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W2786372285 abstract "During the last decades, scientists had been widely attracted for microchemicalprocessing technology, due to its efficient mass and energy transfer as well as theincreased safety they provide. Microstructured devices offer the possibility ofintensifying distillation operations by providing high ratios of contact areas to volume,high driving force gradients and considerably short transport distances. However, thedevelopment of such separation micro devices has proven to be a very challenging taskIndeed, the high surface-to-volume ratio prevailing at microscale results in an unstableboiling and thus in a drop of the distillation efficiency. It is therefore essential to ensuregood thermal control in a lab-on-a-chip device in order to precisely achieve a certaindesired temperature profile. So far, the existing micro-distillation concepts presented inliterature are based on conventional heating and cooling methods, involving externalheat transfer systems. The latter are characterized by high energy consumption and thedifficulty to establish the required local temperature profile along the microdevice,leading therefore to the reduction of the driving force for mass transfer in themicrodistillation process.In order to overcome these issues, we aim to point towards a novel heating systemintended to operate alongside a microdistillation system. Therefore, several novelmicroheating sources are presented and compared, allowing to shape up a study of thedifferent characteristics and a proposal of the integration of an innovative heatingsource in a microdistillation system is done. Integration of localized temperaturecontrolled heat transfer systems within the microdistillation device constitutes apromising route to providing rapid and efficient heating / cooling along with a reliablecontrol of local temperatures, with important potential to improve distillation efficiencywhile reducing the energy requirement of the whole system as compared to existingmicrodistillation systems." @default.
W2786372285 created "2018-02-23" @default.
W2786372285 creator A5081483206 @default.
W2786372285 date "2017-09-01" @default.
W2786372285 modified "2023-09-27" @default.
W2786372285 title "Design of microdistillation device" @default.
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