香蒲入侵湿地植物特性评价及产气生物质利用管理

Obey Gotore, Vadzanayi Mushayi, Sawitree Tipnee
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引用次数: 2

摘要

以化石燃料为基础的线性经济有许多严重的缺点,包括对能源安全的需求和由此导致的环境退化。在日益重要的生物经济新周期中,生物质废弃物已被用于发电,同时减少污染和温室气体排放。为了实现到本世纪中叶实现碳中和的宏伟目标,可再生能源的增长将在减少温室气体排放方面发挥重要作用。在这种情况下,利用厌氧消化技术从生物质中生产富含甲烷的沼气似乎具有很大的潜力。以猪粪为接种剂,对香蒲鲜干生物质基质进行了产气试验。香蒲高度复杂的木质纤维素结构使其难以分解为沼气基质。碱预处理是木质素溶解的有效手段之一。因此,生物质的化学预处理(2%氢氧化钠)是一种独特的方法,通过将木质纤维素材料的复杂聚合物还原成微生物可以消化的更简单的分子来增加沼气的产生。添加发酵罐的新鲜和干燥生物质基质的甲烷产率分别为57%和60%。
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Evaluation of cattail characteristics as an invasive wetland plant and biomass usage management for biogas generation
The fossil fuel-based linear economy has many severe drawbacks, including the need for energy security and the resulting environmental degradation. In a new cycle of the bio-economy that is becoming increasingly important, biomass waste has been used to generate energy while reducing pollution and greenhouse gas emissions. The growth of renewable energy will be substantial in the reduction of greenhouse gas emissions in order to achieve the ambitious goal of becoming carbon neutral by the mid-century. It appears that using anaerobic digestion technology to produce methane-rich biogas from biomass has a great deal of potential in this scenario. The cattail fresh and dry biomass substrate with pig wastes as inoculum was tested for biogas production. Cattail's highly complex lignocellulosic structures make it challenging to decompose as a biogas substrate. Alkaline pretreatment is one of the efficient tools in solubilizing lignin. As a result, chemical pretreatment of biomass (2 % sodium hydroxide) was a unique method for increasing biogas generation by reducing complex polymers of lignocellulosic materials into simpler molecules that microorganisms could digest. The fresh and dry biomass substrate added fermenter was produced with 57% and 60% methane, respectively.
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