Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
4926328 | Renewable Energy | 2017 | 52 Pages |
Abstract
In this study groundnut shells and bagasse briquettes from agricultural wastes were developed with cassava and wheat starch binders using low pressure and high pressure techniques. In the low pressure technique, briquettes were produced after carbonization of groundnut shells and bagasse. The resulting bio-char was mixed with 30, 50, 70 and 90Â g of cassava and wheat flour starch binder for each 1000Â g of groundnut shells and bagasse bio-char. Groundnut shell briquettes were also developed under high pressure (230Â MPa) using groundnut shells (1000Â g) without a binder, groundnut shells (1000Â g) with cassava flour starch binder (250Â g) and groundnut shells with wheat flour starch binder (250Â g). Thermo-physical properties of the briquettes were determined using thermo-gravimetric analysis. A Bomb calorimeter was used to determine the higher heating values of the briquettes. Thermal characteristics were determined by observing the flame temperature during combustion. The mechanical integrity of the briquettes was determined using the drop test method. The higher heating values for groundnut shell and bagasse briquettes developed using low pressure techniques were between 21 and 23Â MJ/kg for both cassava and wheat starch binders. The results were all above the 16Â MJ/kg average recorded for non-carbonized groundnut shell briquettes developed under high pressure.
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Authors
Michael Lubwama, Vianney Andrew Yiga,