Microbial Formulation of Bio-Briquettes Using Lignocellulosic and Floral Biomass

M. Karale, Akash Ankush Shivankar, M. Waghmode, N. Patil, Ravindra U. Mene
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Abstract

Considering the cost of fuel, it is the need of the hour for the utilization of waste as a fuel source. Leaf litter waste and floral waste biomass present in the surrounding serve as potential materials in bio-briquettes formulation. Leaf litter wastes (Almond leaves, Ashoka leaves, Cluster fig leaves), and floral wastes such as (Marigold, Tuberose, and Rose) was used for the study. The waste was microbially treated usingLactobacillus plantarum ATCC 8014 and Lactobacillus brevis ATCC 14869 for rapid decomposition of wastes. The briquettes were formulated using wet briquetting, manual pressure, and cylindrical mould methods. Paper pulp along with wheat bran at a 35:5 ratio was used as an artificial binding agent. The preliminary analysis includes the contents of moisture, volatile matter, ash, fixed carbon, etc. Bio briquettes were ultimately analyzed by FESEM, FT-IR, TGA, Density, and Calorific values. Comparisons were done using untreated lignocellulosic biomass-based briquettes and commercially available briquettes. Briquettes made from waste that has undergone microbial processing have a calorific value of 5968.20w kJ/Kg, a density of 0.26 kg/cm3, 8.4% moisture content, 10% volatile matter content, 13.65% ash content, 67.95% fixed carbon content, a maximum burning time of 17 minutes, and a minimum ignition time of 3 minutes. While the briquettes made from untreated waste have calorific value of 4205.10 kJ/Kg, density of 0.20 kg/cm3, 10.8% moisture content, 15% volatile matter content, 15.11% ash content, 59.05% fixed carbon content. This comparative study shows microbially treated bio briquettes can offer good agriculture waste management and new fuel opportunities.
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利用木质纤维素和植物生物量制备生物型煤的微生物配方
考虑到燃料成本,将废物作为燃料来源是一小时的需要。周围存在的落叶垃圾和花卉垃圾生物质可作为生物型煤配方中的潜在材料。落叶废弃物(杏仁叶、阿育王叶、簇状无花果叶)和花卉废弃物(万寿菊、块茎玫瑰和玫瑰)用于研究。使用植物乳杆菌ATCC 8014和短乳杆菌ATCC14869对废物进行微生物处理,以快速分解废物。采用湿压块法、手动加压法和圆筒成型法配制成型块。将纸浆与麦麸以35:5的比例一起用作人工粘合剂。初步分析包括水分、挥发性物质、灰分、固定碳等的含量。最终通过FESEM、FT-IR、TGA、密度和热值对生物压块进行分析。使用未处理的木质纤维素生物质基压块和市售压块进行比较。由经过微生物处理的废物制成的压块的热值为5968.20wkJ/Kg,密度为0.26kg/cm3,水分含量为8.4%,挥发性物质含量为10%,灰分含量为13.65%,固定碳含量为67.95%,最长燃烧时间为17分钟,最短点火时间为3分钟。而由未经处理的废物制成的煤块的热值为4205.10kJ/Kg,密度为0.20kg/cm3,水分含量为10.8%,挥发性物质含量为15%,灰分含量为15.11%,固定碳含量为59.05%。这项比较研究表明,微生物处理的生物压块可以提供良好的农业废物管理和新的燃料机会。
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来源期刊
Journal of Solid Waste Technology and Management
Journal of Solid Waste Technology and Management Environmental Science-Waste Management and Disposal
CiteScore
0.60
自引率
0.00%
发文量
30
期刊介绍: The Journal of Solid Waste Technology and Management is an international peer-reviewed journal covering landfill, recycling, waste-to-energy, waste reduction, policy and economics, composting, waste collection and transfer, municipal waste, industrial waste, residual waste and other waste management and technology subjects. The Journal is published quarterly (February, May, August, November) by the Widener University School of Engineering. It is supported by a distinguished international editorial board.
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