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 |
Flow battery based on reverse electrodialysis with bipolar membranes: Single cell experiments Xia JB, Eigenberger G, Strathmann H, Nieken U Journal of Membrane Science, 565, 157, 2018 |
3 |
Zero discharge process for foil industry waste acid reclamation: Coupling of diffusion dialysis and electrodialysis with bipolar membranes Zhuang JX, Chen Q, Wang S, Zhang WM, Song WG, Wan LJ, Ma KS, Zhang CN Journal of Membrane Science, 432, 90, 2013 |
4 |
Which is more competitive for production of organic acids, ion-exchange or electrodialysis with bipolar membranes? Wang YM, Huang CH, Xu TW Journal of Membrane Science, 374(1-2), 150, 2011 |
5 |
Production of monoprotic, diprotic, and triprotic organic acids by using electrodialysis with bipolar membranes: Effect of cell configurations Wang YM, Zhang N, Huang CH, Xu TW Journal of Membrane Science, 385(1-2), 226, 2011 |
6 |
Optimization of electrodialysis with bipolar membranes by using response surface methodology Wang YM, Huang CH, Xu TW Journal of Membrane Science, 362(1-2), 249, 2010 |
7 |
Integration of conventional electrodialysis and electrodialysis with bipolar membranes for production of organic acids Wang YM, Zhang X, Xu TW Journal of Membrane Science, 365(1-2), 294, 2010 |