Chemical oxygen demand flow injection analysis

T. Korenaga, H.Y. Ikatsu, The determination of chemical oxygen demand in waste-waters with dichromate by flow injection analysis, Anal. Chim. Acta 141 (1982) 301. 

M.L. Balconi, M. Borgarello, R. Ferraroli, F. Realini, Chemical oxygen demand determination in well and river waters by flow-injection analysis using a microwave oven during the oxidation step, Anal. Chim. Acta 261 (1992) 295. 

T. Korenaga, Apparatus for Measuring Chemical Oxygen Demand Based on Flow Injection Analysis [in Japanese]. Bunseki Kagaku, 29 (1980) 222. 

T. Korenaga, Flow Injection Analysis Using Potassium Permanganate An Approach for Measuring Chemical Oxygen Demand in Organic Wastes and Waters. Anal, Lett. A, 13 (1980) 1001. 

T. Korenaga and H. Ikatsu, Effect of Silver Salt on the Determination of Chemical Oxygen Demand by Flow Injection Analysis [in Japanese]. Mp-pon Kagaku Kaishi, 4 (1981) 618. 

T. Korenaga, The Continuous Determination of Filtered Chemical Oxygen Demand with Potassium Dichromate by Means of Flow Injection Analysis. Bull. Chem. Soc. Jpn., 55 (1982) 1033. 

T. Korenaga and H. Ikatsu, Flow Injection Analysis System with Personal Computer Application to a Fully Automated Method for the Measurement of Dissolved Chemical Oxygen Demand in River Waters [in Japanese]. Bunseki Kagaku, 31 (1982) 517. 

J. M. H. Appleton, J. F. Tyson, and R. P. Mounce, The Rapid Determination of Chemical Oxygen Demand in Waste Waters and Effluents by Flow Injection Analysis. Anal. Chim. Acta, 179 (1986) 269. 

T. Korenaga, T. Moriwake, and T. Takahashi, Evaluation of Three Flow Injection Analysis Methods for the Determination of Chemical Oxygen Demand. Mem. Sch. Eng., Okayama Univ., 19 (1984) 53. 

See also-. Enzymes Enzyme-Based Electrodes. Flow Injection Analysis Detection Techniques. Liquid Chromatography Principles. Process Analysis Sensors. Sensors Amperometric Oxygen Sensors Tissue-Based. Titrimetry Overview. Water Analysis Sewage Biochemical Oxygen Demand Chemical Oxygen Demand. 

M. Zenki, S. Fujiwara, T. Yokoyama, Repetitive determination of chemical oxygen demand by cyclic flow injection analysis using on-hne regeneration of consumed permanganate. Anal. Sci. 22 (2006) 77-80. 

M. Novic, B. Pihlar, and M. Dular. Use of flow-injection analysis based on iodometry for automation of dissolved-oxygen (Winkler method) and chemical oxygen demand (dichromate method) determinations. Fresen. Z. Anal. Chem., 332 750-755, 1988. 

T. Korenaga. Flow-injection analysis using potassium-permanganate—an approach for measuring chemical oxygen-demand in organic wastes and waters. Anal. Lett., 13 1001-1011, 1980. 

T. Korenaga and H. Dcatsu. Continuous-flow injection-analysis of aqueous environmental-samples for chemical oxygen-demand. Analyst, 106 653-662, 1981. 

J. Li, L. Li, L. Zheng, Y. Xian, S. Ai, and L. Jin. Amperometric determination of chemical oxygen demand with flow injection analysis using F-Pb02 modified elecfrode. Anal. Chim. Acta, 548 199-204, 2005. 

B. Li, Z. Zhang, J. Wang, and C. Xu. Qrernilurninescence system for automatic determination of chemical oxygen demand using flow injection analysis. Talanla, 61 651-658,2003. 

In another approach the electrocatalytic activity of lead oxide was enhanced with fluoride doping. The F-doped lead oxide-modified electrode leads to the fabricatirai of an electrochemical detection system for flow injection analysis to detect the chemical oxygen demand (COD) in water samples. The combination of flow injection analysis with electrochemical detection of COD results in the development of a low-cost, rapid, and easily automated detection system with minimum reagent consumption. The basic principle of the F-doped lead oxide electrode is the generation of hydroxyl radicals which are subsequently utilized for the oxidation of COD pollutants in order to determine the COD value. It is a multistep process at first, hydroxyl radicals will be produced at the surface of the F-PbOa electrode by the anodic discharge of water ... 

Yu H, Ma C, Quan X, Chen S, Zhao H (2009) Flow injection analysis of chemical oxygen demand (cod) by using a boron-doped diamond (BDD) electrode. Environ Sci Technol 43... 

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