System and method for measuring and treating a liquid stream

What is claimed is: 1. A method for controlling introduction of a reducing agent to a liquid stream comprising: introducing an oxidizing agent to the liquid stream; measuring a first conductivity of the liquid stream in a conductivity cell of a first sensor; irradiating the liquid stream in the conductivity cell of the first sensor to provide an irradiated liquid stream; measuring a second conductivity of the irradiated liquid stream in the conductivity cell of the first sensor; calculating the oxidizing agent concentration of the liquid stream based on the first conductivity measurement, the second conductivity measurement, and a constant based on the conductivity of the oxidizing agent; introducing a reducing agent to the liquid stream to provide a reduced liquid stream; measuring a third conductivity of the reduced liquid stream in a conductivity cell of a second sensor; irradiating the reduced liquid stream in the conductivity cell of the second sensor to provide an irradiated reduced liquid stream; measuring a fourth conductivity of the irradiated reduced liquid stream in the conductivity cell of the second sensor; calculating the reducing agent concentration based on the third conductivity measurement the fourth conductivity measurement, and a constant based on the conductivity of the reducing agent; and regulating at least one of a rate of addition and an amount of the reducing agent introduced to the liquid stream based on at least one of the calculated oxidizing agent concentration and the calculated reducing agent concentration. 2. The method of claim 1 , wherein the oxidizing agent comprises persulfate. 3. The method of claim 2 , wherein the reducing agent comprises sulfur dioxide. 4. The method of claim 1 , wherein the liquid stream has a resistivity of at least about 15 megaohm-cm. 5. The method of claim 1 , wherein the liquid stream upstream of the first sensor has a resistivity of at least about 1 megaohm-cm. 6. A method for measuring an oxidizing agent concentration and a reducing agent concentration in a liquid stream having a resistivity of at least about 15 megaohm-cm, the method comprising: introducing an oxidizing agent to the liquid stream; measuring a first conductivity of the liquid stream in a conductivity cell of a first sensor; irradiating the liquid stream in the conductivity cell of the first sensor to provide an irradiated liquid stream; measuring a second conductivity of the irradiated liquid stream in the conductivity cell of the first sensor; calculating the oxidizing agent concentration of the liquid stream based in part on the first conductivity measurement, and the second conductivity measurement, and a constant based on the conductivity of the oxidizing agent; introducing a reducing agent to the liquid stream to provide a reduced liquid stream; measuring a third conductivity of the reduced liquid stream in a conductivity cell of a second sensor; irradiating the reduced liquid stream in the conductivity cell of the second sensor to provide an irradiated reduced liquid stream; measuring a fourth conductivity of the irradiated reduced liquid stream in the conductivity cell of the second sensor; and calculating the reducing agent concentration of the reduced liquid stream based on the third conductivity measurement, the fourth conductivity measurement, and a constant based on the conductivity of the reducing agent. 7. The method of claim 6 , wherein the oxidizing agent comprises persulfate. 8. The method of claim 7 , wherein the reducing agent comprises sulfur dioxide. 9. A method for controlling introduction of a reducing agent to a liquid stream comprising: introducing an oxidizing agent to the liquid stream; introducing a portion of the liquid stream to a concentration sensor comprising a single conductivity cell; measuring a conductivity of the portion of the liquid stream in the conductivity cell; irradiating the portion of the liquid stream in the conductivity cell to provide an irradiated liquid stream; measuring a conductivity of the irradiated liquid stream in the conductivity cell; calculating an oxidizing agent concentration of the liquid stream based on the conductivity of the portion of the liquid stream, the conductivity of the irradiated liquid stream, and a constant based on the conductivity of the reducing agent; introducing a reducing agent to the liquid stream to provide a reduced liquid stream; introducing a portion of the reduced liquid stream to the concentration sensor; measuring a conductivity of the portion of the reduced liquid stream in the conductivity cell; irradiating the portion of the reduced liquid stream in the conductivity cell to provide an irradiated reduced liquid stream; measuring a conductivity of the irradiated liquid stream in the conductivity cell; calculating a reducing agent concentration of the reduced liquid stream based on the conductivity of the portion of the reduced liquid stream, the conductivity of the irradiated reduced liquid stream, and a constant based on the conductivity of the reducing agent; and regulating introduction of the reducing agent to the liquid stream based in part on the oxidizing agent concentration and the reducing agent concentration. 10. The method of claim 9 , wherein the oxidizing agent concentration comprises persulfate concentration. 11. The method of claim 10 , wherein the reducing agent comprises sulfur dioxide. 12. The method of claim 9 , wherein the liquid stream has a resistivity of at least about 15 megaohm-cm. 13. The system of claim 9 , wherein the liquid stream upstream of the concentration sensor has a resistivity of at least about 1 megaohm-cm.