Thallada Bhaskar
Thallada Bhaskar
Chief Scientist & Head, Material Resource Efficiency Division (MRED), CSIR-IIP & Professor, AcSIR
Verified email at - Homepage
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A comprehensive review on the pyrolysis of lignocellulosic biomass
V Dhyani, T Bhaskar
Renewable energy 129, 695-716, 2018
Pyrolysis of agricultural biomass residues: Comparative study of corn cob, wheat straw, rice straw and rice husk
B Biswas, N Pandey, Y Bisht, R Singh, J Kumar, T Bhaskar
Bioresource technology 237, 57-63, 2017
Comparative studies of oil compositions produced from sawdust, rice husk, lignin and cellulose by hydrothermal treatment
S Karagöz, T Bhaskar, A Muto, Y Sakata
Fuel 84 (7-8), 875-884, 2005
Pyrolysis kinetics and thermodynamic parameters of castor (Ricinus communis) residue using thermogravimetric analysis
R Kaur, P Gera, MK Jha, T Bhaskar
Bioresource Technology 250, 422-428, 2018
Low-temperature catalytic hydrothermal treatment of wood biomass: analysis of liquid products
S Karagöz, T Bhaskar, A Muto, Y Sakata, T Oshiki, T Kishimoto
Chemical Engineering Journal 108 (1-2), 127-137, 2005
Process development status of fast pyrolysis technologies for the manufacture of renewable transport fuels from biomass
G Perkins, T Bhaskar, M Konarova
Renewable and Sustainable Energy Reviews 90, 292-315, 2018
Thermal decomposition kinetics of sorghum straw via thermogravimetric analysis
V Dhyani, J Kumar, T Bhaskar
Bioresource technology 245, 1122-1129, 2017
A review on the production of renewable aviation fuels from the gasification of biomass and residual wastes
M Shahabuddin, MT Alam, BB Krishna, T Bhaskar, G Perkins
Bioresource Technology 312, 123596, 2020
Hydrothermal upgrading of biomass: Effect of K2CO3 concentration and biomass/water ratio on products distribution
S Karagöz, T Bhaskar, A Muto, Y Sakata
Bioresource technology 97 (1), 90-98, 2006
Low-temperature hydrothermal treatment of biomass: effect of reaction parameters on products and boiling point distributions
S Karagöz, T Bhaskar, A Muto, Y Sakata, MA Uddin
Energy & fuels 18 (1), 234-241, 2004
Microbial assisted high impact polystyrene (HIPS) degradation
AJ Mohan, VC Sekhar, T Bhaskar, KM Nampoothiri
Bioresource technology 213, 204-207, 2016
Recent advances in thermochemical conversion of biomass
A Pandey, T Bhaskar, M Stöcker, R Sukumaran
Elsevier, 2015
Thermal decomposition of flame-retarded high-impact polystyrene
E Jakab, MA Uddin, T Bhaskar, Y Sakata
Journal of analytical and applied pyrolysis 68, 83-99, 2003
Utilization of lignin: A sustainable and eco-friendly approach
A Kumar, J Kumar, T Bhaskar
Journal of the Energy Institute 93 (1), 235-271, 2020
Non isothermal model free kinetics for pyrolysis of rice straw
G Mishra, T Bhaskar
Bioresource technology 169, 614-621, 2014
Biomass derived functional carbon materials for supercapacitor applications
S Rawat, RK Mishra, T Bhaskar
Chemosphere 286, 131961, 2022
Recycling of waste lubricant oil into chemical feedstock or fuel oil over supported iron oxide catalysts
T Bhaskar, MA Uddin, A Muto, Y Sakata, Y Omura, K Kimura, Y Kawakami
Fuel 83 (1), 9-15, 2004
Hydochar and biochar: production, physicochemical properties and techno-economic analysis
A Kumar, K Saini, T Bhaskar
Bioresource technology 310, 123442, 2020
Kinetic studies on the pyrolysis of pinewood
G Mishra, J Kumar, T Bhaskar
Bioresource Technology 182, 282-288, 2015
Microbial degradation of high impact polystyrene (HIPS), an e-plastic with decabromodiphenyl oxide and antimony trioxide
VC Sekhar, KM Nampoothiri, AJ Mohan, NR Nair, T Bhaskar, A Pandey
Journal of hazardous materials 318, 347-354, 2016
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