Shock Wave and Theoretical Modeling Study of the Dissociation of CH2F2. II. Secondary Reactions

Cobos C. J.; Knight G.; Soelter L.; Tellbach E.; Troe J.

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Shock Wave and Theoretical Modeling Study of the Dissociation of CH2F2. II. Secondary Reactions

机译：CH2F2解离的冲击波和理论模拟研究。 II。二次反应

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The thermal dissociation of CH2F2 and the reaction of CF2 with H-2 was studied in shock waves over the temperature range 1800-2200 K, monitoring the absorption time profiles at 248 nm. Besides contributions from CF2, the signals showed strong absorptions from secondary reaction products, probably mostly CH2F formed by the reaction CHF + H-2 -> CH2F + H. Rate constants of a series of possible secondary reactions were modeled, including falloff curves for the thermaldissociations of CHF, CHF, and CH2F and rate constants of the reactions CHF + CH2F2 -> CHF2 + CH2F, CHF + H-2 -> CH2F + H, H + CH2F2 -> CHF2 + H-2, H + CF2 -> CF + HF, and H + CF -> C + HF. On this basis, concentration time profiles were simulated and compared with experimental absorption-time profiles.

机译：在1800-2200k的温度范围内的冲击波中研究了CH2F2的热解离和CF 2与H-2的反应，监测248nm的吸收时间曲线。除了CF2的贡献之外，信号显示出来自二次反应产物的强烈吸收，大多数由反应CHF + H-2 - > CH 2 F + H形成的CH2F。模拟一系列可能的二次反应的速率常数，包括衰减曲线 CHF，CHF和CH2F的热量分析和反应CHF + CH2F2 - > CHF2 + CH2F，CHF + H-2 - > CH 2 F + H，H + CH2F2 - > CHF2 + H-2，H + CF2 - >的速率常数 CF + HF和H + CF - > C + HF。在此基础上，模拟浓度时间谱并与实验吸收 - 时间谱进行比较。

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《The journal of physical chemistry, A. Molecules, spectroscopy, kinetics, environment, & general theory》 |2017年第41期|共7页
作者
Cobos C. J.; Knight G.; Soelter L.; Tellbach E.; Troe J.;
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Univ Nacl La Plata INIFTA Fac Ciencias Exactas CONICET Casilla Correo 16 Sucursal 4 RA-1900 La Plata Buenos Aires Argentina;

Edwards Innovat Ctr Clevedon BS21 6TH England;

Univ Gottingen Inst Phys Chem Tammannstr 6 D-37077 Gottingen Germany;

Univ Gottingen Inst Phys Chem Tammannstr 6 D-37077 Gottingen Germany;

Univ Gottingen Inst Phys Chem Tammannstr 6 D-37077 Gottingen Germany;

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正文语种 eng
中图分类物理化学（理论化学）、化学物理学;
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机译：CH2F2解离的冲击波和理论模拟研究。 II。二次反应
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Shock Wave and Theoretical Modeling Study of the Dissociation of CH2F2. II. Secondary Reactions

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