Thermogravimetric and Kinetic Analysis of Melon (Citrullus colocynthis L.) Seed Husk Using the Distributed Activation Energy Model
This study seeks to characterize the thermochemical fuel properties of melon seed husk (MSH) as a potential biomass feedstock for clean energy and power generation. It examined the ultimate analysis, proximate analysis, FTIR spectroscopy and thermal decomposition of MSH. Thermogravimetric (TG) analy...
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| Series: | Environmental and Climate Technologies |
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| Online Access: | https://doi.org/10.1515/rtuect-2015-0007 |
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doaj-78625965726646e8991e0d56b11a28412021-09-05T14:00:23ZengSciendoEnvironmental and Climate Technologies2255-88372015-12-01151778910.1515/rtuect-2015-0007rtuect-2015-0007Thermogravimetric and Kinetic Analysis of Melon (Citrullus colocynthis L.) Seed Husk Using the Distributed Activation Energy ModelNyakuma Bemgba Bevan0Universiti Teknologi Malaysia, 1310 UTM Skudai, Johor Bahru, MalaysiaThis study seeks to characterize the thermochemical fuel properties of melon seed husk (MSH) as a potential biomass feedstock for clean energy and power generation. It examined the ultimate analysis, proximate analysis, FTIR spectroscopy and thermal decomposition of MSH. Thermogravimetric (TG) analysis was examined at 5, 10, 20 °C/min from 30-800 °C under nitrogen atmosphere. Subsequently, the Distributed Activation Energy Model (DAEM) was applied to determine the activation energy, E, and frequency factor, A. The results revealed that thermal decomposition of MSH occurs in three (3) stages; drying (30-150 °C), devolatization (150-400 °C) and char degradation (400-800 °C). Kinetic analysis revealed that the E values fluctuated from 145.44-300 kJ/mol (Average E = 193 kJ/mol) while A ranged from 2.64 × 1010 to 9.18 × 1020 min-1 (Average E = 9.18 × 1019 min-1) highlighting the complexity of MSH pyrolysis. The fuel characterization and kinetics of MSH showed it is an environmentally friendly solid biofuel for future thermal biomass conversion.https://doi.org/10.1515/rtuect-2015-0007activation energyhuskskineticsmelonthermogravimetric |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Nyakuma Bemgba Bevan |
| spellingShingle |
Nyakuma Bemgba Bevan Thermogravimetric and Kinetic Analysis of Melon (Citrullus colocynthis L.) Seed Husk Using the Distributed Activation Energy Model Environmental and Climate Technologies activation energy husks kinetics melon thermogravimetric |
| author_facet |
Nyakuma Bemgba Bevan |
| author_sort |
Nyakuma Bemgba Bevan |
| title |
Thermogravimetric and Kinetic Analysis of Melon (Citrullus colocynthis L.) Seed Husk Using the Distributed Activation Energy Model |
| title_short |
Thermogravimetric and Kinetic Analysis of Melon (Citrullus colocynthis L.) Seed Husk Using the Distributed Activation Energy Model |
| title_full |
Thermogravimetric and Kinetic Analysis of Melon (Citrullus colocynthis L.) Seed Husk Using the Distributed Activation Energy Model |
| title_fullStr |
Thermogravimetric and Kinetic Analysis of Melon (Citrullus colocynthis L.) Seed Husk Using the Distributed Activation Energy Model |
| title_full_unstemmed |
Thermogravimetric and Kinetic Analysis of Melon (Citrullus colocynthis L.) Seed Husk Using the Distributed Activation Energy Model |
| title_sort |
thermogravimetric and kinetic analysis of melon (citrullus colocynthis l.) seed husk using the distributed activation energy model |
| publisher |
Sciendo |
| series |
Environmental and Climate Technologies |
| issn |
2255-8837 |
| publishDate |
2015-12-01 |
| description |
This study seeks to characterize the thermochemical fuel properties of melon seed husk (MSH) as a potential biomass feedstock for clean energy and power generation. It examined the ultimate analysis, proximate analysis, FTIR spectroscopy and thermal decomposition of MSH. Thermogravimetric (TG) analysis was examined at 5, 10, 20 °C/min from 30-800 °C under nitrogen atmosphere. Subsequently, the Distributed Activation Energy Model (DAEM) was applied to determine the activation energy, E, and frequency factor, A. The results revealed that thermal decomposition of MSH occurs in three (3) stages; drying (30-150 °C), devolatization (150-400 °C) and char degradation (400-800 °C). Kinetic analysis revealed that the E values fluctuated from 145.44-300 kJ/mol (Average E = 193 kJ/mol) while A ranged from 2.64 × 1010 to 9.18 × 1020 min-1 (Average E = 9.18 × 1019 min-1) highlighting the complexity of MSH pyrolysis. The fuel characterization and kinetics of MSH showed it is an environmentally friendly solid biofuel for future thermal biomass conversion. |
| topic |
activation energy husks kinetics melon thermogravimetric |
| url |
https://doi.org/10.1515/rtuect-2015-0007 |
| work_keys_str_mv |
AT nyakumabemgbabevan thermogravimetricandkineticanalysisofmeloncitrulluscolocynthislseedhuskusingthedistributedactivationenergymodel |
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1717811993820266496 |