Harianingsih Harianingsih, M. Kusumaningrum, B. Bunyamin
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引用次数: 0
摘要
等离子体电解目前是一种环保技术,可替代固氮、净水处理、蜡染废料降解和其他化合物的合成。从辉光放电的形成可以看出等离子体电解技术成功的标志。在这种方法中,影响等离子体形成的因素之一是电解质溶液。本研究中使用的电解质溶液是K2SO4,因为它的导电性会导致电子跳变。本研究旨在确定不同浓度的K2SO4电解质溶液对阳极辉光放电等离子体的影响。在等离子体电解反应器中采用不锈钢阴极、钨阳极和0.01 M电解液;0.02米;0.03 M K2SO4。辉光放电等离子体的形成发生在阳极。浓度的变化会影响临界电压(VD),其中浓度越高(0.03 M),辉光放电发生在较低的电压(600 V)下。这是由于溶液中存在高介电强度,导致电解质浓度较低的溶液中发生较低的放电强度。关键词:阳极,等离子体电解,K2SO4电解质,辉光放电
THE CONCENTRATION EFFECT OF K2SO4 ELECTROLITE SOLUTION ON GLOW DISCHARGE PLASMA ELECTROLYSIS
Plasma electrolysis is currently an environmentally friendly technology that is used as an alternative to nitrogen fixation, clean water treatment, batik waste degradation and the synthesis of other compounds. The success indicator of plasma electrolysis technology is seen from the formation of glow discharge. One of the factors that influence the formation of plasma in this method is the electrolyte solution. The electrolyte solution used in this study is K2SO4 because its conductivity causes electron jumps. This study aims to determine the effect of various concentrations of K2SO4 electrolyte solution on glow discharge plasma at the anode.In the plasma electrolysis reactor with stainless steel cathode and tungsten anode and 0.01 M electrolyte solution; 0.02 M; and 0.03 M K2SO4. The formation of glow discharge plasma occurs at the anode. Changes in concentration affect the critical voltage (VD) where the higher the concentration (0.03 M), glow discharge occurs at a lower voltage (600 V). This is due to the presence of high dielectric strength in the solution causing lower discharge strength to occur in solutions with lower electrolyte concentrations.Keywords: anode, plasma electrolysis, K2SO4 electrolyte, glow discharge
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