A new system for measuring electrical conductivity of water as a function of admittance

1Navneet Kumar and D.K. Sinha, Drinking water quality management through correlation studies among various physicochemical parameters: A case study. Intern. J. Environ. Sci. 2010; 1, 2.KumarNavneetSinhaD.K.Drinking water quality management through correlation studies among various physicochemical parameters: A case studyIntern. J. Environ. Sci201012Search in Google Scholar

2Susan L. Schiefelbein, Naomi A. Fried, Kevin G. Rhoads, and Donald R. Sadoway, A high-accuracy, calibration-free technique for measuring the electrical conductivity of liquids. Review Sci. Instr. 1998; 69, 9.L. SchiefelbeinSusanA. FriedNaomiG. RhoadsKevinRDonaldSadoway A high-accuracy, calibration-free technique for measuring the electrical conductivity of liquidsReview Sci. Instr1998699Search in Google Scholar

3David H.P. Liu and Bda G. Liptik, ed. (2^nd Ed.). Environmental Engineers' Handbook. CRC Press LLC. Rocs Raton. Flonda. 1997; p. 575.H.P. LiuDavidG. LiptikBda(2^nd Ed.)Environmental Engineers' HandbookCRC Press LLC. Rocs Raton. Flonda199757510.1201/9780367805333Search in Google Scholar

4Torrents M. Josep, Low-cost Conductivity Cells for Water Measurement Purposes. Instrumentation and Measurement Technology Conference, Coma Italy. 2004;18-20 MayMTorrentsJosep, Low-cost Conductivity Cells for Water Measurement PurposesInstrumentation and Measurement Technology Conference, Coma Italy20041820MaySearch in Google Scholar

5Jikun Yia, Wei Lia,, Lingfang Wanga, and Zhiyu Wen, The Simulation of Frequency-Capacitance characteristics of Fresh Water Conductivity Sensor. Proceedings of the 2009 4th IEEE International Conference on Nano/Micro Engineered and Molecular Systems January 5-8, 2009, Shenzhen, China.YiaJikunLiaWeiWangaLingfangWenZhiyuThe Simulation of Frequency-Capacitance characteristics of Fresh Water Conductivity SensorProceedings of the 2009 4th IEEE International Conference on Nano/Micro Engineered and Molecular Systems January 5-82009Shenzhen, China10.1109/NEMS.2009.5068520Search in Google Scholar

6Krishnan C.V., M. Garnett, and B. Chu, Solute-Solvent Interactions in Biological Molecules: L-Cysteine. Int. J. Electrochem. Sci., 2008; 3, 854 – 872.C.VKrishnanGarnettM.ChuB.Solute-Solvent Interactions in Biological Molecules: L-CysteineInt. J. Electrochem. Sci20083854 – 872Search in Google Scholar

7Pop G.A., T.L. de Backer, M. de Jong, P.C. Struijk, L. Moraru, Z. Chang, H.G. Goovaerts, C.J. Slager, and A.J. Bogers, On-Line Electrical Impedance Measurement for Monitoring Blood Viscosity during On-Pump Heart Surgery. Eur. Surg. Res. 2004; 36, 259–265. dx.doi.org/10.1159/000079910G.APopde BackerT.L.de JongM.StruijkP.C.MoraruL.ChangZ.GoovaertsH.G.SlagerC.J.BogersA.J.On-Line Electrical Impedance Measurement for Monitoring Blood Viscosity during On-Pump Heart SurgeryEur. Surg. Res200436259–265dx.doi.org/10.1159/00007991010.1159/00007991015359088Search in Google Scholar

8Frederic Laugere, Rosanne M. Guijt, Jeroen Bastemeijer, Gert van der Steen, Axel Berthold, Erik Baltussen, Pascalina Sarro, Gijs W. K. van Dedem, Michiel Vellekoop, and Andre Bossche, On-Chip Contactless Four-Electrode Conductivity Detection for Capillary Electrophoresis Devices. Anal. Chem. 2003; 75, 306-312. dx.doi.org/10.1021/ac01573711255376610.1021/ac0157371LaugereFredericM. GuijtRosanneBastemeijerJeroenvan der SteenGertBertholdAxelBaltussenErikSarroPascalinaW. K. van DedemGijsVellekoopMichielBosscheAndreOn-Chip Contactless Four-Electrode Conductivity Detection for Capillary Electrophoresis DevicesAnal. Chem200375306312dx.doi.org/10.1021/ac015737112553766Search in Google Scholar

9Jinsong Yu and Chung-Chiun Liu, Microfabricated Thin Film Impedance Sensor & AC Impedance Measurements. Sensors, 2010; 10, 5845-5858. dx.doi.org/10.3390/s1006058472221969010.3390/s100605847YuJinsongLiuChung-ChiunMicrofabricated Thin Film Impedance Sensor & AC Impedance MeasurementsSensors20101058455858dx.doi.org/10.3390/s100605847324773522219690Search in Google Scholar

10Riaz Ahmed and Ken Reifsnider, Study of Influence of Electrode Geometry on Impedance Spectroscopy. Int. J. Electrochem. Sci., 2011; 6, 1159 – 1174.AhmedRiazReifsniderKenStudy of Influence of Electrode Geometry on Impedance SpectroscopyInt. J. Electrochem. Sci201161159 – 117410.1115/FuelCell2010-33209Search in Google Scholar

11Sonia Pérez-Vázquez Losada, Implementation of an Electrical Bioimpedance Measurement System for Renal Function Monitoring. Final Degree Thesis 30 ECTS, Erasmus 2007-08, University College of Borås, Sweden, School of Engineering, 2008.Sonia Pérez-Vázquez Losada, Implementation of an Electrical Bioimpedance Measurement System for Renal Function MonitoringFinal Degree Thesis 30 ECTS, Erasmus 2007-08University College of BoråsSwedenSchool of Engineering2008Search in Google Scholar

12Behzadi G. and H. Golnabi, Investigation of Conductivity Effects on Capacitance Measurements of Water Liquids Using Cylindrical Capacitive Sensor. J. Appl. Sci., 2010; 10(4), 261-268. dx.doi.org/10.3923/jas.2010.261.26810.3923/jas.2010.261.268GBehzadiGolnabiH.Investigation of Conductivity Effects on Capacitance Measurements of Water Liquids Using Cylindrical Capacitive SensorJ. Appl. Sci2010104261268dx.doi.org/10.3923/jas.2010.261268Open DOISearch in Google Scholar