Thermophilic anaerobic digestion of cattail and hydrothermal carbonization of the digestate for co-production of biomethane and hydrochar

Journal of Environmental Science and Health, Part A Pub Date : 2020-02-23 DOI:10.1080/10934529.2019.1682367

Bo Zhang, Gail Joseph, Lijun Wang, Xin Li, A. Shahbazi

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引用次数: 8

Abstract

Abstract Thermophilic anaerobic digestion (AD) of cattail followed by hydrothermal carbonization (HTC) was studied. The intent of the research was to develop agricultural waste-based biorefining technologies for bioenergy production along with value-added products. Cattail was anaerobically digested at 55 °C for 14 days and protein and cellulose components were partially degraded. The average methane yield was 230–280 mL/g volatile solids and the total solids decreased by 33–55%. When the particle size of cattail was reduced from 1 in. to 1 mm, the lag phase was shortened from 1.48 to 0 d. Following the AD process of cattail, the AD digestate was hydrothermally carbonized at 250 °C for 4 h, yielding approximately 6.7–7.5 wt % gaseous products, 64 wt % liquid products and 28 wt % hydrochar. The gaseous products contained >5000 ppm H2S and liquid products possessed fewer chemicals and higher ratio of phenolic compounds compared to the liquid products from HTC of original cattail. The hydrochar had a higher carbon content (76.8–79.8%) and a higher specific surface area (∼10 m2/g) than those of the feedstock. Hydrochar was further activated by using Na2CO3, NaHCO3 and NaCl. The activation process increased the carbon content and specific surface area to 84–93% and 250–630 m2/g, respectively.

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香蒲的嗜热厌氧消化和消化液的水热碳化，用于生物甲烷和碳氢化合物的联产

摘要对香蒲的热厌氧消化(AD) -水热碳化(HTC)工艺进行了研究。该研究的目的是开发基于农业废物的生物精炼技术，用于生物能源生产和增值产品。香蒲在55℃条件下厌氧消化14天，蛋白质和纤维素成分部分降解。挥发性固体平均甲烷产率为230 ~ 280 mL/g，总固体减少33 ~ 55%。当香蒲的粒径从1英寸减小到1英寸时。到1 mm，滞后期从1.48天缩短到0天。在香蒲的AD过程中，AD消化液在250°C下水热碳化4小时，产生约6.7-7.5 wt %的气态产物，64 wt %的液态产物和28 wt %的碳氢化合物。气态产物中H2S含量为50 ~ 5000 ppm，液态产物中酚类化合物的含量比原香蒲HTC液态产物少，酚类化合物的含量更高。与原料相比，该烃类具有更高的碳含量(76.8-79.8%)和更高的比表面积(~ 10 m2/g)。用Na2CO3、NaHCO3和NaCl进一步活化水合物。活化处理使活性炭的碳含量和比表面积分别提高到84 ~ 93%和250 ~ 630 m2/g。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Environmental Science and Health, Part A

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