A First Course in Ion Permeable MembranesElectrochemical Consultancy, 1997 - 255 pagine |
Dall'interno del libro
Risultati 1-3 di 78
Pagina 28
... example , while it will certainly improve mechanical stability , the membrane resistance is also increased by such an inert support . 1.6.4 History and Pretreatment To some extent , membranes have a memory of their previous history ...
... example , while it will certainly improve mechanical stability , the membrane resistance is also increased by such an inert support . 1.6.4 History and Pretreatment To some extent , membranes have a memory of their previous history ...
Pagina 139
... example the maximum concentration of product which can be achieved . Water passes through the membrane as a result of several driving forces : • Gradients in chemical potential resulting from solutions with different compositions or ...
... example the maximum concentration of product which can be achieved . Water passes through the membrane as a result of several driving forces : • Gradients in chemical potential resulting from solutions with different compositions or ...
Pagina 228
... example , been used to convert potassium phthalate to phthalic acid [ 29 ] . Bipolar membrane electrodialysis can also be used to avoid unwanted oxidation at an anode . An example of this type of salt splitting is the recovery of lactic ...
... example , been used to convert potassium phthalate to phthalic acid [ 29 ] . Bipolar membrane electrodialysis can also be used to avoid unwanted oxidation at an anode . An example of this type of salt splitting is the recovery of lactic ...
Altre edizioni - Visualizza tutto
A First Course in Ion Permeable Membranes Thomas A. Davis,J. David Genders,Derek Pletcher Visualizzazione estratti - 1997 |
Parole e frasi comuni
amine anion anion and cation anode anolyte applications aqueous domains aqueous solution back migration bipolar membrane carboxylate polymer cathode catholyte cation exchange membrane cation permeable membrane cell voltage charge Chem chemical chemistry chlor-alkali chlor-alkali industry chloride co-ions commercial membranes concentration conductivity counter ions crosslinking current density current efficiency depleting determined diffusion coefficient dilute divinylbenzene electrical Electrochem electrodialysis stack electrolyte solution Electrosynthesis equation equivalent weight example Figure fixed ionic groups fluorocarbon flux gradient H.L. Yeager H₂ H₂O Hence hydration increase interface ion exchange ion exchange capacity ion permeable membranes Ionomer layer manufacture membrane pairs membrane polymer Membrane Sci membrane surface metal mole molecules monomers NaCl Nafion NaOH Neosepta oxidation perfluorinated membranes perfluorinated polymers perfluorinated sulfonate pretreatment properties proton resistance salt splitting sodium hydroxide sodium sulfate species stability stream structure styrene/divinylbenzene copolymers sulfonate sulfonate polymer sulfuric acid temperature transport number water content