Yuma Kuraguchi scite author profile

The pyrolysis and oxidation of diethyl ether (DEE) has been studied at pressures from 1 to 4 atm and temperatures of 900-1900 K behind reflected shock waves. A variety of spectroscopic diagnostics have been used, including time-resolved infrared absorption at 3.39 mum and time-resolved ultraviolet emission at 431 nm and absorption at 306.7 nm. In addition, a single-pulse shock tube was used to measure reactant, intermediate, and product species profiles by GC samplings at different reaction times varying from 1.2 to 1.8 ms. A detailed chemical kinetic model comprising 751 reactions involving 148 species was assembled and tested against the experiments with generally good agreement. In the early stages of reaction the unimolecular decomposition and hydrogen atom abstraction of DEE and the decomposition of the ethoxy radical have the largest influence. In separate experiments at 1.9 atm and 1340 K, it is shown that DEE inhibits the reactivity of an equimolar mixture of hydrogen and oxygen (1% of each).

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Detailed chemical kinetic mechanisms of ethyl methyl, methyl tert-butyl and ethyl tert-butyl ethers: The importance of uni-molecular elimination reactions

Yasunaga

Simmie

Curran

et al. 2011

Combustion and Flame

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Shock tube and modeling study of isobutene pyrolysis and oxidation

Yasunaga

Kuraguchi

Ikeuchi

et al. 2009

Proceedings of the Combustion Institute

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Kinetic and modeling studies on ETBE pyrolysis behind reflected shock waves

Yasunaga

Kuraguchi

Hidaka

et al. 2008

Chemical Physics Letters

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Yuma Kuraguchi

A Multiple Shock Tube and Chemical Kinetic Modeling Study of Diethyl Ether Pyrolysis and Oxidation

Detailed chemical kinetic mechanisms of ethyl methyl, methyl tert-butyl and ethyl tert-butyl ethers: The importance of uni-molecular elimination reactions

Shock tube and modeling study of isobutene pyrolysis and oxidation

Kinetic and modeling studies on ETBE pyrolysis behind reflected shock waves

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