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BIRLA INSTITUTE OF TECHNOLOGY AND SCIENCE, PilaniPilani CampusInstruction Division

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Please Do Not Print Unless Necessary

SECOND SEMESTER 2017 – 2018

Course Handout part IIDate: 08/01/2018

In addition to part – I (General Handout for all courses appended to the time table) thisportion gives further specific details regarding the course.

Course no: ME F341Course Title: PRIME MOVERS AND FLUID MACHINESInstructor – in – charge: MANOJKUMAR S. SONILab Instructors: Vivek Tiwari, Santosh Saraswat

1. Scope and Objective of the Course:The Course is intended to familiarize the students with theoretical analysis of energy andmomentum transfer between the fluid and rotor. The working principles, designconsiderations, performance and application aspects of turbo machines will be dealt with.Classification, descriptive details and performance of rotary machines and reciprocatingmachines will be discussed.

2. Text books:TB1:M.S. Soni; Prime Movers and Fluid machines; EDD notes.TB2: S. S. Deshmukh & M. S. Soni; Laboratory manual for prime movers and fluidmachines; EDD notes.

Reference Books:RB1: Jagdish lal; Hydraulic Machines; Metropolitan Book Company Private limited, NewDelhi; 1975; 6th Edition.RB2: Kadambi V & Manohar Prasad; An Introduction to Energy Conversion Volume III;New Age International (P) limited; 1977.RB3: Agarwall S K; Fluid Mechanics and Machinery; Tata McGrawhill publishing companylimited, New Delhi; 1997.

3. Course Objectives:

No Course Objectives

CO1 To understand dimensional analysis and perform dimensional analysis using suitabletechnique for a given problem statement


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CO2 To understand model analysis of fluid machines.

CO3 To understand theory and working principles of fluid machines

CO4 The understand the theoretical analysis of energy and momentum transfer between thefluid and rotor.

CO5 The understand the theoretical analysis of positive displacement machines.

CO6 To understand design considerations, performance and application aspects of variousturbo machines.

4. Course Learning Outcomes:

No Learning Outcomes

LO1 To perform dimensional and model analysis for a given problem statement

LO2 To explain working principles of fluid machines

LO3 The analyse energy and momentum transfer between the fluid and rotor of fluidmachines.

LO4 The analyse positive displacement machines.

LO5 To evaluate the performance of various turbo machines under given conditions.

5. Modular Content Structure:

.WeekNo.

LearningObjectives Sub-modules (SM)

Referenceto Textbooks

M1

Introduction, TounderstandDimensionalanalysis as appliedto fluid machines.To understand theprinciples ofsimilarity andmodel testing

SM1.1: Units and DimensionsSM1.2: Methods of Dimensional AnalysisSM1.3: Dimensionless NumbersSM1.4: SimilaritySM1.5: Unit QuantitiesSM1.6: Specific QuantitiesSM1.7: Dimensional Analysis for Rotating SystemsSM1.8: Model Testing of Turbines and Pumps

Chapter 1 ofTB1;Chapter 12of RB1;Chapter 16of RB3


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.WeekNo.



M1





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.WeekNo.



M1





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.WeekNo.



M2

To review the basicconcepts of fluidmechanics andmachinery. Tounderstand theclassification ofhydraulic turbinesTo analyse thehydraulic machine

SM2.1: Elements of a Hydroelectric Power PlantSM2.2: Classification of TurbinesSM2.3: Head and Efficiencies of a TurbineSM2.4: Energy ConversionSM2.5: Fundamental Equation of HydraulicMachinesSM2.6: Pelton TurbineSM2.7: Francis TurbineSM2.8: Axial Flow TurbinesSM2.9: Kaplan TurbineSM2.10:Governing of Water TurbinesSM2.11:Characteristics of TurbinesSM2.12:Selection of Turbines

Chapter 2TB1Chapter 13of RB3;Chapter 18of RB1

M3

To understand theclassification ofpumps, workingprinciples of variouspumps, Analysis ofreciprocatingpumps.

