利用液体托底产品预处理优化棕榈霜托底工艺条件提高产品质量

W. Susanty, Z. Helwani, Bahruddin Bahruddin
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引用次数: 1

摘要

摘要棕榈叶可以通过烘焙过程作为替代能源转化为固体燃料。焙烧是指在200-300摄氏度的温度范围内,在惰性条件下将生物质转化为固体燃料的过程。热值是固体燃料中最重要的反应。本研究的目的是利用响应面法对棕榈叶的最佳烘烤条件进行统计。在装有水平冷凝器和冷凝水收集器的水平反应器上,在固定床上对棕榈叶进行托底,条件过程如温度(225-275℃)、时间(15-45分钟)和N2流速(50-150毫升/分钟)。该研究方法包括干燥、用液体烘干产品洗涤、烘干和分析。响应变量为质量产率、热值、能量产率和近似值。设计专家试验7.0版软件用于条件过程的优化。优化的工艺条件为温度275oC,时间44min,N2流量50ml/min。关键词:固体燃料,设计专家,优化,棕榈叶,烘焙
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Optimization of the Condition of Palm Frond Torrefaction Process by Utilizing Liquid Torrefaction Product as Pre-treatment for Improve Product Quality
Abstract Palm frond can be converted to solid fuel using torrefaction process as an alternative energy source. Torrefaction is the process to convert the biomass into solid fuel at a temperature range of 200-300oC in inert condition. Calorific value is the most important response in solid fuel. The aim of this research is to obtain the optimum condition of palm fronds torrefaction statistically was used Response Surface Methodology. Torrefaction of palm frond on fixed bed a horizontal reactor which is equipped with horizontal condenser and condensate trap with the condition process such as the temperature (225-275oC), time (15-45 min), and N2 flow rate (50-150 ml/min). This research methodology consist of drying, washing with liquid product of torrefaction, torrefaction, and analysis. The response variables  were mass yield, calorific value, energy yield, and proximate. Design Expert Trial Version 7.0 Software was used for optimization of condition process with desirability. The optimized condition process were temperature of 275oC, time of 44 minute, and N2 flow rate of 50 ml/min.  Keywords: solid fuel, design expert, optimization, palm frond, torrefaction
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