Electrolytic cell for the production of oxidising solutions

The invention claimed is: 1. Electrolytic cell for the production of oxidizing solutions comprising an anodic compartment containing an anode and a cathodic compartment containing a cathode with an intermediate compartment delimited by an anodic separator and a cathodic separator arranged there between, said cathodic separator interposed between said cathodic compartment and said intermediate compartment comprising a cation-exchange membrane, said anodic separator interposed between said anodic compartment and said intermediate compartment comprising a diaphragm formed by a network of organic polymer fibers mechanically bound to ceramic material particles, said diaphragm being arranged in one or more layers in intimate contact with an anion-exchange membrane, wherein said anodic separator is oriented with a major surface consisting of said diaphragm facing said anode. 2. The cell according to claim 1 wherein said diaphragm of said anodic separator is made of a 0.1 to 1 mm thick composite tape of perfluorinated polymer and zirconium oxide. 3. The cell according to claim 1 , wherein said anodic compartment is provided with means for supplying water and means for extraction of an oxidising solution, said cathodic compartment is provided with means for supplying water and means for extraction of alkaline catholyte, said intermediate compartment is provided with means for recycling alkali chloride brine. 4. Method for the production of an oxidizing solution containing active chlorine in a cell according to claim 1 , comprising the following simultaneous or successive steps: supplying water to said anodic compartment and optionally to said cathodic compartment; recycling alkali chloride brine through said intermediate compartment; supplying direct electrical current between said anode and said cathode; and extracting the product oxidizing solution from said anodic compartment. 5. The method according to claim 4 wherein said water supplied to said anodic and cathodic compartments has a hardness of not more than 7° f. 6. The method according to claim 5 , wherein said alkali chloride brine recycling is carried out through an external reservoir containing a decomposition catalyst optionally based on RuO 2 or Co 3 O 4 . 7. The method according to claim 4 wherein said alkali chloride brine recycling is carried out through an external reservoir containing a decomposition catalyst optionally based on RuO 2 or Co 3 O 4 . 8. The method according to claim 4 , wherein said oxidizing solution extracted from said anodic compartment has a pH of 4 to 6. 9. The method according to claim 4 , where said alkali chloride brine is a saturated of sodium chloride brine.