热解对稻壳炭作为植物生长培养基特性的影响

Danang Budi Setyawan
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引用次数: 0

摘要

利用稻壳作为生长介质是常用的做法。但稻壳的持水能力(WHC)和阳离子交换能力(CEC)较低,因此被认为是劣质的植物生长介质。根据以往的研究,热解可以改变稻壳的物理和化学性质,形成焦炭。本研究的目的是通过比较物理和化学性质来评价热解过程。本研究在两个峰值温度(450℃和550℃)和四种不同的潜伏期(15、30、45和60分钟)下进行。然后分析了粒径分布、孔隙度、WHC、空气孔隙、pH和CEC值作为物理和化学性质。450℃、15 min热解炭的理化性能最好,其中以粒径0.5 ~ 1 mm为主的热解处理占61.63%;孔隙率88.09%;WHC 36.76%;pH值8.57;CEC 14.7 meq/ 100 g。本试验结果表明,作为植物生长介质,热解比堆肥更能提高稻壳品质。
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Effects of Pyrolysis on Characterization of Rice Hull Charcoal as Growing Media for Plant
Utilizing rice hulls as growing media is commonly practiced. However, it had low valued of Water Holding Capacity (WHC) and Cation Exchange Capacity (CEC) which caused rice hulls is considered as a low quality as growing media for plants. Based on previous study, pyrolysis could alter physical and chemical properties of rice hulls to form char. The aim of this study was to evaluate pyrolysis process by compare physical and chemical properties. This research was conducted at two peak temperatures (450 oC and 550 oC) with four different incubation periods (15, 30, 45, and 60 minutes). Particle size distribution, porosity, WHC, air pores, pH, and CEC values were then analyzed as the physical and chemical properties. Char resulted from pyrolysis at 450 oC with incubation period of 15 minutes produced the best physical and chemical properties among others pyrolysis treatment with dominant particle size with diameter 0.5-1 mm was 61.63 %; porosity 88.09 %; WHC 36.76 %; pH 8.57; and CEC 14.7 meq/ 100 g. It could be concluded from this experiment that pyrolysis was more effective than composting in increasing rice hulls quality as growing media for plants.
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