Investigation of Kinetic and Thermodynamic Parameters of Sapodilla Leaves Pyrolysis Using Coats Redfern Model DOI
Muhammad Asif,

Rumaisa Tariq,

Muhammad Bilal

et al.

Published: Aug. 23, 2024

Abstract The determination of the energy potential indigenous biomass waste is primarily focus every country in its quest to meet demand via clean and sustainable sources. objective current study investigate thermo-kinetic behavior sapodilla leaves with thermogravimetric analysis analyze utilization for production through thermochemical conversion process. Sapodilla were dried, pulverized, heated non-isothermally from room temperature 900°C at different heating rates an inert environment. Thermogravimetric results indicated that pyrolysis divided into three stages. Coats-Redfern integral model was applied 2nd 3rd stages estimate numerical value parameters, using five major solid-state reaction mechanisms. low-temperature stable components (LTSC) degraded range 250–550°C while high-temperature (HTSC) decomposed 550–850°C. About 45-50wt% degradation first about 15-17wt% observed 550–900°C. According results, diffusion D3showed highest regression coefficient stage second stage, nucleation models N1.5and N2showed coefficient. activation found between 30–32 kJmol− 1for best-fitted regions 8–12 1in regions. positive change enthalpy Gibbs free showed endothermic negative entropy more regular arrangement products. Thermo-kinetic hints toward their huge bio-oil syngas gasification processes.

Language: Английский

Development of sustainable biogenic marine waste-based composite for phosphate ions recovery and subsequent biogas production DOI
Huda M. Alghamdi, Mohamed El-Qelish, Khalid Z. Elwakeel

et al.

Biomass and Bioenergy, Journal Year: 2025, Volume and Issue: 197, P. 107819 - 107819

Published: March 30, 2025

Language: Английский

Citations

0
Life cycle sustainability assessment of staple food processing: A double and dynamic materiality approach DOI Creative Commons
Mwewa Chikonkolo Mwape, Aditya Parmar, Franz Román

et al.

Sustainable Production and Consumption, Journal Year: 2025, Volume and Issue: unknown

Published: April 1, 2025

Language: Английский

Citations

0
Investigation of Kinetic and Thermodynamic Parameters of Sapodilla Leaves Pyrolysis Using Coats Redfern Model DOI
Muhammad Asif,

Rumaisa Tariq,

Muhammad Bilal

et al.

Published: Aug. 23, 2024

Abstract The determination of the energy potential indigenous biomass waste is primarily focus every country in its quest to meet demand via clean and sustainable sources. objective current study investigate thermo-kinetic behavior sapodilla leaves with thermogravimetric analysis analyze utilization for production through thermochemical conversion process. Sapodilla were dried, pulverized, heated non-isothermally from room temperature 900°C at different heating rates an inert environment. Thermogravimetric results indicated that pyrolysis divided into three stages. Coats-Redfern integral model was applied 2nd 3rd stages estimate numerical value parameters, using five major solid-state reaction mechanisms. low-temperature stable components (LTSC) degraded range 250–550°C while high-temperature (HTSC) decomposed 550–850°C. About 45-50wt% degradation first about 15-17wt% observed 550–900°C. According results, diffusion D3showed highest regression coefficient stage second stage, nucleation models N1.5and N2showed coefficient. activation found between 30–32 kJmol− 1for best-fitted regions 8–12 1in regions. positive change enthalpy Gibbs free showed endothermic negative entropy more regular arrangement products. Thermo-kinetic hints toward their huge bio-oil syngas gasification processes.

Language: Английский

Citations

0