Deep decarbonisation–ie the transition towards net-zero emissions energy systems–will be
enabled by a high penetration of intermittent renewables, storage and sector-coupling …

Energy system planning is a difficult task, since it involves long‐term decision‐makings with
multiple dimensions: technical, economic, social, ecological, and political. The rise of …

The design of efficient energy systems, through the development of new technologies and
the improvement of current ones, requires the use of rigorous process synthesis methods for …

The transition towards more sustainable, fossil-free energy systems is interlinked with a high
penetration of stochastic renewables, such as wind and solar. Integrating these new energy …

Decarbonization gained prominence with the witnessed rise of temperature over recent
years, particularly in the aftermath of the adoption of the Paris agreement for limiting the …

The design of user-level integrated energy systems is challenged by a variety of
combinations of energy converters, complex cascade utilization of multiple energy flows, as …

Energy transition is blurring the boundaries between the demand and supply sides with
growing participation of prosumer resources. The intensifying pace of electrification and …

This paper investigates how the choice of stochastic approaches and distribution
assumptions impacts strategic investment decisions in energy planning problems. We …

Despite the considerable uncertainty in predicting critical parameters of renewable energy
systems, the uncertainty during system design is often marginally addressed and …

The global energy sector is now transitioning its structure towards carbon neutrality aided by
renewable resource use. Despite its immense potential, solar energy contributes minimally …