SM3.1: Classification of Reciprocating PumpsSM3.2: Velocity and Acceleration of Water inSuction and Delivery PipesSM3.3: Indicator DiagramSM3.4: Effect of Acceleration Head in Suction andDelivery Pipe on Indicator DiagramSM3.5: Effect of Pipe Friction on Indicator DiagramSM3.6: Effect of Acceleration Head and PipeFriction on Indicator DiagramSM3.7: Limitation on Maximum Speed ofReciprocating PumpSM3.8: Air VesselsSM3.9: Effect of Air Vessel on Indicator DiagramSM3.10: Work Saved with Air Vessel

Chapter 3TB1 Chapter14 of RB3;Chapter 20of RB1

M4

To understand theanalyticalprinciples ofcentrifugal pumps

SM4.1: Centrifugal Pump SystemSM4.2: Classification of Centrifugal PumpsSM4.3: Fundamental Equation of Centrifugal PumpSM4.4: Power and EfficiencySM4.5: Minimum starting speed of the pumpSM4.6: Variation of Euler Head with Curvature ofBladesSM4.7: Maximum Suction HeightSM4.8: Net Positive Suction Head (NPSH)SM4.9: Characteristics of a Centrifugal Pump

Chapter 3TB1 Chapter14ofRB3;Chapter19 of RB1


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.WeekNo.



M2




M3




M4





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.WeekNo.



M2




M3




M4





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.WeekNo.



M5

To understandclassification;working &analyticalprinciples ofReciprocatingcompressors.

SM5.1: Classification Of CompressorsSM5.2: Reciprocating CompressorSM5.3: Volumetric EfficiencySM5.4: Multi-stage Compression with Inter-cooling

Chapter 4 ofTB1;Chapter 15of RB3;

M6

To understand theanalyticalprinciples ofcentrifugalcompressors andvarious othercompressors

SM6.1: Main Components of centrifugal compressorSM6.2: Energy ConversionSM6.3: Slip and Slip factorSM6.4: Impeller Vane Shape and Velocity TrianglesSM6.5: Stagnation Values in CentrifugalCompressorSM6.6: RothalpySM6.7: Pressure CoefficientSM6.8: Surging and StallingSM6.9: Centrifugal compressor characteristicsSM6.10: Fans and Blowers

Chapter 4 ofTB1;Chpater15of RB3;chapter 5 ofRB2.

M7

To understand theanalyticalprinciples of axialcompressors andvarious othercompressors

SM7.1: IntroductionSM7.2: Axial Flow CompressorSM7.3: Cascade Flow and NomenclatureSM7.4: Stage Velocity Triangles and Work InputSM7.5: Effect of Axial velocity on WorkSM7.6: Degree of ReactionSM7.7: Small Stage or Polytropic EfficiencySM7.8: Stage loading coefficientSM7.9: SurgingSM7.10: StallingSM7.11: Axial Compressor CharacteristicsSM7.12: Fans and Blowers

Chapter 4 ofTB1;Chapter15of RB3;chapter 5 ofRB2.


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.WeekNo.



M5




M6




M7





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.WeekNo.



M5




M6




M7





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.WeekNo.



M8

To understandthermodynamicand analyticalprinciples behindthe flow of fluidsthrough nozzlesand blade passages

SM8.1: IntroductionSM8.2: Flow of Steam through nozzlesSM8.3: Critical Pressure Ratio and MaximumDischargeSM8.4: Expansion of Steam Considering Friction(Nozzle Efficiency)SM8.5: Supersaturated or Meta stable flow of steamin nozzle

Chapter 5 ofTB1;Chapter 3 ofRB2.

M9

To understand theclassification ofsteam turbines andbasic principles ofanalysisTo understand theanalysis of varioussteam turbines

SM9.1: IntroductionSM9.2: Classification of Steam TurbinesSM9.3: Impulse TurbineSM9.4: Reaction Turbine (Impulse ReactionTurbine)SM9.5: Stage Efficiency, Turbine Efficiency andReheat FactorSM9.6: Losses in Steam TurbinesSM9.7: Governing of Steam Turbines

Chapter 8 ofTB1;Chapter 4 ofRB2

M10

To understandclassification;working &analyticalprinciples of gasturbines

SM10.1: Introduction to gas turbinesSM10.2: Elementary Design of a turbineSM10.3: Off Design ParametersSM10.4: Three Dimensional FlowsSM10.5: Gas Turbine Blading


6. Learning PlanContact Hour 1

Type ContentRef.

Topic Title Study/HWResource Reference

Pre CH

DuringCH SM2.1

SM2.2SM2.3

IntroductionSM2.1: Elements of a Hydroelectric Power PlantSM2.2: Classification of TurbinesSM2.3: Head and Efficiencies of a Turbine

Chapter 2 TB1Chapter 13 of RB3;Chapter 18 of RB1


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.WeekNo.



