PARUL UNIVERSITY - FACULTY OF ENGINEERING & TECHNOLOGY Department of Civil Engineering SYLLABUS FOR 2nd Sem MTech PROGRAMME IRRIGATION NETWORK PLANNING (03214151)
Type of Course: MTech Prerequisite: Rationale: Teaching and Examination Scheme: Teaching Scheme
Examination Scheme Credit
Lect Hrs/ Week
Tut Hrs/
4
-
External
Lab Hrs/
-
4
Total
Internal
T
P
T
CE
P
60
-
20
20
-
100
Lect - Lecture, Tut - Tutorial, Lab - Lab, T - Theory, P - Practical, CE - CE, T - Theory, P - Practical
Contents: Sr.
Topic
Weightage
Teaching Hrs.
4%
2
36%
16
16%
8
20%
10
12%
6
Objective of Network Planning: 1
Objective of structured irrigation network ; Definition of terms ; Regulated system and proposed system ; On and off system ; Basic principles of network planning ; Planning of irrigation project Planning of Command Area:
2
Culturable command area of the project ; Peak demand ; Concept of a block ; Minor service area ; Computing chak size ; Marking of chak boundaries ; Selection of water course section ; Alignment of water course ;; Location positions of outlets ( along ) the canal ;. Fixing outlet level of water course : Direct outlets in main canal and branches ; Outlets in distributories and minors ; Outlets in the tail end of distributories and minors Planning and Design of irrigation Network:
3
Water allowance ; Fixing main canal capacity considering consumptive use of crops ; Alignment of irrigation channel ; Design statements for distributory and minor Micro level Canal Network Planning and operation:
4
Division of chak in subchaks ; Alignment of subminors ; Planning and design aspect of underground pipeline ; Principles of rotational water supply ; Computation of notional area ; Preparation of rotational water supply statement Drainage Planning for Command Area:
5
Importance ; Design rainfall ; Drainage coefficient ; Assessment of the field drainage system ; Design considerations for the drains
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Performance evaluation of a canal irrigation system: 6
Community participation in irrigation water management, water users organization, merits and demerits of water users organization
12%
6
*Continuous Evaluation: It consists of Assignments/Seminars/Presentations/Quizzes/Surprise Tests (Summative/MCQ) etc.
Printed on : 22-11-2016 09:36 AM
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PARUL UNIVERSITY - FACULTY OF ENGINEERING & TECHNOLOGY Department of Civil Engineering SYLLABUS FOR 2nd Sem MTech PROGRAMME HYDROLOGICAL MODELLING (03214152)
Type of Course: MTech Prerequisite: Rationale: Teaching and Examination Scheme: Teaching Scheme
Examination Scheme Credit
Lect Hrs/ Week
Tut Hrs/ Week
Lab Hrs/ Week
3
1
0
4
External
Total
Internal
T
P
T
CE
P
60
30
20
20
20
150
Lect - Lecture, Tut - Tutorial, Lab - Lab, T - Theory, P - Practical, CE - CE, T - Theory, P - Practical
Contents: Sr.
Topic
Weightage
Teaching Hrs.
10%
5
10%
5
10%
5
10%
5
Fundamentals of Modelling: 1
Concept of statistical hydrologic model ; Information content of data and modelling ; Hydrologic model ±�formation , testing and evaluation ; Detection of non homogeneity ; Modelling of non homogeneity Univariate Estimation:
2
Univariate modelling process ; Estimation of model parameters ; Forms used as frequency distribution ; Movement ratio analysis ; Risk versus return period ; Tolerance limits by simulation Time Series Modelling:
3
Components of a time Series : Secular trends , Periodic and cyclical variations , Episodic variation , Random variation ; Moving-average filtering ; Autocorrelation analysis ; Cross-correlation analysis ; Identification of random components ; Autoregression and crossregression models : Deterministic component , Stochastic element , Cross-regression models Statistical Hypothesis Testing:
4
Procedure for Testing Hypotheses : Step 1: Formulation of hypotheses , Step 2: Test statistic and Its sampling distribution , Step 3: Level of significance , Step 4: Data analysis , Step 5: Region of Rejection , Step 6: Select appropriate hypothesis ; Relationships among hypothesis test parameters ; Parametric and Nonparametric tests : Disadvantages of Nonparametric Tests , Advantages of Nonparametric Tests
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Page 1 of 2
Outlier Detection: 5
Chauvenet¶s method ; Dixon±Thompson Test ; Rosner¶s Outlier Test ;Log-Pearson Type III Outlier Detection: Bulletin 17b ; Log Pearson type III Outlier Detection
15%
7
15%
7
15%
7
15%
7
Statistical Frequency Analysis:
6
Frequency Analysis and Synthesis : Population versus Sample , Analysis versus synthesis , Probability Paper , Mathematical model , Procedure , Sample moments , Plotting position formulas , Return period ; Population Models : Normal distribution , Lognormal distribution , Log-Pearson Type III distribution ; Adjusting flood record for urbanization : Effects of urbanization , Method for adjusting flood record ,Testing Significance of Urbanization Graphical Detection of Non homogeneity:
7
Graphical Analyses : Univariate histograms , Bivariate Graphical Analysis ; Compilation of causal information ; Supporting computational analyses Statistical Detection of Non homogeneity:
8
Runs Test : Rational analysis of runs test ; Kendall test for trend : Rationale of Kendall statistic ; Pearson Test for serial independence
*Continuous Evaluation: It consists of Assignments/Seminars/Presentations/Quizzes/Surprise Tests (Summative/MCQ) etc.
