In this presentation the energy design and the optimization of a non-residential NZEB conceived for Mediterranean climates are discussed. The presented NZEB will be built up in Naples (South-Italy). The building will include offices, expo spaces and a conference room. Different innovative energy efficiency strategies, regarding the building envelope and plants are taken into account. Their benefit in terms of energy performance is assessed by a novel in-house developed building energy performance simulation code (DETECt 2.2) written in MatLab. An optimization procedure and a sensitivity analysis of the pivotal design and operating parameters are carried out from both the energy and economic points of view. The obtained numerical results show that interesting energy and economic savings can be achieved. Results can be useful for stakeholders working on non-residential NZEBs in temperate climates.
Modelling PCM, BIPV/T and other innovative technologies for energy efficiency in buildings: a case study / Buonomano, Annamaria; Palombo, Adolfo. - (2015). (Intervento presentato al convegno Smart Net Zero Resilient Buildings and Communities - CZEBS-iiSBE-APEC Net Zero Built Environment 2015 Symposium tenutosi a Concordia University, Montreal, Quebec, CANADA nel August 20-21, 2015).
Modelling PCM, BIPV/T and other innovative technologies for energy efficiency in buildings: a case study
BUONOMANO, ANNAMARIA;PALOMBO, ADOLFO
2015
Abstract
In this presentation the energy design and the optimization of a non-residential NZEB conceived for Mediterranean climates are discussed. The presented NZEB will be built up in Naples (South-Italy). The building will include offices, expo spaces and a conference room. Different innovative energy efficiency strategies, regarding the building envelope and plants are taken into account. Their benefit in terms of energy performance is assessed by a novel in-house developed building energy performance simulation code (DETECt 2.2) written in MatLab. An optimization procedure and a sensitivity analysis of the pivotal design and operating parameters are carried out from both the energy and economic points of view. The obtained numerical results show that interesting energy and economic savings can be achieved. Results can be useful for stakeholders working on non-residential NZEBs in temperate climates.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.