M8




M9




M10





Type ContentRef.


Pre CH

DuringCH SM2.1

SM2.2SM2.3




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.WeekNo.



M8




M9




M10





Type ContentRef.


Pre CH

DuringCH SM2.1

SM2.2SM2.3




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SM2.4 SM2.4: Energy Conversion

Post CH Revise the content taught during CH1

Contact Hour 2

Type ContentRef.


Pre CH Revise the content taught during CH1

DuringCH

SM2.5SM2.6

SM2.5: Fundamental Equation of HydraulicMachinesSM2.6: Pelton Turbine



Contact Hour 3

Type ContentRef.



DuringCH

SM2.7SM2.8

SM2.7: Francis TurbineSM2.8: Axial Flow Turbines



Contact Hour 4

Type ContentRef.



DuringCH

SM2.9SM2.10SM2.11SM2.12

SM2.9: Kaplan TurbineSM2.10:Governing of Water TurbinesSM2.11:Characteristics of TurbinesSM2.12:Selection of TurbinesProblems discussion



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Contact Hour 2

Type ContentRef.



DuringCH

SM2.5SM2.6




Contact Hour 3

Type ContentRef.



DuringCH

SM2.7SM2.8




Contact Hour 4

Type ContentRef.



DuringCH

SM2.9SM2.10SM2.11SM2.12




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Contact Hour 2

Type ContentRef.



DuringCH

SM2.5SM2.6




Contact Hour 3

Type ContentRef.



DuringCH

SM2.7SM2.8




Contact Hour 4

Type ContentRef.



DuringCH

SM2.9SM2.10SM2.11SM2.12




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Contact Hour 5

Type ContentRef.



DuringCH

SM3.1SM3.2SM3.3

SM3.1: Classification of Reciprocating PumpsSM3.2: Velocity and Acceleration of Water inSuction and Delivery PipesSM3.3: Indicator Diagram



Contact Hour 6

Type ContentRef.



DuringCH

SM3.4SM3.5

SM3.4: Effect of Acceleration Head in Suction andDelivery Pipe on Indicator DiagramSM3.5: Effect of Pipe Friction on IndicatorDiagram



Contact Hour 7

Type ContentRef.



DuringCH

SM3.6SM3.7

SM3.6: Effect of Acceleration Head and PipeFriction on Indicator DiagramSM3.7: Limitation on Maximum Speed ofReciprocating Pump




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Contact Hour 5

Type ContentRef.



DuringCH

SM3.1SM3.2SM3.3




Contact Hour 6

Type ContentRef.



DuringCH

SM3.4SM3.5




Contact Hour 7

Type ContentRef.



DuringCH

SM3.6SM3.7





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Contact Hour 5

Type ContentRef.



DuringCH

SM3.1SM3.2SM3.3




Contact Hour 6

Type ContentRef.



DuringCH

SM3.4SM3.5




Contact Hour 7

Type ContentRef.



DuringCH

SM3.6SM3.7





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Contact Hour 8

Type ContentRef.



DuringCH

SM3.8SM3.9SM3.10

SM3.8: Air VesselsSM3.9: Effect of Air Vessel on Indicator DiagramSM3.10: Work Saved with Air VesselProblems discussion



Contact Hour 9

Type ContentRef.



DuringCH

SM4.1SM4.2SM4.3

SM4.1: Centrifugal Pump SystemSM4.2: Classification of Centrifugal PumpsSM4.3: Fundamental Equation of CentrifugalPump

Chapter 3 TB1Chapter 14ofRB3;Chapter 19 ofRB1


Contact Hour 10

Type ContentRef.



DuringCH

SM4.4SM4.5SM4.6

SM4.4: Power and EfficiencySM4.5: Minimum starting speed of the pumpSM4.6: Variation of Euler Head with Curvature ofBlades




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Contact Hour 8

Type ContentRef.



DuringCH

SM3.8SM3.9SM3.10




Contact Hour 9

Type ContentRef.



DuringCH

SM4.1SM4.2SM4.3




Contact Hour 10

Type ContentRef.



DuringCH

SM4.4SM4.5SM4.6





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Contact Hour 8

Type ContentRef.



DuringCH

SM3.8SM3.9SM3.10




Contact Hour 9

Type ContentRef.



DuringCH

SM4.1SM4.2SM4.3




Contact Hour 10

Type ContentRef.



