ULTRASONIC VIBRATION-ASSISTED PELLETING IN MANUFACTURING OF CELLULOSIC BIOFUELS: AN INVESTIGATION ON BIOMASS PARTICLE SIZE

机译：超声波振动法制粒生物质球的研究：对生物质颗粒大小的研究

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Biofuels made from cellulosic biomass are an alternative to petroleum-based liquid transportation fuels. However, several technical barriers have hindered cost-effective manufacturing of cellulosic biofuels, such as low density of cellulosic feedstocks (causing high transportation and storage costs) and low sugar yield in enzymatic hydrolysis. Ultrasonic vibration-assisted (UV-A) pelleting can increase the density of cellulosic feedstocks and the sugar yield in enzymatic hydrolysis. A hypothesis for UV-A pelleting to increase sugar yield is that UV-A pelleting reduces the particle size of cellulosic biomass. This paper reports an experimental investigation on effects of UV-A pelleting on biomass particle size. Particle sizes before and after UV-A pelleting are measured and compared. The results show that there is no significant difference between particle sizes before and after UV-A pelleting. Therefore, the hvoothesis is reiected.

机译：由纤维素生物质制成的生物燃料是石油基液体运输燃料的替代品。然而，一些技术障碍阻碍了纤维素生物燃料的成本有效的制造，例如纤维素原料的低密度（导致高运输和存储成本）以及酶促水解中的糖产量低。超声振动辅助（UV-A）制粒可以增加纤维素原料的密度和酶促水解过程中的糖收率。 UV-A造粒以增加糖产量的假设是UV-A造粒可减少纤维素生物质的粒径。本文报道了有关UV-A造粒对生物质粒径的影响的实验研究。测量并比较UV-A造粒前后的粒径。结果表明，UV-A造粒前后的粒径之间没有显着差异。因此，假体被复位。

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《ASME international mechanical engineering congress and exposition;IMECE2011》|2012年|p.279-286|共8页
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Pengfei Zhang; Qi Zhang; Z.J. Pei; Linda Pei;
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中图分类机械设计、计算与制图;机械设计、计算与制图;
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ULTRASONIC VIBRATION-ASSISTED PELLETING IN MANUFACTURING OF CELLULOSIC BIOFUELS: AN INVESTIGATION ON BIOMASS PARTICLE SIZE

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