Energy consumption prospective scenarios application on a land use mix - A case study of the Wallonia building stock in Belgium

Nishimwe, Antoinette; Reiter, Sigrid

doi:10.1016/j.scs.2023.104724

Article (Scientific journals)

Energy consumption prospective scenarios application on a land use mix - A case study of the Wallonia building stock in Belgium

Nishimwe, Antoinette; Reiter, Sigrid

2023 • In Sustainable Cities and Society, 97, p. 104724

Peer Reviewed verified by ORBi

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https://hdl.handle.net/2268/304707

DOI
10.1016/j.scs.2023.104724

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Keywords :

Transportation; Renewable Energy, Sustainability and the Environment; Civil and Structural Engineering; Geography, Planning and Development

Disciplines :

Energy
Architecture
Civil engineering
Earth sciences & physical geography

Author, co-author :

Nishimwe, Antoinette ; Université de Liège - ULiège > Urban and Environmental Engineering

Reiter, Sigrid ; Université de Liège - ULiège > Département ArGEnCo > Urbanisme et aménagement du territoire

Language :

English

Title :

Energy consumption prospective scenarios application on a land use mix - A case study of the Wallonia building stock in Belgium

Publication date :

October 2023

Journal title :

Sustainable Cities and Society

ISSN :

2210-6707

eISSN :

2210-6715

Publisher :

Elsevier BV

Volume :

Pages :

104724

Peer reviewed :

Peer Reviewed verified by ORBi

Additional URL :

https://api.elsevier.com/content/article/PII:S2210670723003359?httpAccept=text/xml

Available on ORBi :

