Thermal performance and synergetic behaviour of co-pyrolysis of North East Indian bamboo biomass with coal using thermogravimetric analysis
Co-pyrolysis of lignocellulosic biomass and coal is considered as an effective way to reduce the carbon footprint. Bamboo is being a potential source of bioenergy particularly in the North East States of India; the thermal performance and synergetic behaviour of co-pyrolysis of bamboo with high ash...
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Published in | Biomass conversion and biorefinery Vol. 13; no. 13; pp. 11755 - 11768 |
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Main Authors | , , , , |
Format | Journal Article |
Language | English |
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Berlin/Heidelberg
Springer Berlin Heidelberg
01.08.2023
Springer Nature B.V |
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Abstract | Co-pyrolysis of lignocellulosic biomass and coal is considered as an effective way to reduce the carbon footprint. Bamboo is being a potential source of bioenergy particularly in the North East States of India; the thermal performance and synergetic behaviour of co-pyrolysis of bamboo with high ash Indian coal are investigated at various heating rates in a thermogravimetric analyser. Three different blend samples (25% bamboo with 75% coal, 50% bamboo with 50% coal and 75% bamboo with 25% coal) are used. The kinetic parameters are determined using three isoconversional methods: Friedman, Ozawa-Flynn-Wall and Kissinger–Akahira–Sunose. Average activation energy for all three blend samples is found in the range of 121–253 kJ/mol. Co-pyrolysis of all three blend samples have revealed some synergistic effect. However, the blend containing 25% of bamboo has shown the highest synergetic effect in terms of thermodynamic parameters. |
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AbstractList | Co-pyrolysis of lignocellulosic biomass and coal is considered as an effective way to reduce the carbon footprint. Bamboo is being a potential source of bioenergy particularly in the North East States of India; the thermal performance and synergetic behaviour of co-pyrolysis of bamboo with high ash Indian coal are investigated at various heating rates in a thermogravimetric analyser. Three different blend samples (25% bamboo with 75% coal, 50% bamboo with 50% coal and 75% bamboo with 25% coal) are used. The kinetic parameters are determined using three isoconversional methods: Friedman, Ozawa-Flynn-Wall and Kissinger–Akahira–Sunose. Average activation energy for all three blend samples is found in the range of 121–253 kJ/mol. Co-pyrolysis of all three blend samples have revealed some synergistic effect. However, the blend containing 25% of bamboo has shown the highest synergetic effect in terms of thermodynamic parameters. Abstract Co-pyrolysis of lignocellulosic biomass and coal is considered as an effective way to reduce the carbon footprint. Bamboo is being a potential source of bioenergy particularly in the North East States of India; the thermal performance and synergetic behaviour of co-pyrolysis of bamboo with high ash Indian coal are investigated at various heating rates in a thermogravimetric analyser. Three different blend samples (25% bamboo with 75% coal, 50% bamboo with 50% coal and 75% bamboo with 25% coal) are used. The kinetic parameters are determined using three isoconversional methods: Friedman, Ozawa-Flynn-Wall and Kissinger–Akahira–Sunose. Average activation energy for all three blend samples is found in the range of 121–253 kJ/mol. Co-pyrolysis of all three blend samples have revealed some synergistic effect. However, the blend containing 25% of bamboo has shown the highest synergetic effect in terms of thermodynamic parameters. |
Author | Pattanayak, Satyajit Saha, Dipankar Loha, Chanchal Sailo, Lalsangzela Hauchhum, Lalhmingsanga |
Author_xml | – sequence: 1 givenname: Satyajit surname: Pattanayak fullname: Pattanayak, Satyajit organization: Department of Mechanical Engineering, National Institute of Technology Mizoram, Energy Research and Technology Group, CSIR-Central Mechanical Engineering Research Institute – sequence: 2 givenname: Lalhmingsanga surname: Hauchhum fullname: Hauchhum, Lalhmingsanga organization: Department of Mechanical Engineering, National Institute of Technology Mizoram – sequence: 3 givenname: Chanchal surname: Loha fullname: Loha, Chanchal email: chanchal.loha@gmail.com organization: Energy Research and Technology Group, CSIR-Central Mechanical Engineering Research Institute – sequence: 4 givenname: Lalsangzela surname: Sailo fullname: Sailo, Lalsangzela organization: Department of Civil Engineering, Mizoram University – sequence: 5 givenname: Dipankar surname: Saha fullname: Saha, Dipankar organization: Department of Mechanical Engineering, National Institute of Technology Mizoram |
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Keywords | Co-pyrolysis Isoconversional model Coal Thermodynamic parameters Kinetics Synergistic effect Bamboo |
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Snippet | Co-pyrolysis of lignocellulosic biomass and coal is considered as an effective way to reduce the carbon footprint. Bamboo is being a potential source of... Abstract Co-pyrolysis of lignocellulosic biomass and coal is considered as an effective way to reduce the carbon footprint. Bamboo is being a potential source... |
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SubjectTerms | Bamboo Biomass Biotechnology Coal Energy Lignocellulose Original Article Parameters Pyrolysis Renewable and Green Energy Synergistic effect Thermogravimetric analysis |
Title | Thermal performance and synergetic behaviour of co-pyrolysis of North East Indian bamboo biomass with coal using thermogravimetric analysis |
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