Dual biocide generator

What is claimed is: 1. A method of generating a dual biocide comprising: providing a divided electrolytic cell; supplying a sodium chloride solution to the cell to generate an elemental chlorine and a sodium hydroxide effluent stream from the electrolytic cell, wherein the electrolytic cell comprises an anode chamber and a cathode chamber separated by a cation exchange membrane, and wherein the cathode chamber contains a cathode and the anode chamber contains an anode; applying a potential to the electrolytic cell: combining at least a portion of the elemental chlorine stream with the sodium hydroxide stream to form a first biocide sodium hypochlorite solution; and combining at least a portion of the elemental chlorine stream with a salt solution to generate a second biocide at a point of use, wherein a sub-stoichiometric amount of said salt solution generates said second biocide in combination with chlorine and a stoichiometric amount of said salt solution generates said second biocide alone. 2. The method of claim 1 , wherein the salt solution contains a member selected from the group consisting of chlorite, bromide, iodide, fluoride, ammonia and combinations thereof. 3. The method of claim 2 , wherein the combination of the elemental chlorine with the salt solution generates chlorine dioxide, bromine, iodine, fluorine, chloramines or combinations thereof. 4. The method of claim 1 , wherein the cation exchange membrane is a cross-linked perfluorinated polymer backbone with attached sulfonic acid groups. 5. The method of claim 1 , wherein the operational current density of the electrolytic cell is less than about 1.0 amp per square inch and/or the electrolytic cell generates a concentration of free available chlorine of less than about 12 grams per liter. 6. The method of claim 1 , further comprising measuring at least one of the conditions selected from the group consisting of temperature, volume, flow, pressure, and combinations thereof, and employing at least one member selected from the group consisting of flow meter, rotameter, pressure transducer, thermometer, and combinations thereof. 7. The method of claim 6 , wherein at least one of the following is measured: flow meter output, temperature of the electrolytic cell, temperature of electrolyte, temperature of chlorine, brine pump velocity, brine flow rate, current density in the electrolytic cell, water pressure, and incoming water flow rate. 8. A method of providing a dual biocide at a point of use comprising: providing an electrolytic cell having an anode chamber and a cathode chamber separated by a cation exchange membrane, wherein the cathode chamber contains a cathode and the anode chamber contains an anode; supplying a sodium chloride solution to the cell to generate an elemental chlorine and a sodium hydroxide effluent stream from the electrolytic cell; applying a potential to the electrolytic cell; combining at least a portion of the elemental chlorine stream with the sodium hydroxide stream to form a first biocide sodium hypochlorite solution; combining at least a portion of the elemental chlorine stream with a salt solution, wherein the salt solution contains a member selected from the group consisting of chlorite, bromide, iodide, fluoride, ammonia and combinations thereof; generating a second biocide selected from the group consisting of chlorine dioxide, bromine, iodine, fluorine, chloramine and combinations thereof; and providing the biocides to an application of use. 9. The method of claim 8 , wherein the cation exchange membrane is a cross-linked perfluorinated polymer backbone with attached sulfonic acid groups, and wherein the electrolytic cell generates a concentration of free available chlorine of less than about 12 grams per liter (g/L). 10. The method of claim 8 , wherein a stoichiometric amount of said salt solution is provided to said elemental chlorine stream and generates said second biocide without additional chlorine generated. 11. The method of claim 8 , further comprising the step of determining the oxidant demand of the application of use for the biocides. 12. The method of claim 8 , further comprising measuring at least one of the conditions selected from the group consisting of temperature, volume, flow, pressure, and combinations thereof, and employing at least one member selected from the group consisting of flow meter, rotameter, pressure transducer, thermometer, and combinations thereof. 13. The method of claim 12 , wherein at least one of the following is measured: flow meter output, temperature of the electrolytic cell, temperature of electrolyte, temperature of chlorine, brine pump velocity, brine flow rate, current density in the electrolytic cell, water pressure, and incoming water flow rate. 14. A method of chlorinating, disinfecting and/or sanitizing employing a biocide generated at a point of use comprising: generating at least one biocide selected from the group consisting of chlorine, sodium hypochlorite, chlorine dioxide, bromine, iodine, fluorine, chloramines and combinations thereof at a point of use according to the method of claim 1 ; and contacting a surface and/or water source in need of chlorination, disinfection and/or sanitation with the biocide to provide at least 0.1 mg/L residual biocide concentration for at least 1 minute. 15. The method of 14 , further comprising the step of alternating between contacting a surface and/or water source with chlorine or sodium hypochlorite and a second biocide selected from the group consisting of chlorine dioxide, bromine, iodine, fluorine, chloramines and combinations thereof. 16. The method of 14 , wherein a potable water source is contacted with the biocides for disinfection. 17. The method of claim 14 , wherein a wastewater source is contacted with the biocides for chlorination for odor control, prevention of septicity, control of activated sludge bulking, removal of pollutants, eliminating total and fecal coliform, and/or cyanide destruction. 18. The method of 14 , wherein the surface is a hard surface selected from a clean-in-place system, food and beverage processing equipment or system, water filtration and distribution system, tank, vehicle or transportation vessel, beverage brewery bottle/can washing system, and filling assemblies. 19. The method of 14 , further comprising the step of determining the oxidant demand of the application of use for the biocides.