木木屑和蔗渣热解制生物炭的研究

W. R. Asri, H. Hasanudin, A. Mara, D. Desnelli
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引用次数: 0

摘要

Puspa木屑和甘蔗渣可大量使用,但碳含量和营养成分较低。通过热解将生物质转化为生物炭可以增加碳含量和营养物质。热解的自变量对研究至关重要,因为这些自变量本质上影响生物炭的质量。在本研究中,测定了热解温度(300、350、400、450和500˚C)和时间(30、60、90分钟)对生物炭特性的影响,如pH、产率和近似组成。研究了最佳条件下生物炭的总氮、P2O5和K2O含量。数据分析表明,热解温度和时间增量与pH、灰分和碳含量呈正相关。同时,产率和挥发性物质也相反。生物炭的最佳热解温度和时间分别为500和90分钟。与生物质相比,生物炭的碳含量和营养成分也有所增加。热解方法提高了生物量的质量,生物炭可以作为生长介质和土壤改良剂。结果表明,甘蔗渣生物炭由于其较高的固定碳和营养成分,可能比puspa木屑生物炭更有利
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Pyrolysis of Puspa Wood Sawdust and Sugarcane Bagasse into Biochar
Puspa wood sawdust and sugarcane bagasse are abundantly available but have low carbon content and nutrients. The carbon content and nutrients could be increased by converting biomass into biochar through pyrolysis. The independent variables of pyrolysis were essential to investigate because those inherently influence biochar quality. In this study, the effect of pyrolysis temperature (300, 350, 400, 450, and 500 ˚C) and time (30, 60, 90 mins) on the biochar characteristic such as pH, yield, and proximate compositions were determined. The total nitrogen, P2O5, and K2O content at optimum condition biochar were also investigated. The data analysis showed that the pyrolysis temperature and time increment positively correlated to the pH, ash content, and carbon content. At the same time, the yield and volatile matter were vice versa. Both biochar's optimum pyrolysis temperature and time were achieved at 500 and 90 minutes. The carbon content and nutrient of biochar were also increased compared to the biomass. The pyrolysis method has enhanced biomass quality, and the biochar may be used as a growing media and soil amendment. It can be concluded that the sugarcane bagasse biochar was more likely favorable than puspa wood sawdust biochar due to its higher fixed carbon and nutrient content
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