Magnus Åberg
Senior Lecturer/Associate Professor at Department of Civil and Industrial Engineering; Civil Engineering and Built Environment
- Telephone:
- +46 18 471 72 32
- Mobile phone:
- +46 70 542 06 30
- E-mail:
- magnus.aberg@angstrom.uu.se
- Visiting address:
- Ångströmlaboratoriet, Lägerhyddsvägen 1
752 37 Uppsala - Postal address:
- Box 169
751 04 Uppsala
- Academic merits:
- Docent
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Publications
Recent publications
- Building heat demand characteristics in a planned city district with low-temperature district heating supply (2023)
- Potential to balance load variability, induced by renewable power, using rock cavern thermal energy storage, heat pumps, and combined heat and power in Sweden (2023)
- Strategic visions for local sustainability transition (2023)
- Optimal PV-EV sizing at solar powered workplace charging stations with smart charging schemes considering self-consumption and self-sufficiency balance (2022)
- Power-to-heat on the reserve capacity market-Policy implications considering economic constraints and competing heat production (2022)
All publications
Articles
- Potential to balance load variability, induced by renewable power, using rock cavern thermal energy storage, heat pumps, and combined heat and power in Sweden (2023)
- Strategic visions for local sustainability transition (2023)
- Optimal PV-EV sizing at solar powered workplace charging stations with smart charging schemes considering self-consumption and self-sufficiency balance (2022)
- Power-to-heat on the reserve capacity market-Policy implications considering economic constraints and competing heat production (2022)
- Power balancing capacity and biomass demand from flexible district heating production to balance variable renewable power generation (2021)
- A residential community-level virtual power plant to balance variable renewable power generation in Sweden (2020)
- Comparing electricity balancing capacity, emissions, and cost for three different storage-based local energy systems (2020)
- Do ground source heat pumps challenge the dominant position of district heating in the Swedish heating market? (2020)
- Graphical analysis of photovoltaic generation and load matching in buildings (2019)
- Can electricity market prices control power-to-heat production for peak shaving of renewable power generation? (2019)
- No zero burden assumption in a circular economy (2018)
- Improved efficiency for distribution and use of district heating (2018)
- Is Swedish district heating operating on an integrated market? (2016)
- A Pragmatic Definition of Therapeutic Synergy Suitable for Clinically Relevant In Vitro Multicompound Analyses (2014)
- Investigating the impact of heat demand reductions on Swedish district heating production using a set of typical system models (2014)
- Lägre värmebehov leder till effektivare fjärrvärme (2013)
- Swedish District Heating Sensitivity (2013)
- Development, validation and application of a fixed district heating model structure that requires small amounts of input data (2013)
- Sensitivity of district heating system operation to heat demand reductions and electricity price variations (2012)
- Optimisation of a Swedish district heating system with reduced heat demand due to energy efficiency measures in residential buildings (2011)
- Optimisation of a Swedish district heating system with reduced heat demand due to energy efficiency measures inr esidential buildings (2011)
- Power-to-Heat on the reserve capacity market
- Potential for existing rock caverns in Sweden to be used as flexible district heating loads to alleviate the inherent net load variability from renewable energy
Books
- System Effects of Improved Energy Efficiency in Swedish District-Heated Buildings (2014)
- District Heating Sensitivity to Heat Demand Reductions and Electricity Market Dynamics (2012)
Conferences
- Building heat demand characteristics in a planned city district with low-temperature district heating supply (2023)
- Is ‘the social’ forgotten? (2022)
- Towards Urban Building Energy Modelling: (2019)
- Electricity balancing capacity, emissions, and cost comparison of three storage-based local energy systems for variable power generation (2019)
- Thermal Energy Storages in Residential Areas (2018)
- Electricity self-sufficiency and primary energy use in a Swedish residential community, after building renovation and implementation of photovoltaics, small-scale CHP, and electric vehicles (2016)
- Large-scale introduction of new residential district-heating loads to increase renewable electricity generation in CHP plants (2012)
- Impacts of large-scale solar and wind power production on the balance of the Swedish power system (2011)
- Greenhouse Gas Emission from General District Heat use in Sweden (2008)