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 inBiomass conversion and biorefinery Vol. 13; no. 13; pp. 11755 - 11768
Main Authors Pattanayak, Satyajit, Hauchhum, Lalhmingsanga, Loha, Chanchal, Sailo, Lalsangzela, Saha, Dipankar
Format Journal Article
LanguageEnglish
Published Berlin/Heidelberg Springer Berlin Heidelberg 01.08.2023
Springer Nature B.V
Subjects
Bamboo
Biomass
Biotechnology
Coal
Energy
Lignocellulose
Original Article
Parameters
Pyrolysis
Renewable and Green Energy
Synergistic effect
Thermogravimetric analysis
Co-pyrolysis
Isoconversional model
Coal
Thermodynamic parameters
Kinetics
Synergistic effect
Bamboo
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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.
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
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  givenname: Lalhmingsanga
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Isoconversional model
Coal
Thermodynamic parameters
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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...
SourceID proquest
crossref
springer
SourceType Aggregation Database
Publisher
StartPage 11755
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
URI https://link.springer.com/article/10.1007/s13399-021-02196-0
https://www.proquest.com/docview/2853053521/abstract/
Volume 13
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