Patent ID: 8969093
Filing Date: 2015-03-03
Classification: C02F,G01N,Y10T

Abstract:
1. A method of analyzing drinking water samples in an on-line procedure and at a remote location along a drinking water supply line, said method comprising: a) providing at least one initial stream of drinking water that has been disinfected with chlorinated or chloraminated disinfectants within a first tube; b) separating said initial drinking water stream of step “a” into at least two different subsequent streams, wherein i) a first separated stream of drinking water is transferred directly into a second tube, and ii) a second separated stream of drinking water is transferred into a third tube wherein it is injected remotely with a standard calibration water sample, wherein said standard calibration water sample includes a predetermined concentration of trihalomethanes and haloacetic acids therein; c) providing a first separate stream of reagent water, wherein said first reagent stream is present within a fourth tube into which said second tube including said first separated stream of drinking water is introduced to form a first capillary membrane sampling device; d) providing a second separate stream of reagent water, wherein said second reagent stream is present within a fifth tube into which said third tube including said second separated stream of drinking water and said standard calibration water sample is introduced to form a second capillary membrane sampling device; e) transporting said first separated stream of drinking water through said first capillary membrane sampling device, such that the majority of all volatile trihalomethanes present within said first separated drinking water stream traverse a membrane of said first capillary membrane sampling device from of said second tube into said first stream of reagent water within said fourth tube to form a first trihalomethane-containing stream, and wherein any haloacetic acids present within said first separated drinking water stream will remain therein and within said second tube to form a first haloacetic acid-containing stream; f) transporting said second separated stream of drinking water through said second capillary membrane sampling device, such that the majority of all volatile trihalomethanes present within said second separated drinking water stream traverse a membrane of said second capillary membrane sampling device from said third tube into said second stream of reagent water within said fifth tube to form a second trihalomethane-containing stream, and wherein any haloacetic acids present within said second separated drinking water stream will remain therein and within said third tube to form a second haloacetic acid-containing stream; g) transporting the first trihalomethane-containing stream and the first haloacetic acid-containing stream to a first multi-port injection valve, wherein said first multi-port valve is configured to inject either said first trihalomethane-containing stream or said first haloacetic acid-containing stream to a first mixing manifold one at a time, while the other of said first trihalomethane or haloacetic acid containing streams is passed through a return line until said first multi-port injection valve is activated to send the other of said first trihalomethane or haloacetic acid containing streams to said first mixing manifold; h) mixing either of said first trihalomethane or haloacetic acid containing streams from step “g” with a base and a fluorescing compound when sent to and present within said first mixing manifold to form a first fluorescing trihalomethane-containing stream or a first fluorescing haloacetic acid-containing stream therein; i) transporting either of said first fluorescing trihalomethane-containing stream or said first fluorescing haloacetic acid-containing stream of step “h” to a fluorescence detector to determine a concentration of either total trihalomethanes or total haloacetic acids within each of said first fluorescing streams through fluorescence detection; wherein only one of said first fluorescing trihalomethane-containing or said first fluorescing haloacetic acid-containing streams will be analyzed at any one time, while the other of said first fluorescing trihalomethane or haloacetic acid containing streams is passed through a return or waste line; j) simultaneously transporting the second trihalomethane-containing stream and the second haloacetic acid-containing stream to a second multi-port injection valve, wherein said second multi-port valve is configured to inject either said second trihalomethane-containing stream or said second haloacetic acid-containing stream to a second mixing manifold one at a time, while the other of said second trihalomethane or haloacetic acid containing streams is passed through a return line until said second multi-port injection valve is activated to send the other of said second trihalomethane or haloacetic acid containing streams to said second mixing manifold; k) mixing either of said second trihalomethane or haloacetic acid containing streams from step “j” with a base and a fluorescing compound when sent to and present within said second mixing manifold to form either a second fluorescing trihalomethane-containing stream or a second fluorescing haloacetic acid-containing stream therein; l) transporting either of said second fluorescing trihalomethane-containing stream or said second fluorescing haloacetic acid-containing stream of step “k” to a fluorescence detector to determine a concentration of either total trihalomethanes or total haloacetic acids within each of said second fluorescing streams through fluorescence detection; wherein only one of said second fluorescing trihalomethane-containing or said second fluorescing haloacetic acid-containing streams will be analyzed at any one time, while the other of said second fluorescing trihalomethane or haloacetic acid containing streams is passed through a return or waste line; and m) calculating total haloacetic acid and trihalomethane compound concentrations of all of said first and second fluorescing trihalomethane-containing and haloacetic acid-containing streams based on fluorescence levels thereof in relation to a calibration point based upon the standard calibration water sample containing predetermined concentrations of trihalomethanes and haloacetic acids introduced within said third tube; wherein steps a) through l) are then repeated in intervals of between 10 and 120 minutes.