Heat decarbonization in municipalities - Accounting for the local spatial context in techno-economic modeling
Licentiatavhandling, 2024
The methodology has been tested in both urban and semi-rural case studies, described in the three appended papers. Stakeholder interactions were found to be critical in Step 2 (Inclusion of spatial features) in providing preferences for dividing municipalities into districts to be modeled, and in Step 3 (Scenario formulation) for delimiting the scope of technology options. For example, in the urban case study, the input from municipal planners included their preferences in regard to the number of districts and the criteria to subdivide the municipality to be modeled. Local preferences played a significant role in Step 3, with biomass being excluded as an option due to concerns about local air pollution. In the semi-rural case study, stakeholder interactions were highlighted, particularly on the selection of technology options in the model. As a result, the scenarios took into account the preferences of local energy planners regarding technologies such as biogas injected into the natural gas grid and utilizing excess heat from the municipal wastewater treatment plant and neighboring industries in district heating system. This is particularly significant, as these steps are closely linked to the modeling outcomes, ensuring their relevance for the specific municipality and its unique conditions. The impact of the high spatial resolution is highlighted, with the modeling results showing different heating technology preferences depending on the differences in district properties. This indicates that the model results reflect the local spatial context and thus, can suggest district-specific strategies for the municipality planners.
This thesis concludes that establishing a robust and long-term strategy early in the planning process is crucial, particularly from the standpoint of municipal planning. Furthermore, this thesis shows that the strategies employed for heat decarbonization will differ between urban and semi-rural areas, as well as between districts within these areas due to the large variety of spatial conditions pertaining to heat supply, distribution and consumption. Consequently, it emphasizes the importance of the participatory approach in order to understand the diverse local spatial contexts.
Participatory modeling
spatial analysis
energy transition
optimization
local heat decarbonization
Författare
Hyunkyo Yu
Chalmers, Rymd-, geo- och miljövetenskap, Energiteknik
Combining techno-economic modeling and spatial analysis for heat planning in rural regions: A case study of the Holbæk municipality in Denmark
Smart Energy,;Vol. 14(2024)
Artikel i vetenskaplig tidskrift
Enhancing Urban Heating Systems Planning through Spatially Explicit Participatory Modeling
Energies,;Vol. 16(2023)
Artikel i vetenskaplig tidskrift
Integrating the urban planning process into energy systems models for future urban heating system planning: A participatory approach
Energy Reports,;Vol. 7(2021)p. 158-166
Artikel i vetenskaplig tidskrift
FlexSUS-Flexibility för Smarta Urbana EnergiSystem
Energimyndigheten (47809-1), 2019-09-01 -- 2022-12-15.
Ämneskategorier
Energiteknik
Energisystem
Styrkeområden
Energi
Utgivare
Chalmers
HC3
Opponent: Urban Persson, Professor, Halmstad University