The Combustion journal is an academic publication focused on combustion engineering, energy conversion, and materials science within the field of mechanical engineering. This journal aims to publish the latest research and innovations in combustion technology, covering various applications in combustion engines, energy production, and materials used in combustion processes and energy conversion systems. The scope of the journal includes, but is not limited to, the following topics:

1. Combustion Theory and Experimentation
   Research on the fundamental theory of combustion, combustion mechanisms, and experiments related to combustion systems under various operational conditions.

2. Internal and External Combustion Systems
   Studies on combustion systems in internal combustion engines (ICE) and external combustion systems, with a focus on energy efficiency and reducing exhaust emissions.

3. Combustion Technology for Energy Production
   Research on combustion systems in power plants, industrial applications, and other energy conversion systems utilizing both fossil and renewable fuels.

4. Combustion Efficiency and Emission Control
   Focus on optimizing combustion processes, emission control technologies, and methods to reduce the environmental impact of combustion in fossil and alternative fuel systems.

5. Materials for Combustion Processes
   Research on the selection and development of materials that can withstand extreme conditions in combustion systems, such as high temperatures and corrosion. This includes materials for combustion engine components, power generation systems, and other combustion reactors.

6. Development of Materials for Efficient Combustion Systems
   Studies related to the development of new materials for combustion engine and power plant components, aimed at improving combustion efficiency and material durability under harsh operating conditions.

7. Combustion Technology and Engine Design
   The development of cutting-edge combustion technologies and engine design applications to improve engine performance and fuel efficiency through advanced combustion techniques.

8. Combustion Modeling and Numerical Simulation
   The use of modeling and numerical simulations to analyze and predict combustion behavior in various types of engines and combustion systems, as well as the effects of materials on these processes.

9. Combustion in Industrial Engines and Equipment
   Research related to the application of combustion technology in industrial machinery, such as gas turbines, internal combustion engines, and other combustion-based processes in manufacturing.

10. Biomass and Bioenergy in Combustion
    Research on the combustion of biomass as a renewable energy source, including the development of technologies to optimize biomass conversion into efficient energy.

11. Sustainable Combustion Systems and Green Energy
    The development of environmentally friendly combustion systems based on sustainability principles, focusing on renewable energy and efficient combustion technologies that minimize carbon impact.

12. Materials for Combustion in Green Energy
    Research on materials that support combustion processes in green energy systems, such as bioenergy and hydrogen combustion technologies, and their impact on efficiency and emissions.

13. Thermal Spraying and Plasma in Combustion
    Studies on the use of thermal spraying and plasma techniques in combustion applications and material processes, and their influence on the quality and efficiency of energy conversion.

The Combustion journal welcomes articles that combine combustion engineering, energy conversion technology, and material science to improve combustion system performance and energy efficiency. All submitted papers should make significant contributions to the advancement of knowledge, technology, and industrial applications related to combustion, energy, and materials science.