Printed on : 22-11-2016 09:36 AM
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PARUL UNIVERSITY - FACULTY OF ENGINEERING & TECHNOLOGY Department of Civil Engineering SYLLABUS FOR 2nd Sem MTech PROGRAMME GROUND WATER DEVELOPMENT AND MANAGEMENT (03214153)
Type of Course: MTech Prerequisite: Rationale: Teaching and Examination Scheme: Teaching Scheme
Examination Scheme Credit
Lect Hrs/ Week
Tut Hrs/
3
-
External
Lab Hrs/ Week
2
4
Total
Internal
T
P
T
CE
P
60
30
20
20
20
150
Lect - Lecture, Tut - Tutorial, Lab - Lab, T - Theory, P - Practical, CE - CE, T - Theory, P - Practical
Contents: Sr.
Topic
Weightage
Teaching Hrs.
5%
2
10%
4
35%
16
25%
12
Introduction: 1
Methods of exploitation of groundwater ; Groundwater development ; Groundwater investigation Aquifer Properties ad Groundwater flow:
2
Aquifer properties ; Specific yield : Determination of specific yield ; Storage coefficient ; Water table contour maps and flow net analysis : Analysis of water table maps , Flow net isotropic aquifer , Flow net anisotropic aquifer ; Groundwater theory Well Hydraulics:
3
Steady state flow to a well : in unconfined aquifer and confined aquifer ; Unsteady state flow to a well : in unconfined aquifer and confined aquifer ; Interference among the wells ; Method of images ; Recharge boundary : Aquifer test ±�Recharge boundary ; Multiple well systems ; Partial penetration of a well : Partial penetration of a well ±�increase in drawdown ; Well losses ; Specific capacity and safe yield ; Hydraulics of open well Well Design and Construction:
4
Design of a well : Well diameter , Well depth , Well screen , Determining gravel pack ; Well drilling : Boring , Driving ; Logging and sampling ;Installation of well screens ; Well development ; Well completion ; Well maintenance ; Determining pump capacity for irrigating a field by well
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Yield Test and Selection of Pump: 5
Yield test ; Method for measuring water level ; Slug test ; Bailing ; Selection of pump set : Information to be supplied to pump manufacturer
15%
8
10%
6
Salinity Ingress and Groundwater Recharge: 6
Various techniques of ground water recharge ; Determining rate of ground water recharge
*Continuous Evaluation: It consists of Assignments/Seminars/Presentations/Quizzes/Surprise Tests (Summative/MCQ) etc.
Printed on : 22-11-2016 09:37 AM
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PARUL UNIVERSITY - FACULTY OF ENGINEERING & TECHNOLOGY Department of Civil Engineering SYLLABUS FOR 2nd Sem MTech PROGRAMME WATER RESOURCES SYSTEM (03214154)
Type of Course: MTech Prerequisite: Rationale: Teaching and Examination Scheme: Teaching Scheme
Examination Scheme Credit
Lect Hrs/ Week
Tut Hrs/
3
1
External
Lab Hrs/
-
4
Total
Internal
T
P
T
CE
P
60
30
20
20
20
150
Lect - Lecture, Tut - Tutorial, Lab - Lab, T - Theory, P - Practical, CE - CE, T - Theory, P - Practical
Contents: Sr.
