Cajsa Bartusch Kätting
Senior Lecturer/Associate Professor at Department of Civil and Industrial Engineering; Industrial Engineering and Management
- Telephone:
- +46 18 471 30 25
- Mobile phone:
- +46 70 527 43 27
- E-mail:
- cajsa.bartusch@angstrom.uu.se
- Visiting address:
- Ångströmlaboratoriet, Lägerhyddsvägen 1
752 37 Uppsala - Postal address:
- Box 169
751 04 Uppsala
- Academic merits:
- Associate Professor, docent
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Short presentation
Researcher and leader of USER - Uppsala Smart Energy Research Group
In light of the recognition that a smart grid will never be smarter than its users, the overall aim of USER is to increase general knowledge on electricity consumers' and prosumers' role in bringing to fruition the vision of future smart grids. The research focuses mainly on flexible demand, but also decentralized generation, storage and electric vehicles as well as products and services associated therewith.
Keywords
- demand response
- efterfrågeflexibilitet
- hållbar utveckling
- sustainable development
Research
Increasing demand response is an important part of global efforts to mitigate environmental damage and climate change. These endeavors, in turn, underlies political ambitions to reduce greenhouse gas emissions as well as to increase energy efficiency and the share of renewable energy sources. An important prerequisite for the realization of these goals are so called smart grids. These are expected to enable the transition from a fossil-fueled to an electric vehicle fleet and the largescale integration of e.g. solar and wind power in the energy system, which in turn both affects and puts demands on electricity consumer behavior. Thus, conditions for consumers to use electricity more efficiently and contribute with self-generated electricity needs to be created in order to cope with the transition to a sustainable energy system. Against this background, the overall aim of the research is to assess the potential and increase general knowledge on electricity consumers’ drivers, barriers and needs in these respects. The research is highly applied, combines a multitude of methodological approaches and is conducted within the framework of several collaborative projects:
Users’ role in implementing smart grids
Capacity shortage in electricity grids threatens to slow down societal development. An increase in demand side flexibility is considered to be part of the solution. The theoretical potential is known, but knowledge about electricity users’ awareness and acceptance in this context is scarce. Against this background the project aims to increase knowledge on electricity consumers’ and prosumers’ drivers and barriers for contributing with direct and indirect flexibility as well as on what role information campaigns, municipal energy audits, individual feedback and power tariffs may play in this respect. The theoretical approaches stem from the disciplines social psychology and social marketing, whereas the empirical starting points consist of a number of collaborative projects between among others distribution system operators and municipalities.
April 2019 – March 2024
Main funder: the Kamprad Family foundation as part of the program Resistance and power – about smart grids for the many people (Resistans och effekt – om smarta elnät för de många människorna)
Project manager: Cajsa Bartusch
Project participants: Division of Industrial Engineering & Management at the Department of Engineering Sciences, Department of Psychology, the School of Architecture and Built Environment at KTH Royal Institute of Technology and the International Institute for Industrial Environmental Economics
Partners: STUNS Energi, Uppsala Kommun, Uppsalahem, Stockholms stad, Ellevio and Sustainable Innovation
On, off or midway between in apartment blocks
The overall goal with the project is to increase knowledge on passive prosumers' role in the smart grid and to develop a model for judging the Environmental consequences of local energy systems with solar Power generation and energy storage. The empirical starting Point is a micro grid with a Group of Buildings comprising a small number of rental apartments, a daycare center, a sheltered housing unit, a retirement home and a janitors office including electric vehicle charging facilities. The aim of the project is to study if and why those who live and work in the micro grid interact with it in the sense that they contribute to optimizing self-consuption of the solar power as well as the effect economic incentives and feedback on energy use and its environmental load have on demand response.
September 2017 – December 2019
Main funder: the Swedish Energy Agency as part of the program SamspEL
Project manager: Cajsa Bartusch
Project participants: Division of Industrial Engineering & Management at the Department of Engineering Sciences, Department of Psychology, RISE Interactive and the Division of Industrial Ecology, Department of Sustainable development, Environmental Science and Engineering, School of Architecture and Built Environment at KTH Royal Institute of Technology
Partners: Eksta Bostads AB and Ferroamp AB
Holistic business models and IT services for prosumers
The aim of the project is to increase knowledge of electricity consumers’ need for information and feedback when they become prosumers and to develop business models and IT services that make it easier for them to be active in the smart grid. The ultimate goal is to increase the share of micro production with photovoltaics in the energy system by developing a holistic concept of business models, information packages, appropriate grid tariffs and electricity supply contracts along with IT services that serves the purpose of simplifying the process that precedes the investment as well as supporting and optimizing the daily operation of photovoltaics from the prosumer perspective.
