Course File Leaf (Theory) For the Academic Year (Odd/Even Semester)
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1 Nadar Saraswathi College of Engineering and Technology, Vadapudupatti, Theni (Approved by AICTE, New Delhi and Affiliated to Anna University,Chennai) Course File Leaf (Theory) For the Academic Year (Odd/Even Semester) Format No. Rev. No. 02 NAC/TLP-07a Date Total Page 01 Staff Name S.Gayathri Dept. / Designation CIVIL / A.P Strength 45 Course/Branch B.E / CIVIL Year / Semester II / IV Credit 4 Subject Code/Choice CE6403/ Core / Elective Subject Name Applied Hydraulic Engineering S. No. CONTENTS S. No. CONTENTS 1. Syllabus 14. Tutorial Sheet(If Applicable) 2. Course plan 15. Assignments Information (Group & Individual ) with Samples 3. Students Name list 16. Evaluation Documents (GD, RP, Etc.,) 4. Individual Time Table 17. CAT / Unit Test Questions 5. Course Materials-Unit I 18. CAT / Unit Test Mark Statement & Analysis 6. Course Materials-Unit II 19. Internal Questions and Answer Key 7. Course Materials-Unit III 20. Internal Mark Statement 8. Course Materials-Unit IV 21. Internal Result Analysis Report 9. Course Materials-Unit V Soft copy study materials (CDs) 11. Exam Cell Question Bank (Part-A,B&C) 12. Question Bank (Two marks with answers) 13. Working Models / Project / Paper (CDs, PPTs) Internal Answer papers ( Best, Average, Poor) 23. University Questions and Answer Key 24. University Feedback Summary (with Question) 25. University Mark Statement 26. University Result Analysis Review Particulars: No. Date Done by Remarks Signature * (Verified By Department Audit In charge) Staff Alteration (If any): from. Staff In Charge Head of the Department Principal
2 Nadar Saraswathi College of Engineering and Technology, Vadapudupatti, Theni (Approved by AICTE, New Delhi and Affiliated to Anna University,Chennai) Course Syllabus- Theory For the Academic Year (Odd/Even Semester) Format No. NAC/TLP-07a.1 Rev. No. 01 Date Total Pages 01 Staff Name Mrs.S.Gayathri Dept. / Designation AP/CIVIL Strength 45 Course/Branch B.E / CIVIL Year / Semester II/IV Credit 04 Subject Code/Choice CE6403/ Core / Elective Subject Name Applied Hydraulic Engineering CE6403APPLIED HYDRAULIC ENGINEERINGL T P C OBJECTIVES: To make the students to know various hydraulic engineering problems like open channel flows and hydraulic machines. To understand the concepts and the students should be able to relate theory and practice of problems in hydraulic engineering. UNIT I UNIFORM FLOW 9 Definition and differences between pipe flow and open channel flow - Types of Flow - Properties of open channel - Fundamental equations - Velocity distribution in open channel - Steady uniform flow: Chezy equation, Manning equation - Best hydraulic sections for uniform flow - Computation in Uniform Flow - Specific energy and specific force - Critical depth and velocity. UNIT II GRADUALLY VARIED FLOW 9 Dynamic equations of gradually varied and spatially varied flows - Water surface flow profile classifications: Hydraulic Slope, Hydraulic Curve - Profile determination by Numerical method: Direct step method and Standard step method, Graphical method - Applications. UNIT III RAPIDLY VARIED FLOW 9 Application of the energy equation for RVF - Critical depth and velocity - Critical, Sub-critical and Supercritical flow - Application of the momentum equation for RVF - Hydraulic jumps - Types - Energy dissipation - Surges and surge through channel transitions. UNIT IV TURBINES 9 Impact of Jet on vanes - Turbines - Classification - Reaction turbines - Francis turbine, Radial flow turbines, draft tube and cavitation - Propeller and Kaplan turbines - Impulse turbine - Performance of turbine - Specific speed - Runaway speed - Similarity laws. UNIT V PUMPS 9 Centrifugal pumps - Minimum speed to start the pump - NPSH - Cavitations in pumps - Operating characteristics - Multistage pumps - Reciprocating pumps - Negative slip - Flow separation conditions - Air vessels, indicator diagrams and its variations - Savings in work done - Rotary pumps: Gear pump. TOTAL (L:45+T:15): 60 PERIODS
