Investigation of the Potential for Biocoke Production from the Coconut Shell

2021 6th International Conference on Business and Industrial Research (ICBIR) Pub Date : 2021-05-20 DOI:10.1109/ICBIR52339.2021.9465858

Waritsara Lersin, Mahunnop Fakkao, Supitchaya Cerdkeadttikul, T. Ida, J. Chaichanawong

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引用次数: 1

Abstract

Currently, Thailand is attempting to overcome the energy security issues by initiating a sustainable solution with an alternative energy development plan. One of the potential energy sources for Thai society is the solid biofuels, so-called biocoke. The biocoke can be made from agricultural or municipal wastes. This study is focused on the production of biocoke from coconut shells since Thailand exports the product from coconuts, leaving numerous coconut shells behind. To produce the biocoke, raw coconut shells were ground into a particle size less than 1 mm. The moisture content of coconut shells was varied every 5 wt% from 0 to 15 wt% to investigate the effect of moisture content on properties of biocoke. Then, the raw materials were pressed using the uniaxial pressing method with the pressure of 16 MPa for 15 minutes at the forming temperature of 180 °C. The biocoke properties, which are calorific value, density, and compressive strength, were examined. It is found that the coconut shell biocoke has the highest density of 1.25 g/cm3 under the temperature of 160 °C and 190 °C.

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利用椰子壳生产生物焦的潜力研究

目前，泰国正试图克服能源安全问题，通过一项替代能源发展计划提出可持续的解决办法。泰国社会的潜在能源之一是固体生物燃料，即所谓的生物炭。生物焦可以由农业或城市垃圾制成。本研究的重点是用椰子壳生产生物焦，因为泰国用椰子出口产品，留下了大量的椰子壳。为了生产生物焦，生椰子壳被磨成小于1毫米的颗粒。在0 ~ 15 wt%范围内，每5 wt%改变椰子壳的水分含量，考察水分含量对生物焦性能的影响。然后，在180℃的成形温度下，采用压力为16 MPa的单轴压制方法，压制15分钟。考察了生物焦的热值、密度和抗压强度。发现椰子壳生物焦在160℃和190℃的温度下密度最高，为1.25 g/cm3。

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2021 6th International Conference on Business and Industrial Research (ICBIR)

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