Browsing by Author "Macías, Olga"
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Item Analysis of building energy upgrade technologies for implementing the dual energy efficiency and demand response scheme for non-residential buildings(2019-09) Macías, Olga; Noyé, Sarah; Tellado, Nagore; Torrens, Ignacio; de Agustin-Camacho, Pablo; Tsagkrasoulis, Dimosthenis; Bucur, Mircea; Southernwood, Jo; Tecnalia Research & InnovationThe continuous growth of renewable energy and the transition to a more de-centralised electricity generation adds significant complexity to balance power supply and demand in the grid. These imbalances are partially compensated by demand response programs, which represent a new business opportunity in the building sector, especially for ESCOs. Including demand response to their traditional energy efficiency-based business model adds an additional revenue stream that could potentially shorten payback periods of energy renovation projects. This paper introduces this new dual-services business model, and evaluates the potential suitability of HVAC, generation and storage technologies to ensure proposed energy efficiency and flexibility goals.Item SOLUTIONS FOR DIGITISATION AND PREFABRICATION IN THE ENERGY REFURBISHMENT OF BUILDINGS(2020-02) Tellado-Laraudogoitia, Nagore; Lasarte, Natalia; Macías, Olga; Iturralde, Kepa; Bock, Thomas; Sebesi, Yvon; Tecnalia Research & Innovation; E&I SEGURAS Y RESILIENTES; EDIFICACIÓN DE ENERGÍA POSITIVAThe objective of this study is to evaluate the practical application of a digital process for the buildings’ energy rehabilitation using prefabricated modules. The literature is extensive in this aspect, numerous technologies are mentioned for the digitalization of buildings’ rehabilitation process (BIM, laser scanner, drones, etc.), and there are also many prefabricated products for rehabilitation, but its introduction in the market is still very limited. This is due in part to the uncertainty in its practical application, and the difficulties that may entail changing processes, digitizing them, and integrating innovations in a sector as conservative as construction. Within BERTIM project, prefabricated wooden modules that integrate both carpentry and HVAC distribution networks and a methodology for the energy rehabilitation of buildings through a digitalized process have been developed. These developments have been implemented in two buildings which has allowed to identify the main barriers and difficulties that construction companies encounter in the execution. The main difficulties are: i) the method of capturing building data for the generation of its BIM model, ii) the integration of the HVAC distribution networks into the modules iii) the installation procedure of the modules on the existing building façade so that minimum execution times are ensured even in façades with many deviations and a large lack of verticality. This study addresses these difficulties and proposes practical solutions that will allow industrials to implement digital processes and will foster the use of prefabricated modules in the buildings’ energy rehabilitation.