July 2015 – June 2018
Main funders: the Swedish Energy Agency and the Swedish Centre for Innovation and Quality in the Built Environment as part of the collaborative program E2B2 - a research program for energy-efficient building and living - and STandUP for Energy
Project manager: Cajsa Bartusch
Project participants: the division of Industrial Engineering & Management and Solid State Physics at the Department of Engineering Sciences, the Department of Psychology, the research group Green Leap at KTH the Royal Institute of Technology and Transformator Design
Partners: Sala-Heby Energi, HESAB, Kraftpojkarna and Svenska Energigruppen
Market-driven power tariff in distribution
The project aims to follow up the implementation of a market-driven power tariff in the customer segment 35-63A – which mainly includes condominium associations, farms, restaurants, restaurants, laundries and small industries, such as carpentry and mechanical workshops – by studying its effect on the demand curve, customers’ perception and understanding of it, the economic consequences of it for the distribution system operator and the customers, its correlation to the spot price, the potential to increase its time resolution to 24/7 level, the possibility to increase customers’ economic incentive with a cost-based energy tax as well as to judge its potential in other customer segments.
February 2017 – January 2018
Final report: Marknadsstyrd effekttariff
Main Funder: Energiforsk as part of the program Smart Grids
Project manager: Cajsa Bartusch
Project participants: the division of Industrial Engineering & Management at the Department of Engineering Sciences
Partners: Sandviken Energi, Gävle Energi and the other distribution system operators of the network Elinorr
Market-based policy instruments in the residential sector
The project objective is to estimate the efficiency and savings potential in residential electricity use of business models for increased demand response and individual feedback, to quantify the economic and environmental consequences as part of implementing these policy instruments and to enhance knowledge on electricity consumers’ drivers and incentives to use electricity more efficiently.
October 2013 – June 2017
Main funders: the Swedish Energy Agency as part of the program Research and Innovation for Energy Efficient Building and Living
Project manager: Cajsa Bartusch
Project participants: the division of Industrial Engineering & Management and Solid State Physics at the Department of Engineering Sciences and the Department of Psychology
Partners: Sollentuna Energi & Miljö, Boo Energi, Sala-Heby Energi, Hebygårdar, Svenska Energigruppen and eSmart Scandinavia
Prosumers and energy awareness
The overall aim of the project is to study how energy awareness of electricity consumers is affected by them starting to produce electricity with photovoltaics as well as to identify any spillover effects, in terms of changes in attitudes and behaviors, in other energy and environment-related areas.
January 2016 – March 2017
Final report: Prosumenter och energimedvetenhet
Main funders: the Swedish Energy Agency and Energiforsk as part of “Solelprogrammet”
Project manager: Simon Strandberg, STUNS Energi
Project participants: STUNS Energi, the division of Industrial Engineering & Management at the Department of Engineering Sciences and the Department of Psychology
Electricity consumers’ attitudes, values and incentives for increased demand response
The study aims at increasing the knowledge on households’ motivations for increased demand response, which may form the basis for an appropriate segmentation of customers with regard to the prospect of affecting demand and the design of new business models, products and services.
January – June 2014
Final report: Elkonsumeters drivkrafter för en ökad förbrukningsflexibilitet
Main funder: Former Elforsk, now Energiforsk, as part of the program Smart Grids 2010-2014
Project manager: Cajsa Bartusch
Project participants: the division of Industrial Engineering & Management at the Department of Engineering Sciences and the Department of Psychology
Partners: Sollentuna Energi & Miljö and Boo Energi
Publications
Selection of publications
- Quantifying distribution-system operators' economic incentives to promote residential demand response (2015)
- Further exploring the potential of residential demand response programs in electricity distribution (2014)
- Elkonsumenters drivkrafter för en ökad förbrukningsflexibilitet (2014)
- Key Actor Perspectives on Smart Grids (2014)
Recent publications
- Opening the black box of demand response (2024)
- Empowered or enchained? (2024)
- Serving two masters (2024)
- Spatio-temporal modelling of the effects of the COVID-19 pandemic on electricity consumption patterns in Stockholm, Sweden (2024)
- Dansmästaren (2023)
All publications
Articles
- Opening the black box of demand response (2024)
- Empowered or enchained? (2024)
- Serving two masters (2024)
- Spatio-temporal modelling of the effects of the COVID-19 pandemic on electricity consumption patterns in Stockholm, Sweden (2024)
- Getting the signal (2023)
- Evaluating demand charges as instruments for managing peak-demand (2023)
- Drivers and barriers to participation in Sweden's local flexibility markets for electricity (2023)
- Evaluating the effects of the COVID-19 pandemic on electricity consumption patterns in the residential, public, commercial and industrial sectors in Sweden (2023)
- Evaluating user understanding and exposure effects of demand-based tariffs (2022)
- Identifying Challenges in Engaging Users to Increase Self-Consumption of Electricity in Microgrids (2021)
- Demand charges and user flexibility (2021)
- Different strokes for different folks? (2020)
- Rising with the sun? (2020)
- Convenience before coins (2019)
- Identifying and estimating the effects of a mandatory billing demand charge (2019)
- Good things come in small packages (2018)
- Quantifying distribution-system operators' economic incentives to promote residential demand response (2015)
- Further exploring the potential of residential demand response programs in electricity distribution (2014)