since 30 June 2023

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Bibliography

Broer, R., Dravecký, L., Fabbri, M., Fernández Álvarez, X., Kockat, J., Jankovic, I., et al. Deep Renovation: Shifting from exception to standard practice in EU Policy. In BPIE, 2021 (Issue November) https://www.bpie.eu/wp-content/uploads/2021/11/BPIE_Deep-Renovation-Briefing_Final.pdf.
Climact. Update of the long-term renovation strategy. Climact, 2019 https://www.energysavingpioneers.be/sites/default/files/files/190919-bbl-ltrs-2050.pdf.
Hachem-Vermette, C., Grewal, K.S., Investigation of the impact of residential mixture on energy and environmental performance of mixed use neighborhoods. Applied Energy 241 (2019), 362–379, 10.1016/j.apenergy.2019.03.030.
Hauke, J., Kossowski, T., Comparison of values of Pearson's and Spearman's correlation coefficients on the same sets of data. QUAGEO 30:2 (2011), 87–93, 10.2478/v10117-011-0021-1.
Iannillo, A., Fasolino, I., Land-Use mix and urban sustainability: Benefits and indicators analysis. Sustainability, 13(23), 2021, 13460, 10.3390/su132313460.
ICEDD. (2014). Bilan Énergétique de la Wallonie 2012 Secteur Domestique et Équivalents.
IWEPS. Degré de densité de la population des communes belges (méthode DG REGIO). Indicateurs Statistiques, 2016 https://www.iweps.be/indicateur-statistique/degre-de-densite-de-population-communes-belges-methode-dg-regio/.
Jiao, J., Rollo, J., Fu, B., The hidden characteristics of land-use mix indices: An overview and validity analysis based on the land use in Melbourne, Australia. Sustainability, 13(4), 2021, 1898, 10.3390/su13041898.
Kylili, A., Fokaides, P.A., European smart cities: The role of zero energy buildings. Sustainable Cities and Society 15 (2015), 86–95, 10.1016/j.scs.2014.12.003 Vol.
Marique, A.F., Reiter, S., A simplified framework to assess the feasibility of zero-energy at the neighbourhood/community scale. Energy and Buildings 82 (2014), 114–122, 10.1016/j.enbuild.2014.07.006.
Matsumoto, A., Merlone, U., Szidarovszky, F., Some notes on applying the Herfindahl–Hirschman Index. Applied Economics Letters 19:2 (2012), 181–184, 10.1080/13504851.2011.570705.
Nematchoua, M.K., Nishimwe, A.M.R., Reiter, S., Towards nearly zero-energy residential neighbourhoods in the European Union: A case study. Renewable and Sustainable Energy Reviews, 135, 2021, 110198, 10.1016/j.rser.2020.110198.
Nishimwe, A.M.R., Reiter, S., Assessment and mapping of heat demand and heat consumption in the residential and tertiary buildings of an urban region. IAPE, 19(8), 2019 10.17501.
Nishimwe, A.M.R., Reiter, S., Building heat consumption and heat demand assessment, characterization, and mapping on a regional scale: A case study of the Walloon building stock in Belgium. Renewable and Sustainable Energy Reviews, 135, 2021, 110170, 10.1016/j.rser.2020.110170.
Nishimwe, A.M.R., Reiter, S., Estimation, analysis and mapping of electricity consumption of a regional building stock in a temperate climate in Europe. Energy and Buildings, 253, 2021, 111535, 10.1016/j.enbuild.2021.111535.
Nishimwe, A.M.R., Reiter, S., Using artificial intelligence models and degree-days method to estimate the heat consumption evolution of a building stock until 2050: A case study in a temperate climate of the Northern part of Europe. Cleaner and Responsible Consumption, 5, 2022, 100069, 10.1016/j.clrc.2022.100069.
Reiter, S., Marique, A.F., Toward low energy cities. Journal of Industrial Ecology 16:6 (2012), 829–838, 10.1111/j.1530-9290.2012.00533.x.
Ruellan, G., Attia, S., Les problématiques de la rénovation du stock bâti dans la ville de demain: Résultats d'une étude initiale en Belgique. Academic Journal of Civil Engineering 1:1 (2016), 1–8.
Santamouris, M., Vasilakopoulou, K., Present and future energy consumption of buildings: Challenges and opportunities towards decarbonisation. E-Prime, 1, 2021, 100002, 10.1016/j.prime.2021.100002.
Sharma, A., Tiwari, G., Rao, K.R., Identifying mixed use indicators for including informal settlements as a distinct land use: Case study of Delhi. Transportation Research Procedia, 48, 2020, 1918–1930, 10.1016/j.trpro.2020.08.224.
Sibelga. What dimensions should be planned for photovoltaic panels?. Energuide, 2022 https://www.energuide.be/en/questions-answers/what-dimensions-should-be-planned-for-photovoltaic-panels/1410/.
SPW. (2014). Guide de la rénovation énergétique et durable des logements en Wallonie.
SPW. (2017). Le point énergie de la Wallonie pour les professionnels et décideurs. http://energie.wallonie.be.
SPW. (2019). La réglementation wallonne - PEB. https://energie.wallonie.be/fr/reglementation-wallonne-sur-la-peb.html?IDC=7224.
SPW. (2020). Stratégie wallonne de rénovation énergétique à long terme du bâtiment. https://energie.wallonie.be/fr/strategie-de-renovation.html?IDC=9580.
SPW. (2021). Walloon long-term building renovation strategy.
SPW. (2023). Production d’électricité à partir d’énergies renouvelables en Wallonie. https://zealous-nobel-aa39f4.netlify.app/.
SPW DGO4. (2021). La contribution wallonne au Plan national Energie Climat 2030. https://energie.wallonie.be/fr/la-contribution-wallonne-au-plan-national-energie-climat-2030.html?IDC=6238&IDD=127763.
Statbel. (2021). Parc des bâtiments. https://statbel.fgov.be/fr/themes/construction-logement/parc-des-batiments.
Statbel. (2022). Permis de bâtir Statbel. https://statbel.fgov.be/fr/themes/construction-logement/permis-de-batir.
Steemers, K., Energy and the city: Density, buildings and transport. Energy and Buildings 35:1 (2003), 3–14, 10.1016/S0378-7788(02)00075-0.
Tardioli, G., Kerrigan, R., Oates, M., O‘Donnell, J., Finn, D., Data driven approaches for prediction of building energy consumption at urban level. Energy Procedia 78 (2015), 3378–3383, 10.1016/j.egypro.2015.11.754.
Torabi Moghadam, S., Toniolo, J., Mutani, G., Lombardi, P., A GIS-statistical approach for assessing built environment energy use at urban scale. Sustainable Cities and Society 37 (2018), 70–84, 10.1016/j.scs.2017.10.002.
Vera, I., Langlois, L., Energy indicators for sustainable development. Energy 32:6 (2007), 875–882, 10.1016/j.energy.2006.08.006.
Verbeeck, G., Renovation versus demolition of old dwellings: Comparative analysis of costs, energy consumption and environmental impact. PLEA 2011 Architecture and Sustainable Development, 2011, 541–546 https://lirias.kuleuven.be/1580518?limo=0.
Wątróbski, J., Bączkiewicz, A., Ziemba, E., Sałabun, W., Sustainable cities and communities assessment using the DARIA-TOPSIS method. Sustainable Cities and Society, 83, 2022, 103926, 10.1016/j.scs.2022.103926.
Woo, Y.E., Cho, G.H., Impact of the surrounding built environment on energy consumption in mixed-use building. Sustainability, 10(3), 2018, 832, 10.3390/su10030832.
Zagorskas, J., GIS-based modelling and estimation of land use mix in urban environment 2 problem formulation. International Journal of Environmental Science 1 (2016), 284–293 http://www.vgtu.lt.
Zhang, S., Xu, W., Wang, K., Feng, W., Athienitis, A., Hua, G., et al. Scenarios of energy reduction potential of zero energy building promotion in the Asia-Pacific region to year 2050. Energy, 213, 2020, 118792, 10.1016/j.energy.2020.118792.
Zhou, Y., Li, Z., Tao, X., Urban mixed use and its impact on energy performance of micro gird system. Energy Procedia 103 (2016), 339–344, 10.1016/j.egypro.2016.11.296.
Zhuo, Y., Zheng, H., Wu, C., Xu, Z., Li, G., Yu, Z., Compatibility mix degree index: A novel measure to characterize urban land use mix pattern. Computers, Environment and Urban Systems 75 (2019), 49–60, 10.1016/j.compenvurbsys.2019.01.005.