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Water quality monitoring and management : basis, technology and case studies /

Water Quality Monitoring and Management: Basis, Technology and Case Studies presents recent innovations in operations management for water quality monitoring. It highlights the cost of using and choosing smart sensors with advanced engineering approaches that have been applied in water quality monit...

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Main Authors: Li, Daoliang, (Author), Liu, Shuangyin, (Author)
Language:English
Published: London, United Kingdom ; San Diego, CA, United States : Academic Press, an imprint of Elsevier, [2019]
Subjects:
Water quality management.
Water quality management > Data processing.
Water quality > Measurement.
Water-supply > Management.
TECHNOLOGY & ENGINEERING > Environmental > General.
Water quality.
Electronic books.
Online Access:ScienceDirect
ScienceDirect
Table of Contents:
  • Front Cover; Water Quality Monitoring and Management: Basis, Technology and Case Studies; Copyright; Contents; About the Author; Preface; Chapter 1: Sensors in Water Quality Monitoring; 1.1. pH Measurement and Value; 1.1.1. pH and How to Measure It; 1.1.2. What Does the pH Value of a pH Measurement Mean?; 1.1.3. How Do I Measure the pH Value?; 1.2. ORP-Redox Potential Measurement for Water Quality; 1.2.1. What Is ORP?; 1.2.1.1. Oxidation; 1.2.1.2. Reduction; 1.2.1.3. The Nernst Equation for ORP; Nernst Equation (25C); 1.2.2. Measurement of ORP; 1.2.2.1. The ORP Electrode
  • 1.2.2.2. The Reference Electrode1.2.3. The Application of ORP; 1.3. Measuring Dissolved Oxygen; 1.3.1. What Is Dissolved Oxygen?; 1.3.1.1. Dissolved Oxygen and Aquatic Life; 1.3.1.2. Dissolved Oxygen Saturation; 1.3.1.3. Calculating DO From Percent Air Saturation; 1.3.2. Dissolved Oxygen Measurement Methods; 1.3.2.1. Measuring Dissolved Oxygen by the Sensor Method; 1.3.2.1.1. Optical Dissolved Oxygen Sensors; 1.3.2.1.2. Electrochemical Dissolved Oxygen Sensors; 1.3.2.1.3. Polarographic Dissolved Oxygen Sensors; 1.3.2.1.4. Pulsed Polarographic Dissolved Oxygen Sensors
  • 1.3.2.1.5. Galvanic Dissolved Oxygen Sensors1.3.2.2. Measuring Dissolved Oxygen by the Colorimetric Method; 1.3.2.2.1. Indigo Carmine; 1.3.2.2.2. Rhodazine D; 1.3.2.3. Measuring Dissolved Oxygen by the Titrimetric Method; 1.3.2.3.1. Winkler Method; 1.3.2.3.2. Modified Winkler Methods; 1.4. Measuring Turbidity, Total Suspended Solids, and Water Clarity; 1.4.1. What Are Total Suspended Solids?; 1.4.2. What Is Turbidity?; 1.4.3. What Is Water Clarity?; 1.4.4. Turbidity vs. Suspended Solids-What Is the Difference?; 1.4.5. Turbidity and Total Suspended Solids Measurement Methods
  • 1.4.5.1. A Note on Turbidity, Turbidity Units, and Unit Conversions1.4.5.2. Quality Standards; EPA Method 180.1; ISO 7027; GLI Method 2; Hach Method 10133; Standard Methods 2130B; Mitchell Methods M5271, M5331; Orion AQ4500; AMI Turbiwell; Mitchell Method M5271; Mitchell Method M5331; Orion Method AQ4500; AMI Turbiwell; 1.4.5.2.1. Measuring Turbidity With a Turbidity Meter; Light Scatter; Nephelometry; Attenuation; Ratio Designs (Nephelometric); 1.4.5.2.2. Measuring Turbidity With a Turbidity Sensor; Nephelometric Turbidity Sensors; Turbidity and Temperature Compensation
  • Backscatter Turbidity SensorsAttenuation Turbidity Sensor; 1.4.5.3. Total Suspended Solids Measurement Methods; 1.4.5.3.1. Total Suspended Solids and Suspended Sediment Concentration by Weight; 1.4.5.3.2. Total Suspended Sediment by Acoustic Doppler Measurements; 1.5. The Basics of Chlorophyll Measurement; 1.5.1. What Is Chlorophyll?; 1.5.2. The Importance of Chlorophyll as a Water Quality Parameter; 1.5.3. Reasons to Measure Chlorophyll; 1.5.4. How Is Chlorophyll Measured?; 1.5.4.1. How Does YSI Measure Chlorophyll?; 1.5.4.2. Fouling Effects on Optical Measurements

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