Effects of Biomass Moisture Content and Process Temperature on Biopellet Quality Derived from Rubber Seed Shell and Ater Bamboo (Gigantochloa atter)

• Main Author: I Dewa Gede Putra Prabawa
• Format: Article
• Language: Indonesian
• Published: Balai Riset dan Standardisasi Industri Banj 2018-12-01
• Series: Jurnal Riset Industri Hasil Hutan
• Subjects: biopellet; rubber seed shell; Gigantochloa atter; moisture content; temperature
• Online Access: http://ejournal.kemenperin.go.id/jrihh/article/view/3975

<p><em>The purposes of this research were</em><em> to study the ieffects of biomass moisture content and process temperature on the quality of biopellet derived from </em><em>rubber seed shell</em><em> and bamboo ater (Gigantochloa atter). The biomass was conditioned at different moisture contents (6, 12, 14, 16, 18, and 20% w/w), and the biopelet was produced at a pressure of 597,24 kg/cm² with various process temperatures (100, 125, 150, 175, and 200^oC). The results showed that the properties of produced biopellets were significantly affected by the variation of moisture content and process temperature. High moisture content of biomass could increase the moisture content of biopellet while the calorific value and ash content decreased. With the increase in process temperatures, calorific value and ash increased whereas the moisture content of biopellet decreased. Mechanical durability was enhanced with the increase inthe moisture content of biomass, starting from 6% to 18%;and was improved with the increase in the process temperatures, starting from 100^oC to 175^oC. However, the </em><em>bulk density of biopellet</em><em> increased with the increase inthe moisture content of biomass, starting from 6% to 16%, and was improved with the increase in the process temperatures from 100^oC to 150^oC. The best quality of biopellet </em><em>was produced</em><em>  in the biomass moisture content of 16% and the process temperature of 150^oC. That biopellet had mechanical durability of</em><em> 99.16</em><em>%, calorific value of 4,402 cal/g, bulk density of 1,157 kg/m³, moisture content of</em><em> 6.71</em><em>%, ash of 1.19%, nitrogen of 0.15%, Sulphur of 0.013%, and chlorine of</em><em> &lt;0.1 ppm</em><em>. That biopellet quality met European standards (EN 14961-2).</em></p>