| Biofuels production from pine needles via pyrolysis: Process parameters modeling and optimization through combined RSM and ANN based approach S Gupta, P Patel, P Mondal Fuel 310, 122230, 2022 | 102 | 2022 |
| Slow pyrolysis of chemically treated walnut shell for valuable products: Effect of process parameters and in-depth product analysis S Gupta, GK Gupta, MK Mondal Energy 181, 665-676, 2019 | 98 | 2019 |
| Advances in upgradation of pyrolysis bio-oil and biochar towards improvement in bio-refinery economics: A comprehensive review S Gupta, P Mondal, VB Borugadda, AK Dalai Environmental Technology & Innovation 21, 101276, 2021 | 97 | 2021 |
| Catalytic pyrolysis of pine needles with nickel doped gamma-alumina: reaction kinetics, mechanism, thermodynamics and products analysis S Gupta, P Mondal Journal of Cleaner Production 286, 124930, 2021 | 83 | 2021 |
| Electrocoagulation process for greywater treatment: Statistical modeling, optimization, cost analysis and sludge management P Patel, S Gupta, P Mondal Separation and Purification Technology 296, 121327, 2022 | 50 | 2022 |
| Enhancement of hydrocarbons and phenols in catalytic pyrolysis bio-oil by employing aluminum hydroxide nanoparticle based spent adsorbent derived catalysts S Gupta, R Lanjewar, P Mondal Chemosphere 287, 132220, 2022 | 32 | 2022 |
| Modeling of continuous adsorption of greywater pollutants onto sawdust activated carbon bed integrated with sand column P Patel, S Gupta, P Mondal Journal of Environmental Chemical Engineering 10 (2), 107155, 2022 | 30 | 2022 |
| Catalytic pyrolysis using a nickel-functionalized chemically activated biochar catalyst: insight into process kinetics, products, and mechanism S Gupta, P Patel, P Mondal ACS Sustainable Chemistry & Engineering 10 (18), 5770-5780, 2022 | 21 | 2022 |
| Modeling and optimization of process parameters of MB dye adsorption using waste-derived chemically activated biosorbents P Patel, S Gupta, P Mondal Biomass Conversion and Biorefinery 13 (15), 13461-13480, 2023 | 15 | 2023 |
| Life cycle analysis (LCA) and economic evaluation of catalytic fast pyrolysis: implication of co-product's end-usage, catalyst type, and process parameters S Gupta, P Patel, P Mondal Sustainable Energy & Fuels 6 (12), 2970-2988, 2022 | 14 | 2022 |
| Life Cycle Assessment (LCA) of Greywater Treatment Using ZnCl2 Impregnated Activated Carbon and Electrocoagulation Processes: A Comparative Study P Patel, S Gupta, P Mondal Industrial & Engineering Chemistry Research 62 (7), 3259-3270, 2023 | 7 | 2023 |
| Life cycle analysis and operating cost assessment of a carbon negative catalytic pyrolysis technique using a spent aluminum hydroxide nanoparticle adsorbent-derived catalyst … S Gupta, P Patel, P Mondal Energy & Fuels 37 (4), 2960-2971, 2023 | 4 | 2023 |
| Catalytic pyrolysis of pine needles using metal functionalized spent adsorbent derived catalysts: Kinetics, thermodynamics and prediction modelling using artificial neural … S Gupta, P Patel, P Mondal Industrial Crops and Products 214, 118481, 2024 | 3 | 2024 |
| Environmental Footprints of the Catalytic Pyrolysis of Pine Needles through Integration of a Nickel-Decorated Chemically Modified Biochar Catalyst S Gupta, P Patel, P Mondal ACS Sustainable Chemistry & Engineering 11 (14), 5577-5588, 2023 | 3 | 2023 |
| Process optimisation and enviro-economic assessment of carbon-negative hydrogen production from biomass co-gasification P Patel, I Dimitriou, P Mondal, O Singh, S Gupta Energy Conversion and Management 323, 119211, 2025 | 1 | 2025 |
| Energy generation from waste packaging plastic via thermo-catalytic pyrolysis using catalysts produced from spent aluminum hydroxide nanoparticles N Lal, S Gupta, H Goyal, P Mondal Clean Technologies and Environmental Policy 26 (3), 729-740, 2024 | | 2024 |
| Catalytic upgrading of bio-oil and bio-crude oil to synthetic transportation fuels S Gupta, AK Varma, P Mondal Biomass to Bioenergy, 155-184, 2024 | | 2024 |