Department of Environmental Engineering, Daegu University, Gyeongsan City, Gyeongbuk, 38453, Republic of Korea.
School of Civil and Environmental Engineering, Yonsei University, 50 Yonsei-ro, Seoul, 03722, Republic of Korea.
Environ Sci Pollut Res Int. 2020 May;27(15):17631-17641. doi: 10.1007/s11356-019-07190-8. Epub 2019 Dec 21.
The feasibility of pretreatment involving soaking in aqueous ammonia (SAA) for the anaerobic digestion (AD) of eight different types of agricultural biomass of Ugandan origin was investigated. Moderate pretreatment temperatures of 60 and 90 °C were employed, and the NH concentration, solid-to-liquid ratio, and pretreatment time were fixed at 15.0% (w/w), 1:6, and 6 h, respectively. The delignification efficiencies of the SAA pretreatment ranged from 51.1 to 76.6%, and the maximum value was observed for maize bran pretreated at 90 °C. Biochemical methane potential experiments proved that the breaking of the complex bonds of lignin made fermentable sugars easily accessible to microorganisms. In all cases, the SAA pretreatment enhanced the methane potential of the eight types of Ugandan biomass compared with its untreated counterparts. The pretreated maize bran exhibited the highest methane yield of 291.5 mL CH/g COD, which is 83.1% of the theoretical conversion. SAA followed by AD is useful for employing Ugandan agricultural biomass as a renewable energy source.
研究了用氨水处理(SAA)预处理 8 种不同类型乌干达农业生物质用于厌氧消化(AD)的可行性。采用中等预处理温度 60 和 90°C,NH 浓度、固液比和预处理时间分别固定在 15.0%(w/w)、1:6 和 6 h。SAA 预处理的脱木质素效率在 51.1%至 76.6%之间,在 90°C 预处理的玉米麸皮中观察到最大值。生物甲烷潜力实验证明,木质素复杂键的断裂使可发酵糖更容易被微生物利用。在所有情况下,与未处理的生物质相比,SAA 预处理都提高了 8 种乌干达生物质的甲烷潜力。预处理的玉米麸皮表现出最高的甲烷产率为 291.5 mL CH/g COD,是理论转化率的 83.1%。SAA 预处理后再进行 AD 是利用乌干达农业生物质作为可再生能源的有效方法。
