Experimental and kinetic study on the laminar burning velocity of TRF/NH3-air premixed flame at elevated pressure
Author:
Funder
National Natural Science Foundation of China
Publisher
Elsevier BV
Reference68 articles.
1. Optical study on multi-time ignition mixed-mode combustion with gasoline and PODE;Ma;Fuel,2023
2. A numerical study on the interaction of droplet collisions and air flow impact in cross-impinging spray;Ding;Energy,2023
3. Numerical simulation of working process and gas-liquid interaction mechanism of air assisted nozzle;Zhao;Int J Multiph Flow,2023
4. Energy analysis and research on injection control parameter influence mechanism of air assisted spray system;Zhao;Fuel,2023
5. Economic, technical, and environmental viability of biodiesel blends derived from coffee waste;Kamil;Renew Energy,2020
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1. Comprehensive analysis of laminar burning velocity in DEK/NH3-air premixed flames under varied pressure conditions;Fuel;2024-12
2. Effect of C-N cross-reactions on combustion dynamics in ammonia binary blends;Fuel;2024-10
3. Development of a skeletal chemical kinetic mechanism for TRF/NH3 combustion;Fuel;2024-09
4. Comprehensive analysis of toluene/ammonia-air premixed flame: Experimental and kinetic perspectives on laminar burning velocity;Fuel;2024-07
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