Summary
With the emergence of Industry 4.0, electronic and digital devices are incorporated into almost all high tech applications. There has also been a notable shift towards compact electronic devices, which requires more intense operating powers — leading to enormous heat dissipation. Thus, whilst devices are increasingly becoming portable and powerful, thermal management techniques are arguably not catching up at the same rate. Hence, continuous improvement and innovative approaches are needed. In this regard, microchannel-based techniques present innovative possibilities to tackle thermal management and cooling issues in modern appliances across various industries, aligning with the trend to adopt more sustainable approaches and the EU 2016 legislation for heating and cooling. Consequently, our 'Micro-FloTec' project adapts an international, multidisciplinary, and collaborative approach to exchange expertise from 17 research institutions and two industrial partners to trigger significant advancements and agile development for heat transfer and thermal management solutions. The consortium shares robust experience and skills related to heat transfer enhancement, large-scale electrical energy storage via thermal processes, new generation materials science, multi-phase flow, flow and heat transfer of high-temperature rotating parts, design and modelling for energy-efficient control systems, marketing and entrepreneurship skills, amongst others. Based on the appraisal of the current state-of-the-art literature and technologies, we aim to tackle problems within morphological optimization of multiphase heat transfer performance and flow resistance reduction, surface modification techniques, and application of multi-phase physics for performance prompting. Our project will hopefully achieve cost-effective and sustainable solutions, initiate future advancements and investigations, and contribute towards the EU's 2050 long-term strategy for climate and energy saving goals.
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| Web resources: | https://cordis.europa.eu/project/id/101082394 |
| Start date: | 01-03-2023 |
| End date: | 28-02-2027 |
| Total budget - Public funding: | - 437 000,00 Euro |
Cordis data
Original description
With the emergence of Industry 4.0, electronic and digital devices are incorporated into almost all high tech applications. There has also been a notable shift towards compact electronic devices, which requires more intense operating powers — leading to enormous heat dissipation. Thus, whilst devices are increasingly becoming portable and powerful, thermal management techniques are arguably not catching up at the same rate. Hence, continuous improvement and innovative approaches are needed. In this regard, microchannel-based techniques present innovative possibilities to tackle thermal management and cooling issues in modern appliances across various industries, aligning with the trend to adopt more sustainable approaches and the EU 2016 legislation for heating and cooling. Consequently, our 'Micro-FloTec' project adapts an international, multidisciplinary, and collaborative approach to exchange expertise from 17 research institutions and two industrial partners to trigger significant advancements and agile development for heat transfer and thermal management solutions. The consortium shares robust experience and skills related to heat transfer enhancement, large-scale electrical energy storage via thermal processes, new generation materials science, multi-phase flow, flow and heat transfer of high-temperature rotating parts, design and modelling for energy-efficient control systems, marketing and entrepreneurship skills, amongst others. Based on the appraisal of the current state-of-the-art literature and technologies, we aim to tackle problems within morphological optimization of multiphase heat transfer performance and flow resistance reduction, surface modification techniques, and application of multi-phase physics for performance prompting. Our project will hopefully achieve cost-effective and sustainable solutions, initiate future advancements and investigations, and contribute towards the EU's 2050 long-term strategy for climate and energy saving goals.Status
SIGNEDCall topic
HORIZON-MSCA-2021-SE-01-01Update Date
09-02-2023
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Organisations
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| SABANCI UNIVERSITY (Coördinator)
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| BEIHANG UNIVERSITY
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| IMPERIAL COLLEGE OF SCIENCE, TECHNOLOGY AND MEDICINE
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| KASETSART UNIVERSITY
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| NANYANG TECHNOLOGICAL UNIVERSITY
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| PICADVANCED, SA
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| SEOUL NATIONAL UNIVERSITY
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| SOUTH CHINA UNIVERSITY OF TECHNOLOGY
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| STELLENBOSCH UNIVERSITY
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| SUN YAT-SEN UNIVERSITY
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| THE UNIVERSITY OF HERTFORDSHIRE HIGHER EDUCATION CORPORATION
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| UNIVERSITA DEGLI STUDI DI PADOVA - University of Padova
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| UNIVERSITE DE RENNES
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| UNIVERSITE DE RENNES I
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| UNIVERSITE DE STRASBOURG