Adaptation and evaluation of charcoal kiln metal for carbonizing Khat waste, sticks and leave

Gutu Getahun
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Abstract

Experiment was carried out to obtain the more charcoal and decreased ashes and exhaust gas after production from khat wastes, sticks and leave. In this study volume-based conversion rate was investigated with three different loading mechanism, half carbonizer load, 75% carbonizer load, Full carbonizer load. Product from charcoal kilns consists of weight of charcoal, ashes and gas exhaust from process. The charcoal was produced in 2.14 m3 of the vertical drum kilns when it is fully loaded. The results indicated that weight of charcoal increased when it was fully loaded, 75% carbonizer load, and half carbonizer load respectively. Whereas the weight of ashes also decreased when it was fully loaded, 75% carbonizer load, and half carbonizer load respectively. The averages of temperature of the kilns for different position of the flue outside and inside of the kilns were also taken. The results showed that the average of temperature both the flue outside and the flue inside of the kilns obviously increased with increasing time. The maximum temperatures of the kiln were 836 °C inside the pyrolysis chamber and 309 °C on the outer surface of the kiln. It can be observed that the temperature of the flue outside increased from 26.7 °C to 309 °C with increasing time up to 90 min and then decreased from 309 °C to 86 °C and from 90 min to 170 min. Moreover, the temperature inside the pyrolysis chamber increased from 26.7 °C to 836 °C with increasing time up to 90 min and then decreased from 836 °C to 98.7 °C) and from 90 min to 170 min. Therefore, the results of this technology can help in encouraging use of khat waste as substitute to wood charcoal that could contribute in minimizing deforestation and consecutive climatic changes.
炭窑金属对阿拉伯茶废、枝、叶炭化的适应性及评价
对利用阿拉伯茶废渣、木棒和叶渣生产后获得更多的木炭和减少的灰分和废气进行了试验。在半增碳剂、75%增碳剂和全增碳剂三种不同的加载机制下,研究了以体积为基础的转化率。木炭窑的产品由木炭重量、灰烬和工艺废气组成。在立式鼓式窑的2.14 m3中,当它满载时,生产木炭。结果表明,炭化剂负荷为75%、炭化剂负荷为一半时,炭化剂的重量均有所增加。炭化剂满载、75%加炭化剂和一半加炭化剂时,炉灰重量均有所下降。并对炉内、炉外不同烟道位置的温度进行了平均值计算。结果表明,随着时间的延长,窑内烟道和炉外烟道的平均温度均明显升高。热解室内最高温度为836℃,窑外表面最高温度为309℃。可以看出,烟道外温度随着时间的增加,从26.7℃上升到309℃,然后随着时间的增加,从309℃下降到86℃,从90 min下降到170 min。热解室内温度随着时间的增加,从26.7℃上升到836℃,然后从836℃下降到98.7℃,从90 min下降到170 min。这项技术的成果有助于鼓励使用阿拉伯茶废料作为木炭的替代品,从而有助于最大限度地减少森林砍伐和连续的气候变化。
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