Deposition of CaSO4 on structured surfaces during convective heat transfer for utilization in micro heat exchangers

Micro heat exchangers are characterized by their high surface-to-volume ratio of up to 100,000 m 2 /m 3 . Due to superior heat transfer performance, their utilization for pure fluids is gaining increased attention. One major drawback though is the unwanted deposition on their surfaces when subject t...

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Published in	Experimental heat transfer Vol. 37; no. 6; pp. 557 - 577
Main Authors	Zarei, Atefeh, Malayeri, M. Reza
Format	Journal Article
Language	English
Published	Philadelphia Taylor & Francis 18.09.2024 Taylor & Francis Ltd
Subjects	Calcium sulfate Convective heat transfer Crystallization Deposition Fins Fluid flow Fouling Grooves heat exchanger efficiency Heat exchanger fouling Heat exchangers Heat transfer Heat transfer coefficients micro heat exchanger micro-channel, fouling mitigation Microchannels Microstructured surfaces Stainless steels
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ISSN	0891-6152 1521-0480
DOI	10.1080/08916152.2023.2168796

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Abstract	Micro heat exchangers are characterized by their high surface-to-volume ratio of up to 100,000 m 2 /m 3 . Due to superior heat transfer performance, their utilization for pure fluids is gaining increased attention. One major drawback though is the unwanted deposition on their surfaces when subject to fluids which tend to foul. To address this, a better understanding of the deposition process in these devices looks imperative. In this study, the crystallization fouling of calcium sulfate on micro-structured surfaces during convective heat transfer has experimentally been studied. The experimental specimens of stainless steel with rectangular micro-channels were subjected to CaSO 4 solution with a concentration of 4 g/L. The impact of channel dimension and direction with respect to fluid flow has also been investigated at a given velocity of 0.17 m/s. In addition, the comparison of finned and grooved structured surfaces was made. The results showed that as the groove's width increases, the propensity of deposition is expected to decrease as such that fouling rate and fouling resistance decreased as much as 30% and 15%, respectively. Moreover, the crossed grooves increased the turbulence more than the longitudinal ones. It was also attained that the disturbance promoters, i.e. fins, would have positive impact on heat transfer coefficient compared with those of grooves.
AbstractList	Micro heat exchangers are characterized by their high surface-to-volume ratio of up to 100,000 m 2 /m 3 . Due to superior heat transfer performance, their utilization for pure fluids is gaining increased attention. One major drawback though is the unwanted deposition on their surfaces when subject to fluids which tend to foul. To address this, a better understanding of the deposition process in these devices looks imperative. In this study, the crystallization fouling of calcium sulfate on micro-structured surfaces during convective heat transfer has experimentally been studied. The experimental specimens of stainless steel with rectangular micro-channels were subjected to CaSO 4 solution with a concentration of 4 g/L. The impact of channel dimension and direction with respect to fluid flow has also been investigated at a given velocity of 0.17 m/s. In addition, the comparison of finned and grooved structured surfaces was made. The results showed that as the groove's width increases, the propensity of deposition is expected to decrease as such that fouling rate and fouling resistance decreased as much as 30% and 15%, respectively. Moreover, the crossed grooves increased the turbulence more than the longitudinal ones. It was also attained that the disturbance promoters, i.e. fins, would have positive impact on heat transfer coefficient compared with those of grooves. Micro heat exchangers are characterized by their high surface-to-volume ratio of up to 100,000 m2/m3. Due to superior heat transfer performance, their utilization for pure fluids is gaining increased attention. One major drawback though is the unwanted deposition on their surfaces when subject to fluids which tend to foul. To address this, a better understanding of the deposition process in these devices looks imperative. In this study, the crystallization fouling of calcium sulfate on micro-structured surfaces during convective heat transfer has experimentally been studied. The experimental specimens of stainless steel with rectangular micro-channels were subjected to CaSO4 solution with a concentration of 4 g/L. The impact of channel dimension and direction with respect to fluid flow has also been investigated at a given velocity of 0.17 m/s. In addition, the comparison of finned and grooved structured surfaces was made. The results showed that as the groove’s width increases, the propensity of deposition is expected to decrease as such that fouling rate and fouling resistance decreased as much as 30% and 15%, respectively. Moreover, the crossed grooves increased the turbulence more than the longitudinal ones. It was also attained that the disturbance promoters, i.e. fins, would have positive impact on heat transfer coefficient compared with those of grooves.
Author	Zarei, Atefeh Malayeri, M. Reza
Author_xml	– sequence: 1 givenname: Atefeh surname: Zarei fullname: Zarei, Atefeh organization: Shiraz University – sequence: 2 givenname: M. Reza surname: Malayeri fullname: Malayeri, M. Reza email: malayeri@shirazu.ac.ir organization: Shiraz University
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SubjectTerms	Calcium sulfate Convective heat transfer Crystallization Deposition Fins Fluid flow Fouling Grooves heat exchanger efficiency Heat exchanger fouling Heat exchangers Heat transfer Heat transfer coefficients micro heat exchanger micro-channel, fouling mitigation Microchannels Microstructured surfaces Stainless steels
Title	Deposition of CaSO4 on structured surfaces during convective heat transfer for utilization in micro heat exchangers
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