In the field of energy supply, the focus is shifting from conventional combustion to a variety of new energy conversion technologies. Nineteen articles in this Special Issue describe different aspects, that make combustion and combustion products attractive in the context of future sustainable energy systems. Carbon capture and recycling can bridge the current energy system and the transition to 100% renewables. The energy storage required for this is possible with combustion systems and specific synthetic fuels. In this context, bio-based fuel applications also benefit from current research and support flexible and efficient reduction of carbon dioxide emissions. All these aspects call for better experimental and numerical methods for process characterization and design.
Technical solutions to foster the global energy transition: Special issue on clean fuel conversion technologies for carbon dioxide and pollutant reduction
Senneca O;
2022
Abstract
In the field of energy supply, the focus is shifting from conventional combustion to a variety of new energy conversion technologies. Nineteen articles in this Special Issue describe different aspects, that make combustion and combustion products attractive in the context of future sustainable energy systems. Carbon capture and recycling can bridge the current energy system and the transition to 100% renewables. The energy storage required for this is possible with combustion systems and specific synthetic fuels. In this context, bio-based fuel applications also benefit from current research and support flexible and efficient reduction of carbon dioxide emissions. All these aspects call for better experimental and numerical methods for process characterization and design.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
