Kinetics of the Oxidation of Hydrogen Sulfide by Atmospheric Oxygen in an Aqueous Medium

Journal of Atmospheric Science Research Pub Date : 1900-01-01 DOI:10.30564/jasr.v4i3.3465

D. Rathore, V. Meena, C. Chandel, K. S. Gupta

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引用次数: 2

Abstract

Hydrogen sulfide is an important acid rain precursor and this led us to investigate the kinetics of its oxidation in aqueous phase by atmospheric oxygen. The kinetics was followed by measuring the depletion of oxygen in a reactor. The reaction was studied under pseudo order conditions with [H2S] in excess. The kinetics followed the rate law: -d[O2]/dt = k[S][O2]t (A) Where [S] represents the total concentration of hydrogen sulfide, [O2]t is the concentration of oxygen at time t and k is the second order rate constant. The equilibria (B - C) govern the dissolution of H2S; the sulfide ion in water forms different species: H2S K1 HS- + H+ (B) HS- K2 S2- + H+ (C) Where K1 and K2 are first and second dissociation constants of H2S. Although, H2S is present as undissociated H2S, HS- and S2- ions, nature of [H+ ] dependence of reaction rate required only HS- to be reactive and dominant. The rate law (A) on including [H+ ] dependence became Equation (D). -d[O2]/dt = k1K1[H+ ][S][O2]t / ([H+ ] 2 + K1[H+ ] + K1K2) (D) Our results indicate anthropogenic VOCs such as acetanilide, benzene, ethanol, aniline, toluene, benzamide, o-xylene, m-xylene, p-xylene and anisole to have no significant effect on the reaction rate and any observed small effect is within the uncertainty of the rate measurements.

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硫化氢在水介质中被大气氧氧化的动力学

硫化氢是一种重要的酸雨前体，这使我们研究了它在水相中被大气氧氧化的动力学。动力学之后是测量反应器中氧的损耗。在过量[H2S]的伪序条件下研究了该反应。动力学遵循速率定律:-d[O2]/dt = k[S][O2]t (A)其中[S]表示硫化氢的总浓度，[O2]t为时刻t的氧浓度，k为二级速率常数。平衡(B - C)控制H2S的溶解;水中的硫化物离子形成不同的种类:H2S K1 HS- + H+ (B) HS- K2 S2- + H+ (C)其中K1和K2分别为H2S的第一和第二解离常数。虽然H2S以未解离的H2S、HS-和S2-离子存在，但[H+]依赖反应速率的性质要求只有HS-具有活性和优势。含[H+]依赖性的反应速率规律(A)变为式(D)。-d[O2]/dt = k1K1[H+][S][O2]t / ([H+] 2 + K1[H+] + K1K2) (D)结果表明，乙酰苯胺、苯、乙醇、苯胺、甲苯、苯酰胺、邻二甲苯、间二甲苯、对二甲苯和苯甲醚等人为VOCs对反应速率没有显著影响，任何观察到的小影响都在速率测量的不确定度范围内。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Atmospheric Science Research

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