COURSE FOR Water Quality - Need of Ever(y) Hour
Course Objective
To equip learners with in-depth knowledge of water quality concepts, parameters, measurements, and the role of behavior and innovations in water quality management, with practical exposure to fieldwork and data analysis.
Module A: Water Quality - Concepts
- Objective: Understand the fundamental concepts of water quality and pollution.
- Topics Covered:
- Introduction to the water cycle.
- Definition and significance of potable water.
- Types of pollution: microbial, chemical, heavy metals, radiological, and particulate matter.
- Measurements, units, accuracy, and precision in water analysis.
- Sampling techniques and global water quality guidelines.
Module B: Water Quality - Parameters
- Objective: Explore water quality parameters and their implications.
- Topics Covered:
- Common parameters: temperature, pH, conductivity, dissolved oxygen, alkalinity, turbidity, and oxidation-reduction potential.
- Microbial contamination and its effects.
- Chemical contaminants: ammonia, nitrate, chloride, BOD, TOC, pesticides, weedicides, and emerging contaminants (e.g., PFAS, pharmaceuticals).
- Heavy metals: arsenic, lead, mercury, and their health implications.
- Radiological parameters and turbidity.
- Guidelines and enforcement for contaminant limits, including legal frameworks.
- Microbial diversity and antimicrobial resistance.
Module C: Water Quality Measurements
- Objective: Gain proficiency in water quality measurement techniques and instrumentation.
- Topics Covered:
- Tools for measuring water quality parameters.
- Calibration, validation, and quality control of instruments and field test kits.
- Methods for measuring physical and chemical disinfection, heavy metals, turbidity, and ultra-trace contaminants.
- Wastewater contamination risks in water quality assessment.
Module D: Water Quality Survey (Source and Household)
- Objective: Understand survey techniques and data collection for water quality assessments.
- Topics Covered:
- Field test kits (FTKs): Usage and guidelines.
- Incorporating geospatial data into water quality surveys.
- Introduction to survey research and statistical analysis of water quality data.
- Common purification technologies at the household and community levels.
- Hydroinformatics: Basic concepts and applications.
Module E: Measurement, Behavior, and Impact
- Objective: Understand the role of behavior and measurement in water quality management.
- Topics Covered:
- Water-related practices in households and behavioral barriers.
- Strategies to overcome obstacles to improving water quality.
- Role of water quality measurements and public information campaigns in behavioral change.
Module F: Work in the Field
- Objective: Provide hands-on experience with tools, data collection, and analysis for water quality.
- Topics Covered:
- Training on FTKs and advanced equipment for water quality assessment.
- Data analysis techniques for water quality results.
- Innovations and new technologies for utilizing water quality data effectively.
Assessment & Evaluation
- Assignments:
- Analyze case studies of water quality issues.
- Report on sampling and measurement techniques for specific parameters.
- Field Project:
- Conduct a water quality survey in a community or household setting using FTKs and geospatial tools.
- Analyze the collected data and suggest improvements.
- Presentations:
- Present findings from the field project, including actionable recommendations.
- Final Exam:
- Comprehensive assessment covering all modules.
Course Outcomes
- Develop a solid foundation in water quality concepts, parameters, and guidelines.
- Gain practical expertise in using instrumentation and field test kits.
- Conduct effective water quality surveys and data analysis.
- Understand the role of behavior in improving water quality practices.
- Innovate and apply water quality data for sustainable solutions.
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