| 1 |
Drastic energy consumption reduction and ecoefficiency improvement of cranberry juice deacidification by electrodialysis with bipolar membranes at semi-industrial scale: Reuse of the recovery solution
Faucher M, Serre E, Langevin ME, Mikhaylin S, Lutin F, Bazinet L
Journal of Membrane Science, 555, 105, 2018 |
| 2 |
Optimization of cranberry juice deacidification by electrodialysis with bipolar membrane: Impact of pulsed electric field conditions
Pelletier S, Serre E, Mikhaylin S, Bazinet L
Separation and Purification Technology, 186, 106, 2017 |
| 3 |
Deacidification of cranberry juice by electrodialysis: Impact of membrane types and configurations on acid migration and juice physicochemical characteristics
Serre E, Rozoy E, Pedneault K, Lacour S, Bazinet L
Separation and Purification Technology, 163, 228, 2016 |
| 4 |
Deacidification of cranberry juice by electrodialysis: Impact of membrane types and configurations on acid migration and juice physicochemical characteristics (vol 163, pg 228, 2016)
Serre E, Rozoy E, Pedneault K, Lacour S, Bazinet L
Separation and Purification Technology, 165, 222, 2016 |
| 5 |
Incorporating Darcy's law for pure solvent flow through porous tubes: Asymptotic solution and numerical simulations
Tilton N, Martinand D, Serre E, Lueptow RM
AIChE Journal, 58(7), 2030, 2012 |
