Kinetic triplet and thermodynamic parameters of the pyrolysis reaction of invasive grass Eleusine indica biomass: a new low-cost feedstock for bioenergy production

The present paper aims to elucidate the bioenergy potential of the invasive grass Eleusine indica based on its physicochemical characterization, pyrolysis kinetics, and thermodynamic parameters. The pyrolytic behavior of E. indica acquired from non-isothermal thermogravimetric experiments was kineti...

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Published in:	Biomass conversion and biorefinery Vol. 14; no. 21; pp. 26925 - 26941
Main Authors:	Alves, José Luiz Francisco, da Silva, Jean Constantino Gomes, Mumbach, Guilherme Davi, Alves, Ricardo Francisco, Di Domenico, Michele
Format:	Journal Article
Language:	English
Published:	Berlin/Heidelberg Springer Berlin Heidelberg 2024 Springer Nature B.V
Subjects:	Biomass Biotechnology Devolatilization Endothermic reactions Energy Energy value Grasses Original Article Parameters Pyrolysis Raw materials Renewable and Green Energy Renewable energy Thermodynamics Kinetic triplet Pyrolysis Invasive grass Thermogravimetric analysis Bioenergy potential
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Abstract	The present paper aims to elucidate the bioenergy potential of the invasive grass Eleusine indica based on its physicochemical characterization, pyrolysis kinetics, and thermodynamic parameters. The pyrolytic behavior of E. indica acquired from non-isothermal thermogravimetric experiments was kinetically represented by three independent parallel reactions, each corresponding to one pseudo-component (pseudo-hemicellulose (P-HC), pseudo-cellulose (P-CL), and pseudo-lignin (P-LG)). The pseudo-components were typified by their kinetic triplets ( E a , A , and f(α) ) and thermodynamics parameters (Δ H , Δ G , and Δ S ). The average activation energy values of E. indica pyrolysis estimated from four isoconversional methods (Friedman, Flynn–Wall–Ozawa, Kissinger–Akahira–Sunose, and Starink) varied between 98.5 and 101.8 kJ mol −1 for P-HC, 113.7 and 123.4 kJ mol −1 for P-CL, and 205.3 and 236.0 kJ mol −1 for P-LG. Pre-exponential factors of devolatilization of P-HC, P-CL, and P-LG estimated from the kinetic compensation effect were 1.73 × 10 9 , 6.06 × 10 9 , and 1.16 × 10 19 min −1 , respectively. The most plausible mechanisms for the E. indica pyrolysis included the F2 reaction model for P-HC, the A2 reaction model for P-CL, and the F6 reaction model for P-LG. The cumulative kinetic expression adequately represents the experimental kinetic curves, with R 2 > 0.92 and Fit > 94.9%. Based on the thermodynamic analysis, the positive values of Δ H and Δ G showed that the E. indica pyrolysis was endothermic and nonspontaneous. In contrast, the Δ S was negative, revealing a lower reactive process characteristic. Overall, the results highlight the potential utilization of E. indica for bioenergy production and provide a solid basis for designing pyrolytic reactors using this invasive grass as a feedstock. Graphical abstract
AbstractList	Abstract The present paper aims to elucidate the bioenergy potential of the invasive grass Eleusine indica based on its physicochemical characterization, pyrolysis kinetics, and thermodynamic parameters. The pyrolytic behavior of E. indica acquired from non-isothermal thermogravimetric experiments was kinetically represented by three independent parallel reactions, each corresponding to one pseudo-component (pseudo-hemicellulose (P-HC), pseudo-cellulose (P-CL), and pseudo-lignin (P-LG)). The pseudo-components were typified by their kinetic triplets (Ea, A, and f(α)) and thermodynamics parameters (ΔH, ΔG, and ΔS). The average activation energy values of E. indica pyrolysis estimated from four isoconversional methods (Friedman, Flynn–Wall–Ozawa, Kissinger–Akahira–Sunose, and Starink) varied between 98.5 and 101.8 kJ mol−1 for P-HC, 113.7 and 123.4 kJ mol−1 for P-CL, and 205.3 and 236.0 kJ mol−1 for P-LG. Pre-exponential factors of devolatilization of P-HC, P-CL, and P-LG estimated from the kinetic compensation effect were 1.73 × 109, 6.06 × 109, and 1.16 × 1019 min−1, respectively. The most plausible mechanisms for the E. indica pyrolysis included the F2 reaction model for P-HC, the A2 reaction model for P-CL, and the F6 reaction model for P-LG. The cumulative kinetic expression adequately