| 1 |
Integrated modeling methodology for ash agglomeration in poly-disperse fluidized beds using particle population framework
Khadilkar AB, Kennedy JR, Rozelle PL, Pisupati SV
Powder Technology, 384, 368, 2021 |
| 2 |
Carbon deposition on Ni-based catalyst with TiO2 as additive during the syngas methanation process in a fluidized bed reactor
Feng F, Song GH, Xiao J, Shen LH, Pisupati SV
Fuel, 235, 85, 2019 |
| 3 |
Comparison of entrained flow CO2 gasification behaviour of three low-rank coals - Victorian brown coal, Beulah lignite, and Inner Mongolia lignite
Xu T, Pisupati SV, Bhattacharya S
Fuel, 249, 206, 2019 |
| 4 |
Effects of pressure and CO concentration on vanadium, nickel and iron phase transformations for petcoke slag viscosity correlation development
Banik S, Pisupati SV
Fuel, 253, 238, 2019 |
| 5 |
Investigation of fluidized bed agglomerate growth process using simulations and SEM-EDX characterization of laboratory-generated agglomerates
Khadilkar AB, Rozelle PL, Pisupati SV
Chemical Engineering Science, 184, 172, 2018 |
| 6 |
Role of condensed phases in the agglomeration of low rank coal ash in fluidized beds
Pallares J, Khadilkar AB, Simcock-Bailey B, Pisupati SV
Fuel, 232, 1, 2018 |
| 7 |
A study on fragmentation behavior, inorganic melt phase formation, and carbon loss during high temperature gasification of mineral matter rich fraction of Pittsburgh No. 8 coal
Krishnamoorthy V, Tchapda AH, Pisupati SV
Fuel, 208, 247, 2017 |
| 8 |
Fate of Sulfur during Entrained-Flow Gasification of Pittsburgh No. 8 Coal: Influence of Particle Size, Sulfur Forms, and Temperature
Krishnamoorthy V, Pisupati SV
Energy & Fuels, 30(4), 3241, 2016 |
| 9 |
Review of Particle Physics and Chemistry in Fluidized Beds for Development of Comprehensive Ash Agglomeration Prediction Models
Khadilkar AB, Rozelle PL, Pisupati SV
Energy & Fuels, 30(5), 3714, 2016 |
| 10 |
Effect of additives on interfacial interactions for viscosity reduction of carbonaceous solid-water slurries
Mukherjee A, Pisupati SV
Fuel, 180, 50, 2016 |
