Abstract
Due to the increase of volatile renewable energy resources, additional flexibility will be necessary in the electricity system in the future to ensure a technically and economically efficient network operation. Although home energy management systems hold potential for a supply of flexibility to the grid, private end users often neglect or even ignore recommendations regarding beneficial behavior. In this work, the social acceptance and requirements of a participatively developed home energy management system with focus on (i) system support optimization, (ii) self-consumption and self-sufficiency optimization, and (iii) additional comfort functions are determined. Subsequently, the socially-accepted flexibility potential of the home energy management system is estimated. Using methods of online household survey, cluster analysis, and energy-economic optimization, the socially-accepted techno-economic potential of households in a three-community cluster sample area is computed. Results show about a third of the participants accept the developed system. This yields a shiftable load of nearly 1.8 MW within the small sample area. Furthermore, the system yields the considerably larger monetary surplus on the supplier-side due to its focus on system support optimization. New electricity market opportunities are necessary to adequately reward a systemically useful load behavior of households.
Highlights
The energy system is subject to a sustained transformation due to the increase of volatile renewable energy resources
Systems and energy storage solutions are advantageous for both energy suppliers and private end users, as they all profit from increased flexibility in the energy system [4]
Home energy management systems (HEMSs) give users the opportunity to gain insight into their energy consumption behavior and receive recommendations to change their behavior in a sustainable way, yielding savings for both energy and costs [5]
Summary
The energy system is subject to a sustained transformation due to the increase of volatile renewable energy resources. Systems and energy storage solutions are advantageous for both energy suppliers and private end users, as they all profit from increased flexibility in the energy system [4]. Home energy management systems (HEMSs) give users the opportunity to gain insight into their energy consumption behavior and receive recommendations to change their behavior in a sustainable way, yielding savings for both energy and costs [5]. HEMSs are already well accepted in general, users’ skepticism, e.g., due to anxiety concerning new technologies, occasionally occurs [6]. This is the case if their objectives and HEMSs’ feedback concerning their energy consumption behavior are in conflict (e.g., if a comfortable lifestyle needs to be changed [7]).
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