A 0D aircraft engine emission model with detailed chemistry and soot microphysics CG Moniruzzaman, F Yu Combustion and Flame 159 (4), 1670-1686, 2012 | 33 | 2012 |
Air quality and health-related impacts of traditional and alternate jet fuels from airport aircraft operations in the US CA Arter, JJ Buonocore, C Moniruzzaman, D Yang, J Huang, ... Environment international 158, 106958, 2022 | 13 | 2022 |
Aircraft landing and takeoff emission impacts on surface O3 and PM2. 5 through aerosol direct feedback effects estimated by the coupled WRF-CMAQ model CG Moniruzzaman, J Bowden, S Arunachalam Atmospheric Environment 243, 117859, 2020 | 13 | 2020 |
A discrete-sectional model for particle growth in aerosol reactor: Application to titania particles CG Moniruzzaman, KY Park Korean Journal of Chemical Engineering 23, 159-166, 2006 | 9 | 2006 |
Analysis of iron particle growth in aerosol reactor by a discrete-sectional model CG Moniruzzaman, HG Park, KY Park Korean Journal of Chemical Engineering 24, 299-304, 2007 | 6 | 2007 |
High-pressure fuel pyrolysis investigation using a microflow tube reactor U Shrestha, G Simms, HK Chelliah 53rd AIAA Aerospace Sciences Meeting, 0418, 2015 | 5 | 2015 |
Modeling Soot Size Distribution Evolution and Pollutant Formation Inside Diesel Engine Using a 0D Multi-zone Gas Parcel Model with Detailed Chemistry and Soot Microphysics CG Moniruzzaman, F Yu SAE International Journal of Engines 7 (3), 1336-1369, 2014 | 3 | 2014 |
Detailed modeling of soot size distribution evolution and pollutant formation inside aircraft and diesel engines CG Moniruzzaman State University of New York at Albany, 2012 | 1 | 2012 |
Modeling Aircraft Sources at sub-hourly time scales in AERMOD G Pandey, C Moniruzzaman, S Arunachalam, A Venkatram | | 2021 |
Effect of Atmospheric Stability on Modeling Air Quality in and Around a Major Airport G Pandey, C Moniruzzaman, A Venkatram, S Arunachalam International Technical Meeting on Air Pollution Modelling and its …, 2021 | | 2021 |
Effects of aerosol feedback on aircraft-attributable surface O3 and PM2. 5 concentrations using the two-way coupled WRF-CMAQ modeling system C Moniruzzaman, J Bowden, S Arunachalam | | |