Topic
Weightage
Teaching Hrs.
10%
4
10%
4
10%
4
Water Resources and Management:
1
Some terms used in water resources systems ; Estimates of water resources ; Population projections and per capita availability of water in India ; Comprehensive water shed development and management ; Water supply management : Community water use , Agricultural water use , Industrial water use , Hydropower generation , Inland water transportation ,Water based recreation ; Water-excess/Water-deficit management :Flood damage reduction , Surface and land drainage , Drought management Augmentation of water resources:
2
Creation of new fresh water resources : Desalination , Cloud seeding ; Rain water harvesting : Rain water harvesting methods , Rain water harvesting projects , Some views on rain water harvesting ; Reclamation and reuse of water : Uses of reclaimed water : Some reclamation projects ; Reduction in water losses : Reservoirs , Water distribution systems , Domestic use , Agricultural use ; Transfer of water from surplus areas to deficit areas : Interlinking of rivers , Kalpasar project in Gujarat , Sujalam Sufalam project in Gujarat Types of systems:
3
Simple and complex systems , Linear and nonlinear systems , Timevariant and time-invariant systems , Continuous and discrete systems , Lumped-parameter and distributed-parameters systems , Deterministic and probabilistic systems , Precise-value and fuzzy-value systems
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Page 1 of 2
Stages in water resources systems:
4
Planning of systems , Analysis and design (or synthesis) of systems , Management of systems ; Necessity of systems approach ; Steps in systems approach ; Model of a system ; Mathematical models in water resources systems ; Optimization techniques ; Simulation techniques ; Steps in planning of water resources systems
10%
4
15%
8
15%
8
15%
8
15%
8
Single purpose systems:
5
Community water use : Ground water as source of water , Surface water as source of water ; Industrial water use ; Agricultural water use ; Hydropower use ; Water use for inland navigation ; Water use for recreation ; Flood control ; Surface and land drainage ; Waste water collection, treatment and disposal ; Water quality management ; Stagewise planning Multipurpose and multi objective systems:
6
Multiple-source single purpose systems ; Single-source multipurpose systems ; Multiple-source multipurpose systems ; Cost allocation in multipurpose systems : Separable and nonseparable costs , Guiding principles for cost allocation , Cost allocation methods ; Multiobjective systems Reservoir storage, Capacity, Estimation and operation:
7
Capacity estimation of an impounding reservoir : General approach , LP approach , DP approach , Dual purpose ; Capacity estimation of dual reservoir : Single purpose ; Capacity estimation of multiple reservoir: Multiple purpose ; Operation of an impounding reservoir: Normal conditions : Standard operating policy , Operating rules for single purpose reservoirs , Operation of an impounding reservoir : LP Approach , DP Approach ; Operation of an impounding reservoir: Draught condition : Standard operating policy ; Flow routing ; Reservoir flood routing : Some storage situations , Flood routing procedure ; Multipurpose multireservoir operation : Single purpose multireservoir system , Multipurpose multireservoir system , Multiobjective multipurpose system Uncertainty, reliability and resilience:
8
Uncertainties in water resources systems : Hydrologic Uncertainty , Demand Uncertainty , Hydraulic uncertainty , Economic uncertainty , Mechanical uncertainty , Operational uncertainty , Data uncertainty , Catastrophic-event uncertainty ; Uncertainty analysis : Procedure ; Reliability analysis : Analytical approaches , Reliability analysis using simulation ; Availability and unavailability ; Resilience : Resilience against system performance threshold , Resilience for post disaster response and recovery , Resilience through adaptive capacity and management , Resilience index
*Continuous Evaluation: It consists of Assignments/Seminars/Presentations/Quizzes/Surprise Tests (Summative/MCQ) etc.
Printed on : 22-11-2016 09:37 AM
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PARUL UNIVERSITY - FACULTY OF ENGINEERING & TECHNOLOGY Department of Civil Engineering SYLLABUS FOR 2nd Sem MTech PROGRAMME RS AND GIS IN WRE (03214180)
Type of Course: MTech Prerequisite: Rationale: Teaching and Examination Scheme: Teaching Scheme
Examination Scheme Credit
Lect Hrs/ Week
Tut Hrs/
3
-
Lab Hrs/ Week
2
4
External
Total
Internal
T
P
T
CE
P
60
30
20
20
20
150
Lect - Lecture, Tut - Tutorial, Lab - Lab, T - Theory, P - Practical, CE - CE, T - Theory, P - Practical
Contents: Sr.