3 OUTCOMES: Upon Completion of the course, The students will be able to apply their knowledge of fluid mechanics in addressing problems in open channels. They will possess the skills to solve problems in uniform, gradually and rapidly varied flows in steady state conditions. They will have knowledge in hydraulic machineries (pumps and turbines). TEXT BOOKS: 1. Jain. A.K., "Fluid Mechanics", Khanna Publishers, Delhi, Modi P.N. and Seth S.M., "Hydraulics and Fluid Mechanics", Standard Book House, New Delhi, Subramanya K., "Flow in open channels", Tata McGraw Hill, New Delhi, REFERENCES: 1. VenTe Chow, "Open Channel Hydraulics", McGraw Hill, New York, Rajesh Srivastava, "Flow through open channels", Oxford University Press, New Delhi, Bansal, "Fluid Mechanics and Hydraulic Machines", Laxmi Publications, New Delhi, Mays L. W., "Water Resources Engineering", John Wiley and Sons (WSE), New York, 2005 Staff in charge HOD Principal
4 Nadar Saraswathi College of Engineering and Technology, Vadapudupatti, Theni (Approved by AICTE, New Delhi and Affiliated to Anna University,Chennai) Course Plan (Theory) For the Academic Year 20 - (Odd/Even Semester) Format No. NAC/TLP-07a.2 Rev. No. 01 Date Total Pages 05 Staff Name S.Gayathri Dept. / Designation CIVIL / A.P Strength 45 Course/Branch B.E / CIVIL Year / Semester II / IV Credit 4 Subject Code/Choice CE6403/ Core / Elective Subject Name Applied Hydraulic Engineering I. Instructional Objective (5) :The student should be made to : IO1: Understand the various hydraulic engineering problems in open channel flow. IO2: Be familiar with nature of water flow identification and its interpretation. IO3: To know about the various Pumps its working and applications. IO4: To know about the various Turbines its working and applications. IO5: To understand the concepts and to relate the theory and practice of problems in hydraulic engineering. II. Pre requisites:student should know about the basic knowledge about hydraulic flow nature. They should have some basic knowledge about the fluid flow properties, Pumps and Turbines. III. Guidelines : Open Channel Hydraulics and Fluid Mechanics IV. Course Out Come (5) : At the end of this course, the students will be able to CO1: Have knowledge of the various flow nature and its properties. CO2:Concept of fluid flowidentification and its interpretation. CO3:Have knowledge about the operation and application of turbines. CO4:Have knowledge about the operation and application of Pumps. CO5:Have Clear idea with the concepts and can relate the theory and practice of problems in hydraulicengineering. PO - CO Correlation Matrix: (3- > = 80%, 2- > = 60%, 1 > = 40%) PO1 PO2 PO3 PO4 PO5 PO6 PO7 PO8 PO9 PO10 PO11 PO12 a b c d E F G h i J k L CO CO CO CO CO V. Books to be Referred : T1:Subramanya K., "Flow in open channels", Tata McGraw Hill, New Delhi, T1:Modi P.N. and Seth S.M., "Hydraulics and Fluid Mechanics", Standard Book House, New Delhi, T1:Subramanya K., "Flow in open channels", Tata McGraw Hill, New Delhi, R1:Bansal, "Fluid Mechanics and Hydraulic Machines", Laxmi Publications, New Delhi, R2:Rajesh Srivastava, "Flow through open channels", Oxford University Press, New Delhi, R3:VenTe Chow, "Open Channel Hydraulics", McGraw Hill, New York, R4:Mays L. W., "Water Resources Engineering", John Wiley and Sons (WSE), New York, 2005 E-Learning Resources : EL1:
