New Methods to Determine Morpholine, Ethanolamine, and Hydrazine in Nuclear Power Plant Wastewater

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Application Note 247: Determination of Morpholine, Ethanolamine, and Hydrazine in Simulated Nuclear Power Plant Wastewater demonstrates one method optimized to separate hydrazine within 16 min and morpholine within 24 min using the IonPac® CS16 column with suppressed
conductivity detection and integrated pulsed amperometric detection (IPAD). A second method resolves ethanolamine (ETA) by cation-exchange chromatography on the IonPac CS15 column with suppressed conductivity detection.
To reduce maintenance time and cost, corrosion inhibitors and oxygen scavengers are often added to control the pH of water in NPP secondary and cooling systems. Application Note 247 explains a sensitive new approach that overcomes previous analytical challenges and facilitates compliance monitoring of NPP wastewater discharge.
conductivity detection and integrated pulsed amperometric detection (IPAD). A second method resolves ethanolamine (ETA) by cation-exchange chromatography on the IonPac CS15 column with suppressed conductivity detection.
To reduce maintenance time and cost, corrosion inhibitors and oxygen scavengers are often added to control the pH of water in NPP secondary and cooling systems. Application Note 247 explains a sensitive new approach that overcomes previous analytical challenges and facilitates compliance monitoring of NPP wastewater discharge.