ARCOM

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Antonini, E, Boeri, A and Giglio, F (2022) Classification criteria and markers for biomimetic building envelope within circular economy principles: a critical review. Architectural Engineering and Design Management, 18(04), 387–409.

Di Ruocco, G, Melella, R and Marino, V (2022) An integrated assessment method for the sustainability of the opaque building envelope in residential buildings with Italian GBC-HOME certification. Architectural Engineering and Design Management, 18(04), 545–70.

Ismaeel, W S (2022) Sustainable site selection using system dynamics; case study LEED-certified project. Architectural Engineering and Design Management, 18(04), 368–86.

Kohansal, M E, Akaf, H R, Gholami, J and Moshari, S (2022) Investigating the simultaneous effects of building orientation and thermal insulation on heating and cooling loads in different climate zones. Architectural Engineering and Design Management, 18(04), 410–33.

Nigra, M, Lo Verso, V R M, Robiglio, M, Pellegrino, A and Martina, M (2022) ‘Re-coding’ environmental regulation – a new simplified metric for daylighting verification during the window and indoor space design process. Architectural Engineering and Design Management, 18(04), 521–44.

Sibilla, M and Manfren, M (2022) Envisioning Building-as-Energy-Service in the European context. From a literature review to a conceptual framework. Architectural Engineering and Design Management, 18(04), 495–520.

• Type: Journal Article
• Keywords: Energy transition; socio-technical approach; positive energy building; building sector; Buildings-as-Energy-Service;
• ISBN/ISSN: 1745-2007
• URL: https://doi.org/10.1080/17452007.2021.1910924
• Abstract:
  Positive Energy Buildings (PEBs) represent an emerging paradigm for high performance in the building sector. This paradigm focuses on the possibility of exploiting the interaction between individual NZEBs and smart Smart Grids, using energy surplus exchange. Acknowledging this technical potential, building sector should re-think the role of individual buildings as nodes of intelligent energy infrastructures with large penetration of distributed renewable energy resources. This requires a better understanding of the emerging properties related to PEBs and an organisation of new alliances across sectors in order to put PEBs nets into practice. However, there is no evidence of a comprehensive socio-technical framework concerning PEBs nets working at scale. This paper aims to fill this gap. Through a literature review, based on Constructive Grounded Theory Method, it proposes a new conceptual framework focused on Buildings-as-Energy-Service as a key enabler for creating PEBs nets. Research findings are organised according to four integrated lines of research, which describe: the trajectory towards PEBs nets; the management of new alliances across sectors; the definition of an ecosystem of applications for PEBs; and, the socio-technical implications in putting PBEs into practice. These research lines may contribute to re-inventing the role of the building sector in delivering tailor-made products and services for a low carbon society. Thus, academic and non-academic stakeholders in the fields of Architecture, Engineering, Construction, and Planning might find this conceptual framework useful, as it summarises significant potential interactions among these sectors, emerging from recent studies. Highlights A conceptual framework is proposed as a key enabler for creating PEBs nets. New peculiarities offered by PEBs nets are conceptualised The importance of re-thinking buildings as active nodes in infrastructures is motivated. Knowledge fragmentation is recomposed to reshape building sector alliances. Exploratory research, based on the Constructive Grounded Theory method, is conducted.

Spentzou, E, Cook, M J and Emmitt, S (2022) Low-energy cooling and ventilation refurbishments for buildings in a Mediterranean climate. Architectural Engineering and Design Management, 18(04), 473–94.

Tonini de Araújo, M, de Souza, H A and Gomes, A P (2022) Computer simulation of moisture transfer in walls: impacts on the thermal performance of buildings. Architectural Engineering and Design Management, 18(04), 453–72.

Watchman, M, Demers, C M H and Potvin, A (2022) Biophilia in school buildings: towards a simplified assessment method based on spatial geometry. Architectural Engineering and Design Management, 18(04), 434–52.