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Analysis of binder proportions on the calorific value in a briquette made from cocoa pod husk in the Peruvian Amazon

Introduction: The growing global demand for fuel has created challenges in the supply of raw materials, positioning biomass derived from cocoa pod husk waste as an economically viable and environmentally sustainable energy alternative. Methods: This study evaluated the effect of different binder typ...

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Autores principales: Solórzano Acosta, Richard Andi, Paquiyauri, Alexandra, Neyra, Walter, Siqueira Bahia, Rita de Cassia, Vallejos Torres, Geomar
Formato: Artículo
Lenguaje:Inglés
Publicado: Frontiers Media S.A. 2025
Materias:
Calorific value
Circular economy
Elemental composition
Combustion
Gravimetry
Valor calorífico
Economía circular
Composición elemental
Combustión
Gravimetría
https://purl.org/pe-repo/ocde/ford#4.04.00
Cocoa; Cacao; Biomass; Biomasa; Fuels; Combustible; Starch; Almidón; Bioenergy; Bioenergía; Calorific value; Valor energético
Acceso en línea:http://hdl.handle.net/20.500.12955/2860
https://doi.org/10.3389/fenrg.2025.1661636
Sumario:Introduction: The growing global demand for fuel has created challenges in the supply of raw materials, positioning biomass derived from cocoa pod husk waste as an economically viable and environmentally sustainable energy alternative. Methods: This study evaluated the effect of different binder types on the calorific value of briquettes produced from fermented cocoa pod husk waste in the Peruvian Amazon. For the calorific value assay, 1.05 kg of fermented cocoa pod husk waste was combined with 100 g of starch-based binders derived from corn, cassava, or potato, all sourced from the San Martín region. Statistical analyses were performed in R Studio using the dplyr package, and mean comparisons were conducted with Tukey's HSD test (p < 0.05). Results: The lowest ash content was obtained with the potato-starch binder (7.03%), whereas the highest value was recorded in the control treatment without binder (8.71%). Fixed carbon content ranged from 3.70% to 5.97% across treatments. The lowest calorific value was observed with the corn-starch binder (3,486.0 kcal/kg), while the highest was achieved with cassava starch (3,586.66 kcal/kg). Discussion: These findings demonstrate the technical feasibility of producing high-quality charcoal briquettes from cocoa pod husk waste using starch-based binders, providing a sustainable alternative to conventional fuels.

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