KAUST Professors William Roberts and Robert Dibble were inducted as Fellows of The Combustion Institute (CI) in February. Roberts was recognized for his work on laminar flames, turbulent combustion, and soot formation at elevated pressures. Dibble was inducted for exceptional contributions to developing and using laser diagnostics for combustion research. Why it matters: This recognition highlights KAUST's contributions to combustion research and strengthens its position as a leading institution in the field, attracting top students and researchers.
KAUST Professors Aamir Farooq and Mani Sarathy received the inaugural Research Excellence Award from The Combustion Institute (CI). The CI, established in 1954, promotes combustion science and technology research worldwide. The award recognizes CI members with impactful research papers in combustion science. Why it matters: This award highlights KAUST's contributions to combustion research and strengthens its position as a leading institution in this field.
KAUST Professor Hong Im has been elected as a Fellow of the Combustion Institute for his contributions to combustion understanding using theory, numerical methods, and simulations. Im's research focuses on predicting the physics of laminar and turbulent combustion, with applications in laboratory flames and combustion engines. He credits the collaborative environment at KAUST's Clean Combustion Research Center (CCRC) for this achievement. Why it matters: This recognition highlights KAUST's growing expertise in clean combustion research, which is crucial for developing sustainable energy solutions relevant to the region and the world.
KAUST's Clean Combustion Research Center (CCRC) hosted the Combustion in Extreme Conditions research conference from March 5-8. The conference focused on combustion under extreme conditions in modern engines, covering high-pressure combustion, advanced diagnostics, and high-performance computations. Experts from academia, national labs, and industry discussed global collaborations toward clean combustion systems, alternative fuels, and emission reduction techniques. Why it matters: The conference highlights KAUST's role as a global hub for combustion research and its commitment to advancing technologies for cleaner and more efficient energy solutions.
The 2017 KAUST Research Conference focused on new combustion concepts, bringing together experts from academia, national labs, and industry. Participants discussed various aspects of combustion, including energy conversion by Professor Igor Adamovich from Ohio State University. Anne Bourdon from École Polytechnique presented on plasma-assisted applications. Why it matters: The conference facilitated knowledge exchange and collaboration on advancing combustion technologies, a field relevant to energy and environmental sustainability in the region.
KAUST Associate Professor Aamir Farooq has been named a co-recipient of the 2019 Hiroshi Tsuji Early Career Researcher Award, co-sponsored by Elsevier and The Combustion Institute. Farooq, who leads the KAUST Chemical Kinetics and Laser Sensors Laboratory, is recognized for his work on fuel ignition chemistry. His research aims to improve fuel efficiency and reduce greenhouse gas emissions in transportation and power generation. Why it matters: This award highlights KAUST's commitment to fostering talented faculty and advancing research in clean combustion, a critical area for Saudi Arabia's energy future.
KAUST researchers reviewed 570 papers on alcohol combustion dating back to the early 1900s, synthesizing existing knowledge and identifying gaps in the literature. They developed a model that simulates alcohol combustion, gathering specific aspects to better understand combustion in engines. The study revealed properties of alcohol fuels, including high resistance to autoignition and decreased particulate matter emissions, but also increased emissions of carcinogenic aldehydes. Why it matters: This comprehensive study provides valuable insights for designing more efficient internal combustion engines operating on alcohols and addresses implications for air quality regulations.
KAUST's Clean Combustion Research Center (CCRC) is expanding its Cloudflame database, a platform providing computational tools and scientific data for combustion research. Cloudflame offers features like flame speed calculations, ignition delay simulation, and a Fuel Design Tool to formulate fuel mixtures. The platform allows researchers to compare findings, perform computations remotely, and receive results via email. Why it matters: Cloudflame fosters global collaborations and accelerates advancements in clean combustion technologies, crucial for energy saving and environmental conservation in the region and worldwide.