| Bio-based chemicals from renewable biomass for integrated biorefineries K Kohli, R Prajapati, BK Sharma Energies 12 (2), 233, 2019 | 297 | 2019 |
| Deactivation of hydrotreating catalyst by metals in resin and asphaltene parts of heavy oil and residues K Kohli, R Prajapati, SK Maity, M Sau, MO Garg Fuel 175, 264-273, 2016 | 94 | 2016 |
| Slurry phase hydrocracking of heavy oil and residue to produce lighter fuels: An experimental review R Prajapati, K Kohli, SK Maity Fuel 288, 119686, 2021 | 77 | 2021 |
| Potential chemicals from plastic wastes R Prajapati, K Kohli, SK Maity, BK Sharma Molecules 26 (11), 3175, 2021 | 37 | 2021 |
| Coking propensity during hydroprocessing of vacuum residues, deasphalted oils, and asphaltenes R Prajapati, K Kohli, SK Maity, MO Garg Fuel 203, 514-521, 2017 | 36 | 2017 |
| Deactivation of a hydrotreating catalyst during hydroprocessing of synthetic crude by metal bearing compounds K Kohli, R Prajapati, SK Maity, M Sau, BK Sharma Fuel 243, 579-589, 2019 | 33 | 2019 |
| Hydrocracking of heavy crude/residues with waste plastic K Kohli, R Prajapati, SK Maity, BK Sharma Journal of analytical and applied pyrolysis 140, 179-187, 2019 | 23 | 2019 |
| Residue upgradation with slurry phase catalyst: Effect of feedstock properties R Prajapati, K Kohli, SK Maity Fuel 239, 452-460, 2019 | 21 | 2019 |
| Accelerated pre-coking of NiMo/γ-Al2O3 catalyst: effect on the hydroprocessing activity of vacuum residue K Kohli, R Prajapati, SK Maity, M Sau, BK Sharma Fuel 235, 437-447, 2019 | 19 | 2019 |
| Slurry-Phase Hydrocracking of Residue with Ultradispersed MoS2 Catalysts Prepared by Microemulsion Methods R Prajapati, K Kohli, SK Maity Energy & fuels 31 (4), 3905-3912, 2017 | 19 | 2017 |
| Bio-based chemicals from renewable biomass for integrated biorefineries. Energies 12: 233 K Kohli, R Prajapati, BK Sharma | 16 | 2019 |
| Effect of silica, activated carbon, and alumina supports on NiMo catalysts for residue upgrading K Kohli, R Prajapati, SK Maity, BK Sharma Energies 13 (18), 4967, 2020 | 15 | 2020 |
| Role of catalyst defect sites towards product selectivity in the upgrading of vacuum residue R Prajapati, K Kohli, SK Maity Fuel 314, 123062, 2022 | 11 | 2022 |
| Ultrafine reverse micelle catalysts for slurry-phase residue hydrocracking R Prajapati, K Kohli, SK Maity, BK Sharma Catalysis Today 358, 228-236, 2020 | 11 | 2020 |
| Recovery and recycling of polymeric and plastic materials R Prajapati, K Kohli, SK Maity, BK Sharma Recent Developments in Plastic Recycling, 15-41, 2021 | 9 | 2021 |
| Slurry phase hydrocracking of residue by phosphomolybdic and phosphotungstic acids R Prajapati, K Kohli, SK Maity, MO Garg J Pet Environ Biotechnol 7 (281), 2, 2016 | 7 | 2016 |
| Pyrolytic Depolymerization Mechanisms for Post-Consumer Plastic Wastes K Kohli, SR Chandrasekaran, R Prajapati, B Kunwar, S Al-Salem, ... Energies 15 (23), 8821, 2022 | 5 | 2022 |
| Mesoporous alumina supported NiMo catalysts for residue conversion K Kohli, R Prajapati, M Sau, SK Maity Procedia Earth and Planetary Science 11, 325-331, 2015 | 4 | 2015 |
| A review on value-addition to plastic waste towards achieving a circular economy M Kumar, SK Bhujbal, K Kohli, R Prajapati, BK Sharma, AD Sawarkar, ... Science of The Total Environment, 171106, 2024 | 3 | 2024 |
| Colloidal stability tests on vacuum residue hydrocracked products obtained at increasing severity K Kohli, R Prajapati, N Singh, SK Maity International Journal of Oil, Gas and Coal Technology 21 (1), 76-90, 2019 | 3 | 2019 |
Kirtika KohliCSIR-Indian Institute of PetroleumVerified email at iip.res.in