represents the experimental kinetic curves, with R2 > 0.92 and Fit > 94.9%. Based on the thermodynamic analysis, the positive values of ΔH and ΔG showed that the E. indica pyrolysis was endothermic and nonspontaneous. In contrast, the ΔS was negative, revealing a lower reactive process characteristic. Overall, the results highlight the potential utilization of E. indica for bioenergy production and provide a solid basis for designing pyrolytic reactors using this invasive grass as a feedstock. The present paper aims to elucidate the bioenergy potential of the invasive grass Eleusine indica based on its physicochemical characterization, pyrolysis kinetics, and thermodynamic parameters. The pyrolytic behavior of E. indica acquired from non-isothermal thermogravimetric experiments was kinetically represented by three independent parallel reactions, each corresponding to one pseudo-component (pseudo-hemicellulose (P-HC), pseudo-cellulose (P-CL), and pseudo-lignin (P-LG)). The pseudo-components were typified by their kinetic triplets ( E a , A , and f(α) ) and thermodynamics parameters (Δ H , Δ G , and Δ S ). The average activation energy values of E. indica pyrolysis estimated from four isoconversional methods (Friedman, Flynn–Wall–Ozawa, Kissinger–Akahira–Sunose, and Starink) varied between 98.5 and 101.8 kJ mol −1 for P-HC, 113.7 and 123.4 kJ mol −1 for P-CL, and 205.3 and 236.0 kJ mol −1 for P-LG. Pre-exponential factors of devolatilization of P-HC, P-CL, and P-LG estimated from the kinetic compensation effect were 1.73 × 10 9 , 6.06 × 10 9 , and 1.16 × 10 19 min −1 , respectively. The most plausible mechanisms for the E. indica pyrolysis included the F2 reaction model for P-HC, the A2 reaction model for P-CL, and the F6 reaction model for P-LG. The cumulative kinetic expression adequately represents the experimental kinetic curves, with R 2 > 0.92 and Fit > 94.9%. Based on the thermodynamic analysis, the positive values of Δ H and Δ G showed that the E. indica pyrolysis was endothermic and nonspontaneous. In contrast, the Δ S was negative, revealing a lower reactive process characteristic. Overall, the results highlight the potential utilization of E. indica for bioenergy production and provide a solid basis for designing pyrolytic reactors using this invasive grass as a feedstock. Graphical abstract
Author	Mumbach, Guilherme Davi Alves, Ricardo Francisco Alves, José Luiz Francisco da Silva, Jean Constantino Gomes Di Domenico, Michele
Author_xml	– sequence: 1 givenname: José Luiz Francisco surname: Alves fullname: Alves, José Luiz Francisco organization: Department of Chemical Engineering and Food Engineering, Federal University of Santa Catarina – sequence: 2 givenname: Jean Constantino Gomes surname: da Silva fullname: da Silva, Jean Constantino Gomes organization: Department of Chemical Engineering, Federal University of Paraíba – sequence: 3 givenname: Guilherme Davi orcidid: 0000-0001-8599-6094 surname: Mumbach fullname: Mumbach, Guilherme Davi email: gdmumbach@gmail.com, guilherme.mumbach@posgrad.ufsc.br organization: Department of Chemical Engineering and Food Engineering, Federal University of Santa Catarina – sequence: 4 givenname: Ricardo Francisco surname: Alves fullname: Alves, Ricardo Francisco organization: Department of Materials Science and Engineering, Federal University of Campina Grande – sequence: 5 givenname: Michele surname: Di Domenico fullname: Di Domenico, Michele organization: Department of Engineering, Federal University of Technology – Paraná (UTFPR)
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Snippet	The present paper aims to elucidate the bioenergy potential of the invasive grass Eleusine indica based on its physicochemical characterization, pyrolysis... Abstract The present paper aims to elucidate the bioenergy potential of the invasive grass Eleusine indica based on its physicochemical characterization,...
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SubjectTerms	Biomass Biotechnology Devolatilization Endothermic reactions Energy Energy value Grasses Original Article Parameters Pyrolysis Raw materials Renewable and Green Energy Renewable energy Thermodynamics
Title	Kinetic triplet and thermodynamic parameters of the pyrolysis reaction of invasive grass Eleusine indica biomass: a new low-cost feedstock for bioenergy production
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