不同粘结材料制备粪便污泥炭型煤的研究

IF 0.8 Q4 ENGINEERING, ENVIRONMENTAL
Sarker Mohammad Sagor, Quazi Hmidul Bari, M. Shafiquzzaman
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引用次数: 0

摘要

压块技术是粪泥可持续治理的有效方法之一。本研究旨在评价FS木炭与不同粘结材料制成的型煤的物理和热性能。将干燥的FS在4000C下热解制得FS炭,然后用大米淀粉和不同比例的稻壳粉(RH)、玉米芯粉(CP)、小麦粉(WP)和牛粪(CD)进行压块。对于RH、CP和WP型煤,FS炭与粘结材料的比例分别为80:20、75:25和70:30。CD型煤的比例分别为70:30、50:50和30:70。每个型煤的特点是根据体积密度,水分含量,抗压强度,能量含量,和近似分析。所有型煤的容重和抗压强度分别在1990 ~ 2150 kg/m0和172 ~ 815 KPa之间。所有型煤样品的水分含量达到5%至8%,符合DIN 51731标准。型煤灰分较高,达到29-46%。所有型煤样品的能量含量均在12.0 MJ/kg以上,表明可持续性燃烧。FS炭和CD制成的型煤成本较低(0.18-0.28美元/kg),抗压强度足够(>375 KPa),能量含量理想(>13.40 MJ/kg)。生产的FS型煤可用于烹饪和加热。FS的木炭型块显示了管理人类废物的潜在替代方案,以实现可持续的环境保护。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Evaluation of Fecal Sludge Charcoal Briquette Produced from Different Binding Materials
Briquetting technology is one of the useful methods for sustainable management of Fecal sludge (FS). This study aims to evaluate the physical and thermal properties of briquettes made of FS charcoal with different binding materials. FS charcoal was produced by pyrolysis of the dry FS at 4000C and subsequently was briquetted with rice starch and different ratio of rice husk powder (RH), corncob powder (CP), wheat powder (WP), and cow dung (CD). The ratios of FS charcoal and binding materials were chosen as 80: 20, 75:25, and 70:30 for RH, CP, and WP briquettes. For CD briquettes, the ratios were 70:30, 50:50, and 30:70. Each briquette was characterized in terms of bulk density, moisture content, compressive strength, energy content, and proximate analysis. The bulk density and the compressive strength of all briquettes were in the range of 1990–2150 kg/m0 and 172–815 KPa, respectively. The moisture contents of all briquette samples achieved 5% to 8% that met DIN 51731standards. The ash content in briquettes was comparatively higher, achieving 29–46%. The energy contents of all briquette samples were above 12.0 MJ/kg indicating sustainability for combustion. The briquettes made of FS charcoal and CD were found suitable having a lower cost (0.18–0.28 US$/kg), sufficient compressive strength (>375 KPa), and desirable energy content (>13.40 MJ/kg). The produced FS briquette can be used for cooking and heating. The FS charcoal briquettes showed a potential alternative to manage human waste for sustainable environmental protection.
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来源期刊
CiteScore
1.70
自引率
14.30%
发文量
26
期刊介绍: Waste and Resource Management publishes original research and practice papers on all civil engineering and construction related aspects of the resource management cycle, from the minimization of waste, through the re-use and recycling, to the management and disposal of residual wastes. Associated legislation, standards, socio-economic considerations and links with sustainable consumption and production are included. The range of subjects covered encompasses, but is not restricted to, strategies for reducing construction waste through better design, improved recovery and re-use, more efficient resource management, the performance of materials recovered from wastes, and, the procurement, planning, design, construction, operation and logistics of waste and resource management facilities.
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