Oxidative chemical pretreatment by piranha solution for enhanced methane yield of wheat straw: mechanism and kinetic study

Nikita Kanaujia, Shalu Rawat, Jiwan Singh
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Abstract

The present research work aims to explore the potency of piranha solutions at the best-optimized concentrations, i.e., 40% and 30% to reduce the recalcitrant and heterogeneous structure of wheat straw, and the treated wheat straw was denoted as WS40 and WS30. The effect of pretreatment on wheat straw was determined by anaerobic digestion (AD) in a batch mode, followed by the analysis of soluble chemical oxygen demand (sCOD) and volatile fatty acids (VFAs). After pretreatment, the surface fibers shattered and detached, showing a distorted surface of wheat straw. An increase in the crystallinity of wheat straw after pretreatment was also observed due to the removal of amorphous cellulose and lignin. Enhancement in methane yield was obtained on the 9th day, which was 103±6.92 and 99.33±0.57 mL/d for WS40 and WS30, respectively. Displaced water measurement revealed that the pretreatment of wheat straw minimized the hydrolysis period by 14 days. It also improved the methane yield by 2.65 (WS40) and 2.45 (WS30) fold in comparison with the control which yielded 35.66 mL/d methane on the 23rd day. The modified Gompertz model (MGM), logistic function model (LFM) and transference function model (TFM) adequately described the degradation process and explained the kinetic behavior of the cumulative methane yield. Among the three models, MGM was found to fit best for the methane yield of WS40 and WS30.

Graphical abstract

Abstract Image

食人鱼溶液氧化化学预处理提高麦秆甲烷产量的机理及动力学研究
本研究工作旨在探索食人鱼溶液在最佳优化浓度(即40%和30%)下降低麦秆难降解和不均匀结构的效力,处理后的麦秆表示为WS40和WS30。通过分批厌氧消化(AD)测定预处理对麦草的影响,然后分析可溶性化学需氧量(sCOD)和挥发性脂肪酸(VFAs)。经过预处理后,表面纤维破碎脱落,呈现出小麦秸秆的扭曲表面。由于去除了无定形纤维素和木质素,预处理后的麦草结晶度也有所提高。第9天,WS40和WS30的甲烷产量分别提高了103±6.92和99.33±0.57mL/d。置换水测定表明,麦草预处理使水解时间缩短了14天。与在第23天产生35.66mL/d甲烷的对照相比,它还将甲烷产量提高了2.65(WS40)和2.45(WS30)倍。改进的Gompertz模型(MGM)、逻辑函数模型(LFM)和传递函数模型(TFM)充分描述了降解过程,并解释了累积甲烷产量的动力学行为。在这三个模型中,MGM最适合WS40和WS30的甲烷产量
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