Topic
Weightage
Teaching Hrs.
10%
5
10%
5
10%
5
10%
5
10%
5
Physics of Remote Sensing:
1
Sources of Energy, Active and Passive Radiation, Electromagnetic Spectrum - Reflectance, Transmission, Absorption, Thermal Emissions, Interaction with Atmosphere, Atmospheric windows, Spectral reflectance of Earth's surface features, Multi concept of Remote Sensing, Fundamentals of Microwave Remote SensingSources of Energy, Active and Passive Radiation, Electromagnetic Spectrum - Reflectance, Transmission, Absorption, Thermal Emissions, Interaction with Atmosphere, Atmospheric windows, Spectral reflectance of Earth's surface features, Multi concept of Remote Sensing, Fundamentals of Microwave Remote Sensing Data Analysis:
2
Data Products and Their Characteristics, Data Pre-processing ±� Atmospheric, Radiometric, Geometric Corrections ±�Basic Pattern Recognition Concepts, Basic Principles of Visual Interpretation Fundamentals of GIS:
3
Information Systems, Modelling Real World Features Data , Data Formats ±�Spatial and Non-spatial, Components, Data Collection and Input, Data Conversion Database Management:
4
Database Structures, Files; Standard Data Formats, Compression Techniques, Hardware ±�Computing, printing and scanning systems Introduction to Standard Packages:
5
Arcview, ArcGIS, Autocad Map, Map Info etc
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Page 1 of 2
Spatial Analysis and Modelling:
6
Proximity Analysis, Overlay Analysis, Buffer Analysis, Network Analysis, Spatial Auto Correlation, Gravity Modelling, DTM/DEM, Integration with Remote Sensing data Surface-Water Hydrologic Data, Spatial techniques for Surface-Water Hydrology Modeling, SurfaceWater Hydrology Models, ArcSWAT model and its applications; Groundwater Data, Ground water Models and spatial techniques for Groundwater Modeling and Visualization, The ArcHydro Data Model.
14%
7
14%
7
22%
9
Geospatial techniques:
7
Geospatial techniques for planning and design of Water-Supply and Irrigation Systems, Spatial Database Development for Wastewater and Storm water Systems, Geospatial technologies for Water Resources Monitoring and Forecasting; Spatial Decision-Support Systems in River Basin Management; Spatial systems for floodplain mapping and management, GIS for Water-Quality Management Decision Support Case studies:
8
Case studies of determining evapotranspiration rate, sedimentation rate , reservoir storage
*Continuous Evaluation: It consists of Assignments/Seminars/Presentations/Quizzes/Surprise Tests (Summative/MCQ) etc. Reference Books: 1.
Textbook on Remote Sensing in Natural Resources Monitoring and Management (TextBook) Agarwal, C. S., and Garg, P. K; Wheeler Publishing
2.
GIS for Water Resources and Watershed Management Lyon , J . G
3.
Remote Sensing ±�The Quantitative Approach Swain, P. H., and Davis, S. M; McGraw- Hill Pub. Co. N York, 1987
4.
Remote Sensing and Image Interpretation (TextBook) . Lillesand, T. M., and Keifer, R. W; John Wiley & Sons, N York, 1994
5.
Introduction to the Use of Geographical Information Systems for Practical Hydrology (TextBook) Meijerink M. J., de Brouwer, H.A.M., Mannaerts, C. M., and Velenzuela, C. R; ITC Publication no. 23, UNESCO, Paris, 1994
6.
GIS Applications for Water , Wastewater and Stormwater Systems (TextBook) Shamsi , U . M; CRC Press , 2005
7.
Remote Sensing of Water Resources , Disasters and urban Studies (TextBook) Thenkabail , P . S; CRC Press , 2015
8.
