CO2 Emissions Reduction Potential with Novel Energy Renovation Technologies in English and Spanish Climate Conditions

Yangmin Wang; Janne Hirvonen; Ke Qu; Maria Pappa; Sofia Papadopoulou; Constantinos Tsoutis; Stamatis Diakakis; Joaquín García Álvarez; Juha Jokisalo; Risto Kosonen

doi:10.5334/fce.187

Future Cities and Environment (Mar 2024)

CO2 Emissions Reduction Potential with Novel Energy Renovation Technologies in English and Spanish Climate Conditions

Yangmin Wang,
Janne Hirvonen,
Ke Qu,
Maria Pappa,
Sofia Papadopoulou,
Constantinos Tsoutis,
Stamatis Diakakis,
Joaquín García Álvarez,
Juha Jokisalo,
Risto Kosonen

Affiliations

Yangmin Wang: ORCiD; Department of Mechanical Engineering, Aalto University
Janne Hirvonen: ORCiD; Department of Mechanical Engineering, Aalto University; Department of Civil Engineering, Tampere University
Ke Qu: Department of Architecture and Built Environment, University of Nottingham
Maria Pappa: R&D department of AMS, Advanced Management Solutions Ltd.
Sofia Papadopoulou: R&D department of AMS, Advanced Management Solutions Ltd.
Constantinos Tsoutis: R&D department of AMS, Advanced Management Solutions Ltd.
Stamatis Diakakis: R&D department of AMS, Advanced Management Solutions Ltd.
Joaquín García Álvarez: Área de Turismo, Cultura y Patrimonio, Fundación Santa María la Real del Patrimonio Histórico
Juha Jokisalo: ORCiD; Department of Mechanical Engineering, Aalto University, FI; FinEst Centre for Smart Cities, TalTech
Risto Kosonen: ORCiD; Department of Mechanical Engineering, Aalto University, FI; FinEst Centre for Smart Cities, TalTech, EE; College of Urban Construction, Nanjing Tech University

DOI: https://doi.org/10.5334/fce.187
Journal volume & issue: Vol. 10
pp. 4 – 4

Abstract

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As the building sector acts as an important CO2 emissions source, it is essential to renovate the existing building stock for carbon neutrality in the EU. The study reveals the effects of several novel renovation technologies on building energy consumption and CO2 emissions through building simulations. An English semi-detached house and a Spanish terraced house were chosen as the simulated demo houses. Renovation technologies were divided into passive, ventilation, and generation packages and simulated by packages and final combinations. Insulating breath membrane and bio-aerogel thermal insulation are the most appropriate single technology for lowering CO2 emissions for the English and Spanish demo houses, respectively. For generation technologies, solar assisted heat pump is a more recommended CO2 emissions conservation technology than PVT system in both climate conditions. The demo houses’ CO2 emissions can be reduced maximally by over 70% after renovating with the final combination including solar assisted heat pump. The current economic feasibility of the novel technologies is limited by various issues, for example, manufacturing costs and energy prices. Nevertheless, considering most of the issues can be solved with time, they will be economically feasible renovation measures in the future.

Published in Future Cities and Environment

ISSN: 2363-9075 (Online)
Publisher: Ubiquity Press
Country of publisher: United Kingdom
LCC subjects: Fine Arts: Architecture: Aesthetics of cities. City planning and beautifying; Social Sciences: Communities. Classes. Races: Urban groups. The city. Urban sociology
Website: https://futurecitiesandenvironment.com

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