5 EL2: EL3: =applied+hydraulic+engineering&sa=search&ref=&gws_rd=cr&dcr=0&ei=yk0wwuj9acmkvqtbnzo4aq#gsc.tab =0&gsc.q=applied%20hydraulic%20engineering&gsc.page=1 EL4: VI. Method of Evaluation : (Attach Samples) 6.1 Internal Assessment Examination (INT1, INT2, and MOD1/2): [ ] 6.2 Unit Test : [ ] / CAT Test : [ ] 6.3 Assignments / Seminars : [ ] 6.4 Mini Projects : [ ] 6.5 Quiz : [ ] 6.6 Pre Semester Examinations : [ ] 6.7 Others : [ ] Group Discussion / Role Play / Course Exit Survey VII. Lesson Plan: S. No. Topic UNIT IUNIFORM FLOW Definition and differences between pipe flow and open channel flow Types of Flow - Properties of open channel 3. Fundamental equations Velocity distribution in open 4. channel Steady uniform flow: 5. Chezyequation, Manning equation 6. Best hydraulic sections for uniform flow 7. Computation in Uniform Flow 8. Specific energy and specific force - Critical depth and velocity. IOs / POs Correlation Content Delivery Mech* Reference Book no. & Page no. No. of Periods Required Cumulative Periods a,b,c,f,g T1-1, T1-1-2 /PPT R I.O-1,2 / T , a,b,c,f,g 82, a,b,c,d, e,f,g T1-6, T1-86, a,b,c,d, e,f,g a,b,c, e,f,g T , R T T1-28, 40-42, 69, UNIT-IIGRADUALLY VARIED FLOW Dynamic equations of gradually 9. varied flow a,b,c,f,g T Dynamic equations of spatially 10. varied flows a,b,c,f,g T1-5, Water surface flow profile 11. classifications: Hydraulic Slope, T , 199 Hydraulic Curve 2 26 Profile determination by 12. Numerical method: Direct step T method Profile determination by 13. Numerical method: Standard step method T
6 14. Graphical method - Applications T Application of the energy equation 15. for RVF Critical depth and velocity Critical, Sub-critical and Supercritical flow Application of the momentum 17. equation for RVF 18. Hydraulic jumps- Types 19. Energy dissipation Surges and surge through channel 20. transitions. UNIT-III RAPIDLY VARIED FLOW I.O-1,3 / a,c,d,f,g T1-272,313 T1-216, 381,505 R a,c,d,f,g T T1-272, R3-784 T T1-409, 486, Bernoulli s application proof Curriculum gap 2 51 UNIT-IV TURBINES 22. Impact of Jet on vanes a,b,c,e,f,g,h /PPT 23. Turbines-Classification a,c,d,e,f,g,h /PPT 24. Reaction turbines,francis turbine a,b,c,e,f,g,h /PPT Radial flow turbines, Impulse 25. turbine 26. draft tube and cavitations 27. Propeller and Kaplan turbines Performance of turbine - Specific 28. speed - Runaway speed 29. Similarity laws. R3-803, 840 R3-853, 856 R3-896, 915 a,b,c,e,f,g,h /PPT R3-877, 856 a,b,c,d,e,f,g,h a,b,c,d,e,f,g,h a,b,c,d,e,f,g a,c,e,f,g UNIT-V PUMPS R3-915, 980 R3-841, 905 R , R Centrifugal pumps I.O-3,5 / a,b,c,d, e,f,g, /PPT R Minimum speed to start the pump I.O-3,5 / 31. NPSH a,b,c,d, e,f,g /PPT R Cavitations in pumps - Operating I.O-3,5 / R3-29, 32. characteristics a,b,c,d, e,f,g /PPT Multistage pumps - Reciprocating I.O-3,5 / 33. pumps a,b,c,d, e,f,g /PPT R3-968, Negative slip - Flow separation I.O-3,5 / R3-997, 34. conditions a,b,c,d, e,f,g Air vessels, indicator diagrams I.O-3,5 / R and its variations a,b,c,d, e,f,g Savings in work done - Rotary I.O-3,5 / 36. pumps: Gear pump. a,b,c,d, e,f,g R * BB - Blackboard, VD Videos, GD Group Discussion, RP Role Play, SEM Seminar, DM-Demo/Lab, WS- Web Search, PJ Project &CG -GAP.
7 VIII. Lesson Schedule: No. Unit No / Description Duration (Date) From To 1. Unit I/Uniform Flow 2. Unit-II/Gradually Varied Flow 3. Unit-III/Rapidly Varied Flow 4. Unit-IV/Turbines 5. Unit-V/Pumps Total No of Periods No of Inst. Objectives Achieved Remarks IX. Unit Test / CAT Test: No. Date UNIT / CAT Portion No. Date UNIT / CAT Portion XI.Internal / Model Test: No. Tentative Date Portion Total Appear Pass % ` XII.Assignments: Unit Topic No. Best hydraulic section for 1 uniform flow 2 Problems on Turbines Suggestion* Group / Individual IA T1 3 Indicator diagrams and its T1 IA variations * Suggestion: Books / Journals / Magazines / Web Resources XIII.Tutorial: Unit No. Topic * (Questions /Problem /Exercises) Objectives / Outcome Question Count 1. Questions & Problems 2. Questions & Problems 3. Questions & Problems 4. Questions & Problems 5. Questions & Problems *Attach Proof of Tutorial Sheets Separate in given Format. T1 IA Objectives / Outcome Discussed Date Announced Date Submitted Date Completed Date Staff In Charge Head of the Department Principal