DuringCH

SM4.4SM4.5SM4.6





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Contact Hour 11

Type ContentRef.



DuringCH

SM4.7SM4.8SM4.9

SM4.7: Maximum Suction HeightSM4.8: Net Positive Suction Head (NPSH)SM4.9: Characteristics of a Centrifugal PumpProblems discussion



Contact Hour 12

Type ContentRef.



DuringCH

SM5.1SM5.2

SM5.1: Classification Of CompressorsSM5.2: Reciprocating Compressor

Chapter 4 of TB1;Chapter 15 of RB3;


Contact Hour 13

Type ContentRef.



DuringCH

SM5.3SM5.4

SM5.3: Volumetric EfficiencySM5.4: Multi-stage Compression with Inter-coolingProblems discussion



Contact Hour 14

Type ContentRef.



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Contact Hour 11

Type ContentRef.



DuringCH

SM4.7SM4.8SM4.9




Contact Hour 12

Type ContentRef.



DuringCH

SM5.1SM5.2




Contact Hour 13

Type ContentRef.



DuringCH

SM5.3SM5.4




Contact Hour 14

Type ContentRef.



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Contact Hour 11

Type ContentRef.



DuringCH

SM4.7SM4.8SM4.9




Contact Hour 12

Type ContentRef.



DuringCH

SM5.1SM5.2




Contact Hour 13

Type ContentRef.



DuringCH

SM5.3SM5.4




Contact Hour 14

Type ContentRef.



_



DuringCH

SM6.1

SM6.2SM6.3SM6.4

SM6.5

SM6.1: Main Components of centrifugalcompressorSM6.2: Energy ConversionSM6.3: Slip and Slip factorSM6.4: Impeller Vane Shape and VelocityTrianglesSM6.5: Stagnation Values in CentrifugalCompressor

Chapter 4 of TB1;Chapter 15of RB3;chapter 5 of RB2.


Contact Hour 15

Type ContentRef.



DuringCH

SM6.6SM6.7SM6.8

SM6.6: RothalpySM6.7: Pressure CoefficientSM6.8: Surging and Stalling

Chapter 4 of TB1;Chapter 15of RB3;Chapter 5 of RB2.


Contact Hour 16

Type ContentRef.



DuringCH

SM6.9SM6.10

SM6.9: Centrifugal compressor characteristicsSM6.10: Fans and BlowersProblems discussion



Contact Hour 17


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DuringCH

SM6.1

SM6.2SM6.3SM6.4

SM6.5




Contact Hour 15

Type ContentRef.



DuringCH

SM6.6SM6.7SM6.8




Contact Hour 16

Type ContentRef.



DuringCH

SM6.9SM6.10




Contact Hour 17


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DuringCH

SM6.1

SM6.2SM6.3SM6.4

SM6.5




Contact Hour 15

Type ContentRef.



DuringCH

SM6.6SM6.7SM6.8




Contact Hour 16

Type ContentRef.



DuringCH

SM6.9SM6.10




Contact Hour 17


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Type ContentRef.



DuringCH

SM7.1SM7.2SM7.3SM7.4

SM7.1: IntroductionSM7.2: Axial Flow CompressorSM7.3: Cascade Flow and NomenclatureSM7.4: Stage Velocity Triangles and Work Input



Contact Hour 18

Type ContentRef.



DuringCH

SM7.5SM7.6SM7.7SM7.8SM7.9SM7.10

SM7.5: Effect of Axial velocity on WorkSM7.6: Degree of ReactionSM7.7: Small Stage or Polytropic EfficiencySM7.8: Stage loading coefficientSM7.9: SurgingSM7.10: Stalling



Contact Hour 19

Type ContentRef.



DuringCH

SM7.11SM7.12

SM7.11: Axial Compressor CharacteristicsSM7.12: Fans and BlowersProblems discussion



Contact Hour 20


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Type ContentRef.



DuringCH





Contact Hour 18

Type ContentRef.



DuringCH

SM7.5SM7.6SM7.7SM7.8SM7.9SM7.10




Contact Hour 19

Type ContentRef.



DuringCH

SM7.11SM7.12




Contact Hour 20


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Type ContentRef.



DuringCH





Contact Hour 18

Type ContentRef.



DuringCH

SM7.5SM7.6SM7.7SM7.8SM7.9SM7.10




Contact Hour 19

Type ContentRef.



