Application of stoichiometric hydrogen atoms for balancing organic combustion reactions

IF 2.2 Q2 EDUCATION, SCIENTIFIC DISCIPLINES
Pong Kau Yuen, C. M. Lau
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引用次数: 4

Abstract

Abstract Combustion is a common redox reaction, and organic combustion is one of the basic contents in chemistry curriculum. The transferred H-atom is commonly used as a redox indicator in organic chemistry and biochemistry. Nevertheless, the relationship between the number of transferred H-atoms and the number of transferred electrons has not been fully revealed. Oxidation number (ON) is an electron-counting concept. Without knowing the ONs, the number of transferred electrons cannot be counted and therefore, the redox reactions cannot be classified, defined, and balanced. This paper explores the new H-atom method for counting the number of transferred H-atoms. It provides a half-reaction approach to balance the overall organic combustion reactions. Only simple arithmetic procedures are needed to determine the number of transferred H-atoms and consequently the number of transferred electrons. According to this method, the mathematical formulas for assigning the number of transferred H-atoms can be deducted by balancing the general chemical formulas of organic compounds in half and overall organic combustions. Furthermore, the number of transferred electrons and their stoichiometric categories can be determined conveniently by any given organic chemical formula in organic combustion reactions.
化学计量氢原子在平衡有机燃烧反应中的应用
燃烧是一种常见的氧化还原反应,有机燃烧是化学课程的基本内容之一。转移的h原子在有机化学和生物化学中常用作氧化还原指示物。然而,转移氢原子数与转移电子数之间的关系尚未完全揭示。氧化值(ON)是一个电子计数的概念。如果不知道离子,转移电子的数量就无法计算,因此,氧化还原反应就无法分类、定义和平衡。本文探讨了一种新的h原子转移数计算方法。它提供了一种半反应的方法来平衡整个有机燃烧反应。只需要简单的算术程序来确定转移的氢原子的数量,从而确定转移的电子的数量。根据这种方法,可以通过平衡有机化合物在一半和整个有机燃烧中的一般化学式来推导出分配转移h原子数的数学公式。此外,在有机燃烧反应中,转移电子的数目和它们的化学计量类别可以由任何给定的有机化学式方便地确定。
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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CiteScore
3.10
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