Print Email Facebook Twitter Quantifying urban energy potentials Title Quantifying urban energy potentials: Presenting three european research projects Author Fremouw, M.A. (TU Delft Climate Design and Sustainability) Contributor Conradie, D.C.U. (editor) du Plessis, C. (editor) van den Dobbelsteen, A.A.J.F. (editor) Date 2017 Abstract Although more than half of the world’s population now lives in cities, this trend is expected to continue and there is an increasing awareness of the need to move to a fully sustainable urban energy system, this transition process is still significantly lagging behind in many places. The yield of many renewable energy sources is directly related to the surface available for deployment. Because of this and the high density of cities, urban planners face the difficult challenge of incorporating energy based planning in their practices. The TU Delft method of Energy Potential Mapping provides the means to spatially quantify energy demand and renewable supply in the built environment in a unified way. This paper presents three current research projects that apply the EPM method in European cities: CELSIUS (smart District Heating and Cooling), City-zen (urban transition strategies) and PLANHEAT (urban DHC planning toolset). Subject Energy Potential MappingUrban Energy AtlasUrban Energy TransitionRenewable EnergyBuilt Environment To reference this document use: http://resolver.tudelft.nl/uuid:335272b9-e395-40f1-a580-41bf02d3e649 Publisher CSIR ISBN 978-0-7988-5636-2 Source Proceedings of the Smart & Sustainable Cities and Transport Seminar Event Smart & Sustainable Cities and Transport Seminar, 2017-07-12 → 2017-07-14, Pretoria, South Africa Part of collection Institutional Repository Document type conference paper Rights © 2017 M.A. Fremouw Files PDF Paper_SSC_Proceedings_201 ... _final.pdf 1.19 MB Close viewer /islandora/object/uuid:335272b9-e395-40f1-a580-41bf02d3e649/datastream/OBJ/view