DuringCH

SM7.11SM7.12




Contact Hour 20


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Type ContentRef.



DuringCH

SM8.1SM8.2SM8.3

SM8.1: IntroductionSM8.2: Flow of Steam through nozzlesSM8.3: Critical Pressure Ratio and MaximumDischarge

Chapter 5 of TB1;Chapter 3 of RB2.


Contact Hour 21

Type ContentRef.



DuringCH

SM8.4SM8.5

SM8.4: Expansion of Steam Considering Friction(Nozzle Efficiency)SM8.5: Supersaturated or Meta stable flow ofsteam in nozzle



Contact Hour 22

Type ContentRef.



DuringCH


SM9.1: IntroductionSM9.2: Classification of Steam TurbinesSM9.3: Impulse TurbineSM9.4: Reaction Turbine (Impulse ReactionTurbine)

Chapter 8 of TB1;Chapter 4 of RB2



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Type ContentRef.



DuringCH

SM8.1SM8.2SM8.3




Contact Hour 21

Type ContentRef.



DuringCH

SM8.4SM8.5




Contact Hour 22

Type ContentRef.



DuringCH






_


Type ContentRef.



DuringCH

SM8.1SM8.2SM8.3




Contact Hour 21

Type ContentRef.



DuringCH

SM8.4SM8.5




Contact Hour 22

Type ContentRef.



DuringCH






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Contact Hour 23

Type ContentRef.



DuringCH

SM9.5

SM9.6SM9.7

SM9.5: Stage Efficiency, Turbine Efficiency andReheat FactorSM9.6: Losses in Steam TurbinesSM9.7: Governing of Steam TurbinesProblems discussion



Contact Hour 24

TypeContentRef.

Topic TitleStudy/HWResource Reference


DuringCH

SM10.1SM10.2SM10.3

SM10.1: Introduction to gas turbinesSM10.2: Elementary Design of a turbineSM10.3: Off Design Parameters



Contact Hour 25

Type ContentRef.



DuringCH

SM10.4SM10.5

SM10.4: Three Dimensional FlowsSM10.5: Gas Turbine Blading



Contact Hour 26


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Contact Hour 23

Type ContentRef.



DuringCH

SM9.5

SM9.6SM9.7




Contact Hour 24

TypeContentRef.



DuringCH

SM10.1SM10.2SM10.3




Contact Hour 25

Type ContentRef.



DuringCH

SM10.4SM10.5




Contact Hour 26


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Contact Hour 23

Type ContentRef.



DuringCH

SM9.5

SM9.6SM9.7




Contact Hour 24

TypeContentRef.



DuringCH

SM10.1SM10.2SM10.3




Contact Hour 25

Type ContentRef.



DuringCH

SM10.4SM10.5




Contact Hour 26


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Type ContentRef.


Pre CH Revise the content taught during CH25 Chapter 1 of TB1

DuringCH

SM1.6SM1.7SM1.8

SM1.6: Specific QuantitiesSM1.7: Dimensional Analysis for Rotating SystemsSM1.8: Model Testing of Turbines and Pumps

Chapter 1 of TB1;Chapter 12 of RB1;Chapter 16 of RB3


7. Course plan:LectNos.

Learning Objectives Topics to be covered Reference

1-2 Introduction to the course,To review the basic conceptsof fluid mechanics andmachinery. To understandthe classification of hydraulicturbines; principles ofanalysis.

Introduction, Elements of a HydroelectricPower Plant, Classification of Turbines,Head and Efficiencies of a Turbine, EnergyConversion, Fundamental Equation ofHydraulic Machines

Chapter 2TB1Section 2.1to 2.6 +Class notes

3-4 To understand the analyticalprinciples of varioushydraulic turbines.

Pelton Turbine, Francis Turbine, Axial FlowTurbines, Kaplan Turbine, Governing ofWater Turbines, Characteristics of Turbines,Selection of Turbines


5-8 To understand theclassification of pumps,working principles ofvarious pumps, Analysis ofreciprocating pumps.

