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- Effect of Electrolytic Cell Operating Parameters Energy Consumption
sodium hypochlorite generation (OSEC) indicated that the electrolysis cells are designed for very low brine feed flow rates, narrow electrode spacings, achieved sodium hypochlorite concentrations close to one percent, and designed to provide 1 to 3 days of stored sodium hypochlorite
- Electrolysis Sodium Hypochlorite Generation from Sodium
In this ponder, we have explored the electrolysis of sodium hypochlorite generation from the sodium chloride solution utilizing two distinctive electrodes (IrO 2 Ti as anode and stainless steel as a cathode) Hypochlorite is broadly utilized in sanitization, disinfection, making (plastics,
- US4118307A - Batch sodium hypochlorite generator - Google Patents
With the requirement of minimal gap between the anode and the cathode in each cell, care must be taken to see that the anodes are indeed flat and parallel to one another and are held in
- Effects of Cathode Materials and Electrode Separation on . . .
To optimize the electrolytic cell and the electrolysis conditions, the current efficiency for hypochlorite, chlorate and oxygen formation at a commercial RuO2 TiO2 anode were determined under
- Bipolar membrane electrolyzer for sodium hypochlorite generation
As a method to improve the eficiency of electrolysis reactions, bipolar membranes are often installed be-tween the anode and the cathode of electrochemi-cal cells (Wu et al , 2023) In the literature, as far as it was possible to investigate, there are two studies on the production of sodium hypochlorite using bi-polar membranes
- Production of Sodium Hypochlorite or Mixed Oxidant using Rhodium . . .
Several operating parameters will be investigated within this study as the effect of applied current density, solution pH, electrolysis temperature, electrolysis duration, cathode to anode area ratio and gap distance between the two electrodes
- Selection of the Optimal Cathode Material to Synthesize Medical Sodium . . .
It is possible to decrease greatly the loss of ClO– on the cathode, especially at high volume current densities, using electrol-ysis at a cathode current density over 40 mА сm2 It is demonstrated that, for a flow-through coaxial cell, the most suitable material for the cathode is VT1-0 titanium with polished surface
- A Polarity Switching Technique for the Efficient Production of Sodium . . .
A novel, periodic polarity-switching technique is developed for the electrolytic production of sodium hypochlorite from aqueous sodium chloride The technique employs a flow-through cell having two identical platinum electrodes Polarities of these
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