蓝藻污泥和甘蔗渣生物质能源的机会在一个世纪以来最大的变化

Lin Xu, Zhenye Mu, Shaohua Liao
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引用次数: 0

摘要

通过正交试验和单因素实验,以蓝藻污泥和蔗渣为原料,制备了生物炭(BC),探讨了在不同炭化温度下改变完全不同能量的潜力以及生物炭对Cr(VI)的去除效果。在高温限氧条件下,分别在500°C、400°C和300°C下,3.0小时、2.5小时和2.0小时,由干燥的蓝藻污泥和蔗渣制备生物炭。采用正交实验法对L9(34)进行了三因素和三水平实验。结合单因素实验,探讨了去除Cr(VI)的最佳组合条件。固态能量主要以生物炭产率的形式存在。蔗渣中生物炭的温度和含量越高,固态能量越低,生物炭产率(44.00%±0.35%),蓝藻污泥在能量转化中具有广阔的应用前景和良好的潜力和应用前景。随着炭化温度的升高,生物炭对Cr(VI)的去除是主要的扩展,因此逐渐减少。当混合生物炭的质量-数量关系为3:1时,Cr(VI)的排出量最高。在2.5小时的炭化时间、400°C的炭化温度和3:1的生物炭质量定量关系下,Cr(VI)的去除率最高可达98%。中温生物炭和由蓝藻污泥和蔗渣混合制备的生物炭有利于固体能源的生产。蓝藻污泥基生物炭具有广阔的应用前景,特别是在能源转换方面。在正交试验中,各因素对Cr(VI)去除率的影响顺序为:碳酸化温度>碳酸化时间>生物炭比。从生物炭中去除Cr(VI)的理想条件是:曝气温度(400°C)、曝气时间(2.5小时)和生物炭质量比为3:1。
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The Opportunity of Cyanobacterial Sludge and Bagasse Biomass Energy in the Biggest Change in a Century
Through orthogonal test and single factor experiment, biochar (BC) was ready by exploitation cyanobacterial sludge and bagasse to explore the potential of changing completely different energy at different carbonization temperatures and the result of Cr(VI) removal by BC. Biochar was prepared from dried cyanobacterial sludge and bagasse under 500 °C, 400 °C and 300 °C at 3.0 h, 2.5 h and 2.0 h under high temperature limited oxygen, respectively. Orthogonal experiments were used to conduct L9(34) three-factor and three-level experiments. Combined with single factor experiments, the optimal combination conditions for Cr(VI) removal were explored. Solid-state energy mainly was in the form of biochar yield. Higher temperature and content of biochar from bagasse had lower solid-state energy by biochar yield (44.00%±0.35%). Cyanobacterial sludge has wide application prospect and nice potential and application prospect in energy conversion. The dismissal of Cr(VI) with biochar was the primary to extend, and so decrease with the rise of charring temperature. The highest expulsion of Cr(VI) was attained once the mass quantitative relation of mixed biochar was 3:1. With a charring time of 2.5 hours, a charring temperature of 400 °C, and a biochar mass quantitative relation of 3:1, up to 98% of Cr(VI) was removed most effectively. Medium temperature biochar and biochar prepared from the mixture of cyanobacteria sludge and bagasse are beneficial to the production of solid energy. Cyanobacterial sludge-based biochar has broad application prospects, especially in energy conversion. In the orthogonal experiment, the sequence of influences of various factors on Cr(VI) removal rate was as follows: carbonation temperature > carbonation time > biochar ratio. The following were the ideal conditions for removing Cr(VI) from biochar: acieration temperature (400 °C), acieration time (2.5 hours), and biochar mass-quantity ratio of 3:1.
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来源期刊
Journal of Biobased Materials and Bioenergy
Journal of Biobased Materials and Bioenergy 工程技术-材料科学:生物材料
自引率
0.00%
发文量
60
审稿时长
6 months
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