Patent ID: 9176106
Filing Date: 2015-11-03
Classification: G01N,Y10T

Abstract:
1. A method for obtaining total organic carbon concentration of sample water using a total organic carbon measuring device comprising: a sample supply unit that has a system for collecting and supplying sample water and subjecting the collected sample water to aeration treatment using a gas containing no carbon dioxide; an oxidative decomposition unit that is connected to the sample supply unit, has oxidative decomposition function that oxidizes organic matter contained in the sample water supplied from the sample supply unit to carbon dioxide, and is capable of turning on and off the oxidative decomposition function; a carbon dioxide separation unit that includes a sample water channel through which the sample water that has passed through the oxidative decomposition unit flows, a measurement water channel through which measurement water consisting of deionized water flows, and a gas permeable membrane interposed between the sample water channel and the measurement water channel to allow carbon dioxide to be transferred therethrough; a conductivity measuring unit that measures a conductivity of the measurement water flowing from the carbon dioxide separation unit; and an arithmetic processing unit that includes a system blank holding section that holds, as a system blank value, a measured value obtained by the conductivity measuring unit when pure water collected in the sample supply unit and subjected to aeration treatment is allowed to pass through the oxidative decomposition unit of which oxidative decomposition function is turned off and then flows through the sample water channel, and an arithmetic section that calculates a total organic carbon concentration of the sample water from a system blank value held in the system blank holding section and a measured value obtained by the conductivity measuring unit when the sample water is allowed to pass through the oxidative decomposition unit of which oxidative decomposition function is turned on and then flows through the sample water channel; the method comprising: obtaining a system blank value by collecting pure water in the sample supply unit and subjecting the collected pure water to aeration treatment using a gas containing no carbon dioxide, turning the oxidative decomposition function of the oxidative decomposition unit off, passing the pure water through the oxidative decomposition unit of which the oxidative decomposition function is turned off, passing the pure water through the sample water channel of the carbon dioxide separation unit while passing measurement water through the measurement water channel to allow carbon dioxide to transfer between the pure water and the measurement water, and measuring the conductivity of the measurement water flowing from the carbon dioxide separation unit; and collecting sample water in the sample supply unit, turning the oxidative decomposition function of the oxidative decomposition unit on, passing the sample water through the oxidative decomposition unit of which the oxidative decomposition function is turned on, passing the sample water through the sample water channel of the carbon dioxide separation unit while passing measurement water through the measurement water channel to allow carbon dioxide to transfer between the sample water and the measurement water, and measuring the conductivity of the measurement water flowing from the carbon dioxide separation unit to obtain a measured value of the sample water; calculating a total organic carbon concentration of the sample water from the system blank value and the measured value of the sample water, wherein the arithmetic processing unit holds calibration curve data representing a relationship between a measured value obtained by the conductivity measuring unit and a total organic carbon concentration of the sample water supplied from the sample supply unit, wherein the calibration curve data is corrected using the system blank value held in the system blank holding section to obtain corrected calibration curve data, and wherein the step of calculating a total organic carbon concentration of the sample water calculates the total organic carbon concentration from the corrected calibration curve data and the measured value of the sample water.