Innovative Membrane-Based Catalytic Process for Environmentally Friendly Synthesis of Oxygenates |
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| Authors: | C Espro F Frusteri F Arena A Parmaliana |
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| Affiliation: | (1) Dipartimento di Chimica Industriale ed Ingegneria dei Materiali, Università degli Studi di Messina Salita Sperone c.p. 29, I-98166 S. Agata Messina, Italy;(2) Istituto CNR-TAE, Via Salita S. Lucia 39, I-98126 S. Lucia Messina, Italy |
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| Abstract: | Synthesis of liquid oxygenates from light alkanes (C1--C3) is achieved in a multifunctional three-phase catalytic membrane reactor (3PCMR) operating under mild conditions (TR, 80-120 °C; PR, 140 kPa). The features of superacid catalytic membranes mediated by the Men+/H2O2 Fenton system in activating C1-C3 alkanes are presented. The effect of operating conditions (H2O2], Men+]) on the catalyst activity is outlined. A general reaction pathway accounting for the activation of the CH bond of the alkane molecule on the superacid sites and the subsequent reaction of the activated alkane with primary reactive intermediates, generated from the Men+/H2O2 system, is proposed. The suitability of the 3PCMR in enabling simultaneous reaction and product separation is discussed. |
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| Keywords: | innovative process membrane reactors superacid catalysts oxygenated products |
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