MM Maikel van Iersel scite author profile

MM Maikel van Iersel

3Publications

34Citation Statements Received

17Citation Statements Given

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Affiliations

Eindhoven University of Technology

Publications

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Importance of acoustic shielding in sonochemistry

Iersel

Benes

Keurentjes

2008

Ultrasonics Sonochemistry

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It is well known that sonochemistry is less efficient at high acoustic intensities. Many authors have attributed this effect to decoupling losses and shielding of the acoustic wave. In this study we investigate both phenomena for a 20 kHz ultrasound field with an intensity ranging from 40 to 150 W/cm2. Visualization of the bubble cloud has demonstrated that the void fraction below the ultrasound horn increases more than proportional with increasing power input. Nevertheless, the energy coupling between the horn and the liquid remains constant; this implies that decoupling losses are not reinforced for larger bubble clouds. On the contrary, microphone measurements have shown that due to the larger bubble cloud a substantial part of the supplied energy is lost at high power inputs. In striving towards more efficient sonochemistry, reduction of shielding appears as one of the major challenges.

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Inhibition of nonlinear acoustic cavitation dynamics in liquid CO2

Iersel

Cornel²,

Benes³

et al. 2007

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The authors present a model to study ultrasound-induced cavitation dynamics in liquid carbon dioxide ͑CO 2 ͒, which includes descriptions for momentum, mass, and energy transport. To assist in the interpretation of these results, numerical simulations are presented for an argon cavity in water. For aqueous systems, inertia effects and force accumulation lead to a nonlinear radial motion, resulting in an almost adiabatic compression of the cavity interior. The simulations for liquid CO 2 suggest that transport limitations impede nonlinear cavitation dynamics and the corresponding temperature rise. Consequently, in liquid CO 2 the ultrasound-induced formation of radicals appears improbable.

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Controlled methyl chloride synthesis at mild conditions using ultrasound irradiation

Iersel

Schilt

Benes

et al. 2010

Ultrasonics Sonochemistry

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