Reaction Regulation in New Energy Power Systems for Carbon Neutrality

With the aggravation of energy and environment crises, countries around the world are striving to achieve carbon neutrality goals for mitigating this circumstance. Developing new energy power systems is a feasible and effective way because of their advantages such as high energy density, long service life and low emissions. However, the performance of related new energy power systems is directly or indirectly affected by the chemical reaction such as pyrolysis reaction, combustion reactions and electrochemical reaction. Therefore, regulating reaction in new energy power systems is a very important issue for carbon neutrality.

The objective of this Research Topic is to publish the most recent findings and high-quality works on biomass boiler, lithium-ion battery, fuel cell and hydrogen/hydrocarbon/ammonia combustion power systems, with a special focus on energy conversion efficiency, combustion characteristics and emission characteristics.

The topic will cover but is not limited to:

• Dynamics and thermodynamics of pyrolysis reaction in biomass boiler
• Dynamics and thermodynamics of lithium dendrite growth
• Lithium-ion battery thermal management
• Electrochemical reaction regulation in proton exchange membrane fuel cell
• Water and thermal management of proton exchange membrane fuel cell
• Homogeneous/homogeneous reaction regulation in hydrogen/hydrocarbon/ammonia combustion power systems
• Combustion and emissions characteristics of hydrogen/hydrocarbon/ammonia combustion power systems

Keywords: Pyrolysis reaction, Catalytic reaction, Electrochemical reaction, Chemical reaction kinetics, Combustion characteristics, Emission characteristics

Important Note: All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.