Qiang Cheng
Staff Scientist
Staff Scientist
T212 Mechanical Engineering
Full researcher profile
https://research.aalto.fi/...
Publikationer
Hyperspectral image reconstruction from colored natural flame luminosity imaging in a tri-fuel optical engine
Qiang Cheng, Shervin Karimkashi, Zeeshan Ahmad, Ossi Kaario, Ville Vuorinen, Martti Larmi
2023
Scientific Reports
Experimental dataset of U-folded falling chain under various openings with high-speed imaging
Athanasios A. Markou, Djebar Baroudi, Qiang Cheng, Hadi Bordbar
2023
Data in Brief
Unfolding the dynamics of free-falling folded chain : Experiments and simulations
Athanasios A. Markou, Djebar Baroudi, Qiang Cheng, Hadi Bordbar
2023
INTERNATIONAL JOURNAL OF NON-LINEAR MECHANICS
Study on Combustion Characteristics of Diesel/Natural Gas/Hydrogen RCCI Engine
Wenjin Qin, Lihui Xu, Qiang Cheng
2023
Journal of Engineering for Gas Turbines and Power
Visualization and comparison of methane and hydrogen jet dynamics using schlieren imaging
Maryam Yeganeh, Qiang Cheng, Aishwarya Dharamsi, Shervin Karimkashi Arani, Juho Kuusela-Opas, Ossi Kaario, Martti Larmi
2023
Fuel
Effect of negative valve overlap in a heavy-duty methanol-diesel dual-fuel engine : A pathway to improve efficiency
Zeeshan Ahmad, Ossi Kaario, Cheng Qiang, Martti Larmi
2022
Fuel
Dynamics of the Ammonia Spray Using High-Speed Schlieren Imaging
Qiang Cheng, Katriina Ojanen, Yantao Diao, Ossi Kaario, Martti Larmi
2022
SAE Technical Papers
Effect of Hydrogen Enhancement on Natural Flame Luminosity of Tri-Fuel Combustion in an Optical Engine
Qiang Cheng, Zeeshan Ahmad, Ossi Kaario, Ville Vuorinen, Martti Larmi
2022
Energies
Experimental and Numerical Investigation of Hydrogen Jet-Wall Impingement
Maria Yeganeh, Samuel Rabensteiner, Qiang Cheng, Olli Ranta, Shervin Karimkashi Arani, Ossi Kaario, Martti Larmi
2022
SAE Technical Papers
Effect of pilot fuel properties on lean dual-fuel combustion and emission characteristics in a heavy-duty engine
Zeeshan Ahmad, Ossi Kaario, Cheng Qiang, Martti Larmi
2021
Applied Energy