H. Nguyen, D. Khuong, P. Tran-Nguyen, Toshiki Tsubota
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引用次数: 9
摘要
甘蔗渣是制糖过程中产生的一种丰富的残渣,如果对甘蔗渣的气化过程有了全面的了解,甘蔗渣可能成为一种重要的气化原料。在本研究中,深入研究了整个气化过程中焦炭特性的演变。甘蔗渣的低灰分、高热值和快速动力学特点突出了其适宜气化的特点。当转化率X[0,1]大于0.5时,炭的形态发生明显变化,组成炭的细层破裂。相反,碳结构的变化在碳转化开始时更为突出(X < 0.5)。气化炭具有微介孔结构,总比表面积(SBET = 877 m2 g -1)和总孔容(VBET = 0.49 cm3 g -1)在X = 0.75时达到最大值。SBET和VBET的高值-即使在气化接近尾声时-突出了使用气化后残留物作为昂贵的商用活性炭替代品的潜力。这项研究的结果将有助于可持续气化系统的发展。
Towards Sustainable Biomass Gasification: Evolution of Bagasse Char Characteristics Throughout Gasification
Sugarcane bagasse - an abundant residue from sugar production - could become a prominent feedstock for gasification if a complete understanding of bagasse gasification was established. In this study, the evolution of the char characteristics throughout the gasification process was deeply investigated. The low ash content, high heating value, and fast kinetics highlighted the suitability of bagasse for gasification. The char morphology underwent significant changes with rupture of fine layers that make up the char when conversion X [0, 1] is higher than 0.5. On the contrary, changes in carbon structures were more accentuated at the beginning of char conversion (X < 0.5). The gasified chars had high porosity made of micro-mesoporous structures, and the maximum value of total specific surface area (SBET = 877 m2 g -1) and total pore volume (VBET = 0.49 cm3 g -1) were observed at X = 0.75. The high values of SBET and VBET - even when gasification is nearing its end - highlighted the potential of using residues after gasification as an alternative to expensive commercial activated carbons. The results of this study would contribute to the development of sustainable gasification systems.
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