1st International Workshop on Combustion Kinetics: From Fundamentals to Applications
Date/Time
May 18, 2025 8:00 AM - 5:15 PM Eastern
Event Description
This workshop, being held in conjunction with the 15th Asia-Pacific Conference on Combustion (ASPACC), aims to gather leading researchers, academicians, and industry professionals to discuss the latest advancements and challenges in the field of combustion kinetics. The program will focus on a variety of topics that are at the forefront of combustion research and application:
Sustainable fuels combustion
Explore innovative strategies and technologies for sustainable fuels in a way that achieve decarbonization while maximizing efficiency, such as ammonia, hydrogen, methanol, and sustainable aviation fuels.
Propellants combustion and propulsion
Delve into the combustion kinetics of propellants and their implications for aerospace propulsion systems, including solid propellants, liquid and gas propellants, and novel propellants.
Combustion in extreme conditions
Examine the unique challenges and solutions associated with combustion in high-pressure, low-oxygen, and other extreme environments.
AI in combustion
Discover how artificial intelligence and machine learning are revolutionizing the prediction, control, and optimization of combustion processes, with focuses on combustion modeling and experiment.
Novel experimental techniques in combustion
Discuss the latest experimental approaches and tools used to analyze combustion processes, enhancing our understanding and capabilities in this critical field.
Registration
Fees: SGD 250 for teachers and postdocs, SGD 150 for students.
Poster Submission
Please submit an A0-sized poster (841 × 1189 mm / 33.1 × 46.8 inches) along with a 200-500 word abstract to the workshop co-chair, Jieyao Lyu, at jieyaolyu@u.nus.edu. The abstract template is available on the workshop website. For inquiries, contact the Chair of the workshop, Prof. Yang Li (yang.li@nwpu.edu.cn).
Schedule: Allocate the whole day for poster sessions with interaction times during breaks.
