1 |
바이오항공유 생산 및 사용현황 임영관, 도진우 Applied Chemistry for Engineering, 34(5), 472, 2023 |
2 |
Cascade hydrogenation of n-C16 to produce jet fuel over tandem catalysts of modified ZSM-22 Li Y, Sun J, Wei J, Mu C, Zhao Y, Wang S, Ma X Journal of Industrial and Engineering Chemistry, 111, 88, 2022 |
3 |
Production of jet-fuel-range olefins via catalytic conversion of pentene and hexene over mesoporous Al-SBA-15 catalyst Dubray F, Paunovic V, Ranocchiari M, Bokhoven JAV Journal of Industrial and Engineering Chemistry, 114, 409, 2022 |
4 |
A physics-based approach to modeling real-fuel combustion chemistry - VII. Relationship between speciation measurement and reaction model accuracy Xu R, Wang H Combustion and Flame, 224, 126, 2021 |
5 |
Evaluating ignition propensity of high cycloparaffinic content alternative jet fuel by a chemical functional group approach Carpenter D, Nates S, Dryer FL, Won SH Combustion and Flame, 223, 243, 2021 |
6 |
X-ray tomography for 3D analysis of ice particles in jet A-1 fuel Haffar I, Flin F, Geindreau C, Petillon N, Gervais PC, Edery V Powder Technology, 384, 200, 2021 |
7 |
Refining drop-in jet fuel coupling GHGs reduction in LCA with airworthiness in aero-engine and aircraft Liu ZY, Yang XY Catalysis Today, 353, 260, 2020 |
8 |
F-T 공정으로 합성된 바이오항공유의 화학적 조성에 따른 점화특성 분석 강샛별 Clean Technology, 26(3), 204, 2020 |
9 |
A physics-based approach to modeling real-fuel combustion chemistry - V. NOx formation from a typical Jet A Saggese C, Wan K, Xu R, Tao YJ, Bowman CT, Park JW, Lu TF, Wang H Combustion and Flame, 212, 270, 2020 |
10 |
Functionalized graphene sheet as a dispersible fuel additive for catalytic decomposition of methylcyclohexane Sim HS, Yetter RA, Hong S, van Duin ACT, Dabbs DM, Aksay IA Combustion and Flame, 217, 212, 2020 |