GIS and Remote Sensing in Hydrology, Water Resources and Environment (IAHS Proceedings & Reports ) (TextBook) Yangbo Chen, Kaoru Takara, Ian D. Cluckie, F. Hilaire De
Printed on : 25-01-2017 10:41 AM
Page 2 of 2
PARUL UNIVERSITY - FACULTY OF ENGINEERING & TECHNOLOGY Department of Civil Engineering SYLLABUS FOR 2nd Sem MTech PROGRAMME WATERSHED DEVELOPMENT AND MANAGEMENT (03214181)
Type of Course: MTech Prerequisite: Rationale: Teaching and Examination Scheme: Teaching Scheme
Examination Scheme Credit
Lect Hrs/ Week
Tut Hrs/
3
-
External
Lab Hrs/
2
4
Total
Internal
T
P
T
CE
P
60
30
20
20
20
150
Lect - Lecture, Tut - Tutorial, Lab - Lab, T - Theory, P - Practical, CE - CE, T - Theory, P - Practical
Contents: Sr.
Topic
Weightage
Teaching Hrs.
10%
6
10%
6
15%
6
10%
6
Watershed Development and Management: 1
2
Watershed Development and Management Integrated watershed approach: Community organization and peoples participation in watershed development:
3
Community organization and peoples participation in watershed development ; Beneficiary groups ; Self help groups Probability analysis of rainfall:
4
Probability analysis of rainfall Watershed hydrology ±�Estimation of runoff
5
Watershed development planning:
10%
6
6
Drainage line treatments in watershed development:
15%
6
7
Watershed development and management :Monitoring and evaluation:
15%
6
8
Case Studies:
15%
6
*Continuous Evaluation: It consists of Assignments/Seminars/Presentations/Quizzes/Surprise Tests (Summative/MCQ) etc.
Printed on : 25-01-2017 10:40 AM
Page 1 of 1
PARUL UNIVERSITY - FACULTY OF ENGINEERING & TECHNOLOGY Department of Civil Engineering SYLLABUS FOR 2nd Sem MTech PROGRAMME WATER RESOURCES MANAGEMENT (03214182)
Type of Course: MTech Prerequisite: Rationale: Teaching and Examination Scheme: Teaching Scheme
Examination Scheme Credit
Lect Hrs/ Week
Tut Hrs/
3
-
Lab Hrs/ Week
2
4
External
Total
Internal
T
P
T
CE
P
60
30
20
20
20
150
Lect - Lecture, Tut - Tutorial, Lab - Lab, T - Theory, P - Practical, CE - CE, T - Theory, P - Practical
Contents: Sr.
Topic
Weightage
Teaching Hrs.
10%
5
10%
5
20%
8
30%
15
30%
15
INTRODUCTION: 1
Societal goals ; Objectives of water resource development ; Needs and opportunities ; Concept of a system engineering , System application to water resources engineering . Spatial and temporal characteristics of water resources:
2
Spatial and temporal characteristics of water resources ; Constraints for its development like non-reversibility ; Planning region and horizon Optimal allocation of water resources:
3
Optimal allocation of water resources for various uses ; Case studies Simulation and mathematical modeling of water resources systems:
4
Simulation and mathematical modeling of water resources systems ; Application to reservoir optimization and multi reservoir planning Conjunctive use of water:
5
Conjunctive use of water; Optimization of conjunctive use of water ; Strategies to adopt for optimizing conjunctive use of water .
*Continuous Evaluation: It consists of Assignments/Seminars/Presentations/Quizzes/Surprise Tests (Summative/MCQ) etc. Reference Books: 1.
System Approach to water resources management (TextBook) Biswas by A .K
Printed on : 22-11-2016 09:37 AM
Page 1 of 2
2.
Applied Water Resources System Planning David C. Major & Robert Lanton
3.
Mathematical Foundations for design in Civil Engineering Star , R . M . and Nicholas , R . M
4.
Water Resources Systems Planning and Management (TextBook) Chaturvedi , M . C
5.
Introduction to operation research-Computer oriented Algorithmic Approach (TextBook) Gillett B . E
6.
Optimal Control of Hydro systems Mays , L . W
7.
Water Resources Systems Modelling Techniques and Analysis Vedula , S. And Mujumdar , P . P.; Tata Mcgraw Hill ,2005
8.
Hierarchical analysis of water resources system (TextBook) Haimes , Y . Y
9.
Water resources system engineering (TextBook) Hall & Dracup
10.
Water Resources planning and Management (TextBook) Loucks, Stedinger and Haith
11.
Hydro system Engineering and Management (TextBook) Mays , L. W. And Tung Y. K
12.
Optimisation-theory and application (TextBook) Rao , S . S
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