Introduction; reciprocating pumps,Classification, Slip, Velocity andAcceleration of Water in Suction andDelivery Pipes, Indicator Diagram, Effect ofAcceleration Head, Effect of Pipe Friction,Limitation on Maximum Speed ofReciprocating Pump, Air Vessels, Effect ofAir Vessel, Work Saved with Air Vessel

Chapter 3TB1Section 3.1and 3.2 +Class notes

9-11 To understand the analyticalprinciples of centrifugalpumps

Classification, Fundamental Equation,Curvature of Blades, Variation in Speed andDiameter of a Centrifugal Pump,Characteristics of a Centrifugal Pump

Chapter 3TB1Section 3.3 +Class notes

12-13 To understand classification;working & analytical

Introduction; classification; reciprocatingcompressors; Multi stage compression with

Chapter 4 ofTB1; Section


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Type ContentRef.



DuringCH

SM1.6SM1.7SM1.8






















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Type ContentRef.



DuringCH

SM1.6SM1.7SM1.8






















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LectNos.


principles of variouscompressors.

inter cooling 4.1 to 4.3 +Class notes

14-16 To understand the analyticalprinciples of centrifugalcompressors

Velocity Triangles , Slip , Influence ofImpeller Blade Shape, Stagnation Values inCentrifugal Compressor, PressureCoefficient, Rothalpy, Surging and Stalling,Centrifugal Compressor Characteristics,

Chapter 4 ofTB1;Section 4.4+Class notes

17-19 To understand the analyticalprinciples of Axial flowcompressors and variousother compressors

Cascade Flow and Nomenclature, VelocityTriangles, Work Done and Degree ofReaction, Effect of Axial velocity on Work,Degree of Reaction, Small Stage orPolytropic Efficiency, Stage LoadingCoefficient , Surging, Stalling and RotatingStall, Axial Compressor Characteristics

Chapter 4 ofTB1;Section 4.5to 4.6 +Class notes

20-21 To understandthermodynamic andanalytical principles behindthe flow of fluids throughnozzles and blade passages.

Introduction, Flow of Steam ThroughNozzles , Critical Pressure Ratio AndMaximum Discharge , Expansion of SteamConsidering Friction (Nozzle Efficiency),Supersaturated or Meta Stable Flow ofSteam in Nozzle;


22-23 To understand theclassification of steamturbines and basic principlesof analysis.

Introduction, Classification of SteamTurbines, Impulse Turbine, ReactionTurbine (Impulse Reaction Turbine), StageEfficiency, Turbine Efficiency and ReheatFactor, Losses in Steam Turbines:,Governing of Steam Turbines


24-25 To understand classification;working & analyticalprinciples of gas turbines.

Introduction, Elementary Design of aturbine, Off Design Parameters, ThreeDimensional Flows, Gas Turbine Blading;numerical problems.


26 To understand Dimensionalanalysis as applied to fluidmachines.

Dimensional Analysis, DimensionlessNumbers, Similarity, Unit Quantities,Specific Quantities, Dimensional Analysisfor Rotating Systems, Model Testing ofTurbines and Pumps

Chapter 1 ofTB1Section 1.1to 1.9 +Class notes


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LectNos.























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LectNos.























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8. Reading assignments:Time to time reading assignments will be given to the students. These reading assignmentsare part of the course and questions may appear in tests/examinations in these portionsalso.

9. Evaluation Scheme:Component Duration Weightage Date & Time RemarksMid Sem 90 min 25% 5/3 9:00 - 10:30 AM OBLecture Tests, Teambased and Gamebased test

10 min to 50min

15% Lecture hour Surprise/announcedlater

Lab Compre 2 hrs 10% Announced later CBLab Reports 10% During lab hoursLab GroupDiscussion/Viva

10% During lab hours

Compre 3 hours 30% 5/3 9:00 - 10:30 AM CB

10. Chamber Consultation hours: To be announced in the class.

11. Notices: All the notices related to this course will be put up in Mechanical EngineeringDepartment notice board only.

12. Make up Policy: Make up will be given to only to genuine cases. The request applicationshould reach the Instructor – in – charge before commencement of scheduled test.

13. Laboratory Experiments: Following is the final list of experiments.Cycle 1:

1. Characteristics of Centrifugal Pump.2. A) Valve timing diagram on Petrol Engine, B) Valve timing diagram on Diesel Engine.3. Coordinating fuel Research Engine.4. Characteristics of Francis Turbine.5. Verification of Fans laws.

Cycle 2:1. Characteristics of Pelton Turbine.2. Characteristics of Kaplan Turbine.3. Petrol Engine with eddy current dynamometer (Morse test).4. Performance test on Air Compressor5. Dismantling & Assembling of Water Pump.


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10 min to 50min












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10 min to 50min












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Instructor – in ChargeME F341


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