A. Lestari, Rakhmawati Farma, Vepy Asyana, Awitdrus Awitdrus
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引用次数: 2
摘要
今天,由于大量的电子设备需要高电能,对电能的需求增加了。为了克服这一点,需要大量的电能存储。储能装置的重要组成部分之一是电极。本研究采用尼帕纤维作为电极的基本材料,因为尼帕果的潜力尚未得到广泛的应用。本研究的目的是确定KOH活化剂对尼帕果纤维活性炭质量的影响,使用KOH活化剂浓度为0.2 M, 0.3 M和0.4 M,样品代码为SBN-02, SBN-03和SBN-04。活性炭电极的制造要经过预炭化、化学活化、炭化、物理活化等过程。TGA表征的结果是耐温度为296°C,最大速度为0.166mg/min。XRD分析得到半晶衍射图,由24°和44°的两个峰组成,以2θ角表示hkl(002)和(001)平面的取向。
FABRIKASI DAN KARAKTERISASI ELEKTRODA KARBON DARI BIOMASSA SERABUT BUAH NIPAH DENGAN VARIASI KONSENTRASI AKTIVATOR KOH
Today the need for electrical energy has increased due to the large number of electronic devices that require high electrical energy. To overcome this, a large storage of electrical energy is needed. One of the constituents of energy storage devices that is very important is the electrode. This study used nipah fibers as the basic material for electrodes, because the potential of nipah fruit has not been widely used. The purpose of this study was to determine the effect of KOH activator on the quality of activated carbon from nipah fruit fibers using variations of KOH activator concentrations 0.2 M, 0.3 M, and 0.4 M with sample codes SBN-02, SBN-03, and SBN-04. The manufacture of activated carbon electrodes is carried out through a process of pre-carbonization, chemical activation, carbonization, and physical activation. Characterization of TGA resulted in a resistant temperature of 296°C with a maximum speed of 0.166mg/min. XRD analysis produced a semicrystalline diffraction pattern consisting of two peaks around 24° and 44° at an angle of 2θ indicating the orientation of the hkl (002) and (001) planes.
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