Philippe Mandin
University of Southern Brittany
46 Papers
109 Citations
Philippe Mandin is an academic researcher from University of Southern Brittany. The author has contributed to research in topics: Electrolysis & Bubble. The author has an hindex of 11, co-authored 35 publications. Previous affiliations of Philippe Mandin include University of Poitiers & Chimie ParisTech.
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Papers
Physical principles and miniaturization of spark assisted chemical engraving (SACE)
Rolf Wüthrich,Lucas A. Hof,Ashwin Lal,K. Fujisaki,Hannes Bleuler,Philippe Mandin,Gérard Picard +6 more
TL;DR: The Web of Science Record was created on 2006-06-06, modified on 2017-05-10 by SACE as discussed by the authors for glass micro-machining and microengineering.
Review of necessary thermophysical properties and their sensivities with temperature and electrolyte mass fractions for alkaline water electrolysis multiphysics modelling
TL;DR: In this paper, the authors present an exhaustive review of the transport properties necessary for the multiphysics modelling of alkaline water electrolyzer and provide experimental data and the correlations needed to calculate thermos-physical properties such as electrical conductivity, density, viscosity, heat capacity, heat and mass transfer diffusion coefficients.
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Performance evaluation of environmentally benign nonionic biosurfactant for enhanced oil recovery
Seokju Seo,Mohammad Mastiani,Babak Mosavati,Derek Michael Peters,Philippe Mandin,Myeongsub Kim +5 more
TL;DR: In this paper, the performance of a highly biodegradable nonionic surfactant derived from tannic acid, a possible alternative, was evaluated using a microfluidic technology for the replacement of chemically synthesis surfactants by green chemistry products.
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Eulerian two-fluid model of alkaline water electrolysis for hydrogen production
Damien Le Bideau,Philippe Mandin,Mohamed Benbouzid,Myeongsub Kim,Mathieu Sellier,Fabrizio Ganci,Rosalinda Inguanta +6 more
TL;DR: In this paper, a two-phase hydrodynamics model has been compared with the experimental results of velocity profiles measured using Laser Doppler Velocimetry (LDV) method.
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Bubble Over-Potential During Two-Phase Alkaline Water Electrolysis
TL;DR: In this paper, the authors established the quantitative evolution laws for the electrochemical cell potential, the bubble diameter and population density during NaOH two-phase electrolysis in function of the two explored inputs current density and gravity.
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