B.Tech in Water Resources Engineering
Semester-wise syllabus for B.Tech in Water Resources Engineering
Year 1: Foundation in Civil Engineering & Basic Sciences
Semester 1
1. Mathematics-I
- Calculus, matrices, differential equations.
2. Physics-I
- Mechanics, thermodynamics, fluid basics.
3. Chemistry/Environmental Science
- Chemical processes, water quality basics.
4. Engineering Mechanics
- Statics, dynamics, equilibrium.
5. Introduction to Civil Engineering
- Overview of civil engineering domains (water, structural, environmental).
6. Lab-I
- Basic material testing (soil, aggregates, cement).
Semester 2
1. Mathematics-II
- Probability, statistics, Fourier transforms.
2. Engineering Graphics & CAD
- Technical drawing, AutoCAD for hydraulic designs.
3. Building Materials
- Concrete, steel, and sustainable materials.
4. Programming in Python/C
- Basics for data analysis and modeling.
5. Lab-II
- Surveying (leveling, theodolite), fluid properties experiments.
Year 2: Core Water Resources Principles
Semester 3
1. Fluid Mechanics
- Bernoulli’s equation, pipe flow, open channel flow.
2. Hydrology
- Precipitation, runoff, infiltration, hydrographs.
3. Soil Mechanics
- Soil classification, permeability, compaction.
4. Surveying & Geomatics
- GPS, GIS basics, terrain mapping.
5. Lab-III
- Flow measurement (weirs, flumes), permeability tests.
Semester 4
1. Hydraulic Engineering
- Design of canals, spillways, and energy dissipators.
2. Water Resources Systems
- Reservoir planning, water allocation, drought management.
3. Environmental Engineering
- Water treatment, wastewater management.
4. Structural Analysis
- Basics of beams, columns, and hydraulic structures.
5. Lab-IV
- Water quality analysis (pH, BOD, COD), hydraulic modeling (HEC-RAS).
Year 3: Advanced Water Systems & Design
Semester 5
1. Irrigation Engineering
- Canal networks, drip/sprinkler systems, water budgeting.
2. Groundwater Engineering
- Aquifer properties, well hydraulics, contamination.
3. Watershed Management
- Erosion control, rainwater harvesting, GIS applications.
4. Elective-I
- Climate Change & Water Resources or Remote Sensing.
5. Lab-V
- Pump testing, irrigation system design, GIS mapping (ArcGIS).
Semester 6
1. River Engineering
- Flood control, river training, sediment transport.
2. Hydropower Engineering
- Turbines, dam design, small hydropower systems.
3. Water Policy & Economics
- Cost-benefit analysis, national water policies, transboundary issues.
4. Elective-II
- Urban Water Management or Desalination Technologies.
5. Lab-VI
- Flood modeling (HEC-HMS), hydropower simulations.
6. Mini-Project
- Example: Designing a rainwater harvesting system for a community.
Year 4: Specializations & Industry Integration
Semester 7
1. Environmental Impact Assessment (EIA)
- Water projects, mitigation strategies, regulatory frameworks.
2. Advanced Hydraulic Structures
- Dams, barrages, coastal protection systems.
3. Elective-III
- Water-Energy-Food Nexus or Disaster Management in Water Resources.
4. Project Management
- Agile methods, risk assessment, contract management.
5. Lab-VII
- Coastal zone modeling, groundwater remediation experiments.
6. Internship/Industrial Training
- Fieldwork with irrigation departments, NGOs, or consultancies.
Semester 8
1. Emerging Trends
- AI/ML in hydrology, smart water grids, green infrastructure.
2. Professional Ethics & Water Laws
- IPR, environmental ethics, international treaties (e.g., UN Water Convention).
3. Capstone Project
- Example projects:
- Designing a flood forecasting system using IoT sensors.
- Sustainable urban drainage system (SUDS) for a smart city.
4. Viva/Comprehensive Exam
- Assessment of core water resources engineering concepts.
Elective Options
- Remote Sensing & GIS: Satellite data for water resource mapping.
- Climate Change Adaptation: Drought/flood resilience strategies.
- Groundwater Remediation: Contaminant removal techniques.
- Coastal Zone Management: Erosion control, mangrove restoration.
- Water-Energy Nexus: Hydropower optimization, thermal plant cooling.
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