2020
DOI: 10.13189/ujme.2020.080408
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Optimization of Composition of Selected Biomass for Briquette Production

Abstract: In this study, investigations were carried out on the energy evaluation, performance analysis and optimization of briquettes produced from biomass wastes (rice-husk and sawdust) and their composites using starch and clay as binders. The proximate compositions of the briquettes were determined following ASTM analytical methods. The moisture content of rice husk and sawdust before briquettes was 20wt.% and 15wt.% respectively. The briquettes produced from bio-waste material of homogeneous particle sizes of 0.5mm… Show more

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Cited by 11 publications
(3 citation statements)
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“…Evaluation of the calorific value content and ash content suggests that, the higher the briquettes ash content, the lower its calorific value. The results were in compliance with the reports of 7.68% of charcoal briquettes by Pinate and Dangphonthong, [29] and 6.65% of charcoal briquettes from Acacia melifera by Chukwuneke et al, [30]. Also, according to Channey, [12], when fuels with high ash content are burnt in cooking stoves, the flow of clean air into the cooking stove will be adversely affected if the residual ash is not frequently removed.…”
Section: Resultssupporting
confidence: 90%
“…Evaluation of the calorific value content and ash content suggests that, the higher the briquettes ash content, the lower its calorific value. The results were in compliance with the reports of 7.68% of charcoal briquettes by Pinate and Dangphonthong, [29] and 6.65% of charcoal briquettes from Acacia melifera by Chukwuneke et al, [30]. Also, according to Channey, [12], when fuels with high ash content are burnt in cooking stoves, the flow of clean air into the cooking stove will be adversely affected if the residual ash is not frequently removed.…”
Section: Resultssupporting
confidence: 90%
“…The briquette blends produced had a calorific value in the range of 26.53 to 28.11 MJ/kg, compressive strength in the range of 1.87 to 2.87 N/mm2, burning rate of 0.805 to 1.592 g/min and density of 748.11 to 1034.62 kg/m3. These are better than the results obtained by [19], [20] and [21]. These briquette performances shows that the carbonization of biomass prior to densification improves the performance of the briquettes with regards to calorific value, compressive strength, burning rate and density as opposed to direct briquetting of raw biomass with low heating value, high burning rate and low density.…”
Section: Ultimate Analysis Of Selected Biomassmentioning
confidence: 51%
“…Thus, the developed models are adequate enough to predict the calorific value, burn rate, density and compressive strength respectively. These proof to be better than result gotten by Chukwuneke et al (2020), Noor (2017), andAgomuo et al (2019). Briquetting of carbonized agricultural waste will go a long way in solving domestic cooking energy requirement and mitigate deforestation due to energy needs in developing and underdeveloped countries.…”
Section: Process Optimizationmentioning
confidence: 63%