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A comparative study on the autoxidation of dimethyl ether (DME) comparison with diethyl ether (DEE) and diisopropyl ether (DIPE)
Authors:Michie Naito   Claire Radcliffe   Yuji Wada   Takashi Hoshino   Xiongmin Liu   Mitsuru Arai  Masamitsu Tamura
Affiliation:

aInstitute of Environmental Studies, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-0033, Japan

bResearch Center for Explosion and Safety (RCES), AIST, AIST Tsukuba West 305-8569, Japan

cResearch Center for Explosion and Safety (RCES), AIST, AIST Surugadai Branch Office, 1-5 Kanda-Surugadai Chiyoda-Ku, Tokyo 101-8307, Japan

Abstract:The Japanese government is planning to introduce DME as a substituted energy for oil and LNG. Introduction of DME could contribute greatly to both the prevention of global warming and the formation of resource-recycling societies. In these circumstances, a safety assessment of DME is very important when DME is used on a large scale. There is a possibility that prolonged exposure in air induces autoxidation to produce explosive organic peroxides during transportation and storage of DME. Therefore, the reactivity of DME with oxygen and the mechanism of the autoxidation were investigated. Accelerating Rate Calorimetry (ARC) was used to evaluate the thermal stability of DME and DIPE, a known peroxide producers, under adiabatic and various atmospheric conditions. In ARC studies of DME under oxygen, exothermic decompositions were detected although its self-heating rate was low in comparison with DIPE. Oven storage tests were carried out and iodimetry was used to measure the concentration of peroxides produced from DME in comparison with DIPE and DEE. However, no products could be found for DME either by GC/MS or by iodimetry, while some evidence of autoxidation of both DEE and DIPE were obtained from these experiments.
Keywords:Dimethyl ether (DME)   Diethyl ether (DEE)   Diisopropyl ether (DIPE)   ARC   Autoxidation   Safety
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