionEnvironmental economicssustainability in Canary IslandsRenewable energySocial sciences (General)multi-objective optimizationEnvironmental sciencebusinessFrontiers in Sustainable Cities
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Buildings integrated phase change materials: Modelling and validation of a novel tool for the energy performance analysis

2017

In this paper a novel dynamic energy performance simulation model for the Phase Change Materials (PCM) analysis is presented. The model is implemented in a suitable computer code, written in MatLab and called DETECt, for complete building energy analyses. In the presented model, the “effective specific heat” method is implemented. Here, the specific heat of each PCM layer changes as a function of the system phase and temperature in both melting and freezing processes. A model validation is carried out by comparing numerical results vs. measurements obtained at Solar Laboratory of Concordia University (Montreal, Canada). The simulation model allows exploring the potential of PCMs to increase…

PCMPhase change materials energy efficiency MatLab simulationSimulation ModelPhase Change MaterialMatLab
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