• Development of a qualitative framework to assess monetary and non-monetary aspects of a bottom-up and top-down deployment based on ecological, economic, and social criteria to qualitatively contrast the value of large-scale and small-scale renewable energy technologies (Exploitation: public, further R&D, internal use)
• Development of a qualitative framework to assess incentive and coordination mechanisms for energy sharing communities (Exploitation: public, further R&D, internal use)
• Development of a new methodology to include household flexibility in energy system models and implementation of this methodology in an existing modeling framework (Exploitation: public, further R&D, internal use)
• Development of a new mixed complementarity model for the simulation of energy communities (Exploitation: public, further R&D, internal use)
• Development of a new tool to create synthetic demand data for swarm grids to be used in other simulation models of energy communities like the one developed in this project (Exploitation: public, further R&D, internal use)
• Development of an energy system model (based on an existing framework) with a focus on energy sharing communities and the analysis of incentive and coordination mechanisms (Exploitation: public, further R&D, internal use)
• Development of a new production-economic model integrated with a stochastic investment simulation to forecast future costs of a technology like small modular reactors based on an established technology like conventional large-capacity nuclear reactors using scaling and learning effects and to estimate their project economics (Exploitation: public, further R&D, internal use)