2014
DOI: 10.1515/revce-2013-0033
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A helicopter view of microwave application to chemical processes: reactions, separations, and equipment concepts

Abstract: We present a helicopter view of microwave technology application to various reaction and separation processes, including liquid-phase organic syntheses, gas-solid catalytic reactions, polymerizations, extraction, distillation, crystallization, membrane separation, and adsorbent regeneration/dehydration. The overarching aim is to demonstrate the breadth of potential applications of microwave technology to chemical industry, with particular attention to separations, as this is a less explored microwave applicati… Show more

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Cited by 103 publications
(69 citation statements)
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“…In this case, heat can be supplied directly to the catalyst, with a huge potential regarding energy savings. Microwave heating, often in combination with microreaction technology has also been heralded as a keystone of intensification in chemical processing [8][9] .…”
Section: Introductionmentioning
confidence: 99%
“…In this case, heat can be supplied directly to the catalyst, with a huge potential regarding energy savings. Microwave heating, often in combination with microreaction technology has also been heralded as a keystone of intensification in chemical processing [8][9] .…”
Section: Introductionmentioning
confidence: 99%
“…Microwave electromagnetic radiation is situated between 300 MHz and 300 GHz, the radio and infrared frequencies, with this corresponding to wavelengths in a vacuum of about 1 m to 1 mm. Current legislation makes the frequencies of 915 MHz, 2.45 GHz, and 5.85 GHz the most commonly available for chemical processes and Industrial Scientific and Medical (ISM) bands, in order to avoid any interference with broadcast and communications bands [1]. The frequency of 2.45 GHz is used as a source of heating commonly found in domestic microwave ovens.…”
Section: Brief Overview On Microwave Chemistrymentioning
confidence: 99%
“…The displacement rate of the charges, which is called a "displacement current" is proportional to the change rate of the electric field in respect to time. In the case of microwave irradiation, the electric field changes rapidly with time, and the complex permittivity, ε*, and the complex permeability, μ*, are expressed as follows: * = − (1) in which: ε′ (the real part), represents the dielectric constant, and is a representation of the ability of the material to store electrical energy, ε″ (the imaginary part) represents the loss factor and reflects the ability of the material to dissipate electrical energy * = − j (2) in which: μ′ (the real part) is the amount of magnetic energy stored within the material, μ″ (the imaginary part) represents the amount of magnetic energy which can be converted into thermal energy.…”
Section: The Different Microwave Heating Phenomenamentioning
confidence: 99%
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