| 1 |
Direct Conversion of Biomass Carbohydrates to Platform Chemicals: 5-Hydroxymethylfurfural (HMF) and Furfural
Mittal A, Pilath HM, Johnson DK
Energy & Fuels, 34(3), 3284, 2020 |
| 2 |
Modelling solids friction for fluidized dense-phase pneumatic conveying
Sharma K, Mallick SS, Mittal A, Wypych P
Particulate Science and Technology, 38(4), 391, 2020 |
| 3 |
A study of energy loss due to particle to particle and wall collisions during fluidized dense-phase pneumatic transport
Sharma K, Mallick SS, Mittal A
Powder Technology, 362, 707, 2020 |
| 4 |
An agent-based approach to modeling zero energy communities
Mittal A, Krejci CC, Dorneich MC, Fickes D
Solar Energy, 191, 193, 2019 |
| 5 |
Stability and phase space analysis of fluidized-dense phase pneumatic transport system
Kaur B, Mittal A, Jana S, Mallick SS, Wypych P
Powder Technology, 330, 190, 2018 |
| 6 |
On developing improved modelling for particle velocity and solids friction for fluidized dense-phase pneumatic transport systems
Sharma K, Mallick SS, Mittal A, Pan RH
Powder Technology, 332, 41, 2018 |
| 7 |
On developing improved modelling and scale-up procedures for pneumatic conveying of fine powders
Kaur B, Mittal A, Wypych P, Mallick SS, Jana S
Powder Technology, 305, 270, 2017 |
| 8 |
Manganese-cobalt mixed oxide film as a bifunctional catalyst for rechargeable zinc-air batteries
Davari E, Johnson AD, Mittal A, Xiong M, Ivey DG
Electrochimica Acta, 211, 735, 2016 |
| 9 |
Direct Production of Propene from the Thermolysis of Poly(beta-hydroxybutyrate) (PHB). An Experimental and DFT Investigation
Clark JM, Pilath HM, Mittal A, Michener WE, Robichaud DJ, Johnson DK
Journal of Physical Chemistry A, 120(3), 332, 2016 |
| 10 |
An investigation into the transition of flow mechanism during fluidized dense-phase pneumatic conveying of fine powders
Mittal A, Mallick SS, Wypych PW
Particulate Science and Technology, 34(1), 23, 2016 |
