Calibration method for water hardness measurement

The invention claimed is: 1. A method of calibrating a fluorescence-measuring instrument for soluble magnesium, the method comprising: measuring background fluorescence of a low calibration standard solution comprising soluble magnesium at a known concentration; combining a magnesium-reactant solution comprising an inert fluorescing agent at a known concentration and a magnesium coordinating fluorescing reagent with the low calibration standard solution, thereby forming a combined low calibration standard solution comprising the inert fluorescing agent and a coordinated magnesium compound; measuring fluorometric responses of the inert fluorescing agent and the coordinated magnesium compound in the combined low calibration standard solution; measuring fluorometric response of an inert fluorescing agent in a high calibration standard solution comprising both soluble magnesium and inert fluorescing agent at known concentrations; combining the magnesium-reactant solution with the high calibration standard solution, thereby forming a combined high calibration standard solution comprising inert fluorescing agent and a coordinated magnesium compound; measuring fluorometric responses of the inert fluorescing agent and the coordinated magnesium compound in the combined high calibration standard solution; and calibrating the fluorescence-measuring instrument based on the measured fluorometric responses and the known concentrations of soluble magnesium and inert fluorescing agent in the low calibration standard solution and in the high calibration standard solution. 2. The method of claim 1 , wherein the fluorescence-measuring instrument is calibrated by plotting a calibration curve for magnesium and inert fluorescing agent based on the measured fluorometric responses and known concentrations of soluble magnesium and inert fluorescing agent in the low calibration standard solution and in the high calibration standard solution and the calibration curve is used to calibrate the fluorescence-measuring instrument. 3. The method of claim 2 , wherein an equation of the calibration curve is stored by a controller and the equation is used to automatically calibrate the fluorescence-measuring instrument. 4. The method of claim 1 , wherein the fluorescence-measuring instrument is flushed with the low calibration standard solution or the high calibration standard solution prior to each measuring step. 5. The method of claim 1 , wherein the low calibration standard solution comprises soluble magnesium at a concentration of from about 50 ppb to about 200 ppb, and the high calibration standard solution comprises soluble magnesium at a concentration of from about 300 ppb to about 900 ppb, and the inert fluorescing agent at a concentration of about 1 ppb to about 20 ppb. 6. The method of claim 1 , wherein the inert fluorescing agent is Rhodamine WT. 7. The method of claim 1 , wherein the magnesium coordinating fluorescing reagent is 8-hydroxyquinoline-5-sulfonic acid. 8. The method of claim 1 , wherein the low and high calibration standard solutions have a soluble magnesium concentration difference of from about 50 ppb to about 850 ppb. 9. The method of claim 1 , wherein the low calibration standard solution has a concentration of soluble magnesium of from about 50 ppb to about 200 ppb. 10. A method of calibrating a fluorescence-measuring instrument for soluble magnesium and total hardness, the method comprising: measuring background fluorescence of a low calibration standard solution comprising soluble magnesium and soluble calcium each at known concentrations: combining a magnesium-reactant solution comprising an inert fluorescing agent at a known concentration and a magnesium coordinating fluorescing reagent with the low calibration standard solution, thereby forming a combined low calibration standard solution comprising the inert fluorescing agent and a coordinated magnesium compound; measuring fluorometric responses of the inert fluorescing agent and the coordinated magnesium compound in the combined low calibration standard solution; combining the magnesium-reactant solution and a total hardness-reactant solution comprising a magnesium-containing reagent with the low calibration standard solution, thereby forming a calcium-displaced low calibration standard solution comprising the inert fluorescing agent and the coordinated magnesium compound; measuring fluorometric responses of the inert fluorescing agent and the coordinated magnesium compound in the calcium-displaced low calibration standard solution in order to measure total hardness; measuring fluorometric response of an inert fluorescing agent in a high calibration standard solution comprising soluble magnesium, soluble calcium, and the inert fluorescing agent, each at known concentrations; combining the magnesium-reactant solution with the high calibration standard solution, thereby forming a combined high calibration standard solution comprising the inert fluorescing agent and a coordinated magnesium compound; measuring fluorometric responses of the inert fluorescing agent and the coordinated magnesium compound in the combined high calibration standard solution; combining the magnesium-reactant solution and the total hardness-reactant solution with the high calibration standard solution, thereby forming a calcium-displaced high calibration standard solution comprising the inert fluorescing agent and the coordinated magnesium compound; measuring fluorometric responses of the inert fluorescing agent and the coordinated magnesium compound in the calcium-displaced high calibration standard solution in order to measure total hardness; and calibrating the fluorescence-measuring instrument based on the measured fluorometric responses, the known concentrations of soluble magnesium and inert fluorescing agent, and the measurements of total hardness in the low calibration standard solution and in the high calibration standard solution. 11. The method of claim 10 , wherein the fluorescence-measuring instrument is calibrated by plotting a calibration curve for soluble magnesium, total hardness, and the inert fluorescing agent based on the measured fluorometric responses and known concentrations of soluble magnesium, soluble calcium, and inert fluorescing agent in each of the low calibration standard solution and in the high calibration standard solution. 12. The method of claim 11 , wherein an equation of the calibration curve is stored by a controller and the equation is used to automatically calibrate the fluorescence-measuring instrument. 13. The method of claim 10 , wherein the fluorescence-measuring instrument is flushed with the low calibration standard solution or the high calibration standard solution prior to each measuring step. 14. The method of claim 10 , wherein the low calibration standard solution comprises soluble magnesium at a concentration of from about 50 ppb to about 200 ppb and soluble calcium at a concentration of from about 50 ppb to about 200 ppb; and the high calibration standard solution comprises soluble magnesium at a concentration of from about 300 ppb to about 900 ppb, soluble calcium at a concentration of from about 300 ppb to about 900 ppb, and the inert fluorescing agent at a concentration of about 1 ppb to about 20 ppb. 15. The method of claim 10 , wherein the inert fluorescing agent is Rhodamine WT. 16. The method of claim 10 , wherein the magnesium coordinating fluorescing reagent is 8-hydroxyquinoline-5-sulfonic acid. 17. The method of claim 10 , wherein the magnesium-containing reagent is magnesium (1,2-d