Clustering and typification of urban districts for energy systems modelling
Lausanne, June 2022
Preface
Abstract
Keywords: Urban systems; Energy optimisation; Clustering; Geographical database;
The global context of climate change is pushing towards energy savings. Cities are home to most of the world’s population, consume 2/3 of total energy consumption and are responsible for 70% of greenhouse gas emissions. In this context, interest in Urban Systems has been growing due to the necessary decarbonisation of city energy systems. It is expected to be driven by high electrification and the emergence of prosumers, both taking and providing electricity to the grid. Decision tools are developed using mathematical optimisation to help the transition. However, those tools need coherent input and a lot of computational power. This work aims to answer those two problems on the level of Switzerland. First, a generic and coherent database containing building energy-related data is developed. Second, it proposes a method to typify the districts of a city. The districts are clustered according to their energetic characteristics, i.e. the energy demands (heating, hot water, electrical) and the endogenous resources (solar, biomass, geothermal). By grouping districts accordingly, a cluster of districts can be optimised by solving one from the group and considering the solution is similar enough for the rest. The method is applied to the canton of Geneva and two typifications are proposed. One divides the canton into two types of districts: residential buildings dominated districts, and non-residential buildings dominated ones. The second takes into account more parameters such as the endogenous resources and results in 22 clusters.
Acknowledgements
This master thesis has been done under the supervision of Mr. Dorsan Lepour, who has been not only of great help, but also a great partner with whom to work and share discussions. Thank you as well to Mr. Cédric Terrier for the proof reading.
I also want to thank Pr. François Maréchal, who catch me on the train for a intense but illuminating discussion on the project, giving me a direction for the remaining half of the project.
Thanks to all my colleagues at the IPESE laboratory making it an enjoyable place to work. Especially, thank you Raphaël Briguet for your help on QBuildings.
Finally, thank you to Benjamin, great friend of mine, for welcoming me at your place at Savièse and for the good times.
This master thesis also concludes my bachelor and master studies at EPFL and as such I would like to thank the people whom accompanied me during this journey.
Thank you to my first friends of the first year, the people of the Environmental Engineering years, the Bussinight group and to the Brosse team.
Thank you to my family. First of all, to my parents for guiding me through and from who I have learnt me so much; to my brother and sister for what we share; to my aunt, uncle and cousins in Geneva who welcomed me as a full family member.
Finally, thank you of course to Elisa, who shared most of the journey with me.
Glossary
- AIC
- Akaike Information Criterion
- BIC
- Bayesian Information Criterion
- CH
- Calinski-Harabasz
- DHW
- Domestic Hot Water
- EUD
- End Use Demand
- ERA
- Energetic Reference Area
- GIS
- Geographical Information System
- GMM
- Gaussian Mixture Model
- KPI
- Key Performance Indicator
- MILP
- Mixed Integer Linear Programming
- MOO
- Multi-Objective Optimisation
- PCA
- Principal Components Analysis
- REHO
- Renewable Energy Hub Optimiser
- RegBL
- Register des bâtiments et des logements { Buildings and accommodations register }
- SH
- Space Heating
- UUID
- Universally Unique Identifier
- REA
- Reference Energy Area
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© EPFL-IPESE 2022
Master thesis, Spring 2022
Joseph Loustau