Integration of different energy infrastructures (heat, electricity and gas vectors) offers great
potential for better managing energy sources, reducing consumption and waste as well as …

Determining environmentally-and economically-optimal energy systems designs and
operations is complex. In particular, the integration of weather-dependent renewable energy …

As technology continues to improve people's quality of life, there is a large, unfulfilled market
worldwide for on-demand meal delivery services. The competitive edge of the business is …

Multi-energy systems and microgrids can play an important role in increasing the efficiency
of distributed energy systems and favoring an increasing penetration from renewable …

Jeju Island faces curtailment problems when renewable energy generation exceeds the
facility capacity. In addition, the renewable energy system cannot achieve consistent …

Future electricity generation systems must be optimized to provide flexibility that counteracts
the variability of non-dispatchable renewable energy sources and ensures the reliability and …

The simultaneous production of different energy vectors from hybrid polygeneration plants is
a promising way to increase energy efficiency and facilitate the development of distributed …

Optimal operation of generation units is crucial when looking for reduction in energy
consumption and carbon emissions in multi-energy systems (ie multiple generation sources …

As energy utilities implement climate change mitigation policies, system planners require
strategies for achieving affordable emissions reductions. Coordinated planning of electric …

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 …