06ee81 - industrial management, electrical …€¦ · “electric power systems”-b. m. weedy,...

ELECTRICAL & ELECTRONICS ENGG. VIII SEM

MVJCE 1 COURSE DIARY

06EE81 - INDUSTRIAL MANAGEMENT, ELECTRICAL

ESTIMATION & ECONOMICS



SYLLABUS

INDUSTRIAL MANAGEMENT, ELECTRICAL ESTIMATION & ECONOMICS

Sub. code: 06EE81 IA marks: 25

Hrs/week: 04 Exam Hrs: 03

Total Hrs: 52 Exam marks: 100

PART - A

UNIT - 1

INTRODUCTION: Historical prospective, contribution of Taylor, Henry foyol, Gilberth and HL

Gnatt to the evolution of management as a scientific discipline concept of scientific management and

it relevance in the Indian context.

5 Hours

ORGANIZATION: Types of organization; their merits and demerits

4 Hours

UNIT - 2

MANAGEMENT FUNCTIONS: Planning, organizing, staffing, directing, controlling.

4 Hours

UNIT - 3

MANAGEMENT AND BEHAVIORAL APPROACH: Contribution of Elton mayo and skinner

and others to behavioral science, skills of a manager at various levels in an organization and inter

related systems, under standing past behavior, predicting future behavior, directing, changing and

controlling behavior; Maslow’s hierarchy of needs and satisfaction, goal oriented behavior,

integration of organizational goals and needs of employees, Hawthorn’s studies and its finding,

theory X and Y

10 Hours

UNIT - 4

PERSONAL MANAGEMENT: Recruitment and selection, training of personel employer and

employee relationship, causes and settlement of disputes.

4 Hours

PART - B

UNIT - 5

PRODUCTION MANAGEMENT: Plant location, plant lay-out, CPM and PERT strategies, line

balancing, automation statistical quality control; control chart, motion study.

7 Hours



UNIT - 6

INTERIOR WIRING SYSTEM: Wiring system, earthing, and estimation of wiring installation.

4 Hours

UNIT - 7

POWER INSTALLATION: Load calculation, wire size selection, wiring materials for power

circuits, and the estimate for motor installation, pump set, workshop, theater etc.,

8 Hours

UNIT - 8

Depreciation and valuation of machinery, Inventory, Economic order quantity, break-ven analysis

6 Hours

TEXT BOOKS:

1. “Introduction to Management”-S. S. Chatterjee,

2. “Engineering Economics and Management” - N. Narasimhaswamy,

3. “Electrical Estimation and Electrical Wiring Systems”-Raghavendra Rao.

REFERENCE BOOKS:

1. “Industrial Organization and Engineering Economics”-T. R. Banga & S. C. Sharma.



LESSON PLAN

INDUSTRIAL MANAGEMENT AND ELECTRICAL ESTIMATION AND ECONOMICS

Sub_Code : 06EE81 IA Marks: 25 Hrs/Week : 04 Exam Hrs: 03

Total Hrs : 60 Exam Marks: 100

Chapter

No. Chapter Name

Hour

No. Topics to be covered

1 Introduction

1 Introduction to management-Its historical

prospective

2 Contribution of Taylor and Henry Fayol

3 Contribution of Gantt and Gilberth

4 Old technique of Management and its failure in the

present context

5 Concept of Scientific Management.

6 Relevance of scientific Management with Indian

context

2. Organization

7 Functions of management –Planning.

8 Organization: types, functions, activities

9 Types of Organization-Formal and Informal

Organization.

10 Merits and Demerits of topic in 9.

3. Management

functions

11 Controlling - Old technique of Management and its failure in the present context

12 Directing: old concept & new concept

13 Staffing – manpower and its appropriate utilization

14 Functional And line/Staffing Authority.

15 Matrix and Project Organization.

16 Functional And line/Staffing Authority.

17 Matrix and Project Organization.

4. Management &

Behavioral

approach

18 Introduction to Behavioral Science

19 Contribution of Elton Mayo and Skinner

20 Skills of Managers at various Levels

21 Skills of Managers at various Levels (contd.)

22 Inter related systems understanding Behavior.

23 Predicting Future Behavior, Directing.

24 Changing and Controlling Behavior.

25 Hierarchy of needs and satisfaction of needs.

26 Goal oriented behavior.

27 Integration of Organizational goals and needs of

employees.

28 Hawthorn’s studies – Theory X and Theory Y.

5. Personal

Management

29 Introduction to Personal Management-

Recruitment.

30 Selection and its process.

31 Training of personal.

32 Employer and Employee Relationship.

33 Cause and settlement of Disputes.



Chapter No.

Chapter Name Hour No.

Topics to be covered

6. Production

Management

34 Introduction to Production Management.

35 Plant Location and Layout.

36 CPM & PERT Strategies

37 Determination of Critical Path with solution of

numericals

38 Concept of PERT and solution of numericals

39 Line Balancing.

40 Automation Statistical Quality Control.

41 Control Chart.

42 Motion Study.

7. Interior wiring

system

43 Introduction to electrical Wiring System and wiring techniques

44 Various types of wiring system: domestic,

industrial

45 CTS & conduit wiring, conductors used in wiring;

46 Cabling systems and its applications

47 Earthing: Types; relevant Indian Electricity Act

48 Estimation of wiring installation.

8. Power

Installation

49 Introduction to power Installation- Load calculation.

50 Solution of numericals on Load Calculation

51 Selection of conductors for various purposes:

domestic, industrial, street lighting

52 Power circuit wiring material used.

53 The estimate for motor installation, pump set.

54 The estimate for workshop theatre.

9. Depreciation

and valuation of machinery

55 Introduction to Engineering economics-

Depreciation of machinery

56 Solution of numericals on interest & depreciation

57 Valuation of machinery

58 Inventory

59 Economic Order Quantity

60 Breakeven Analysis



06EE82 - POWER SYSTEM OPERATION AND

CONTROL



SYLLABUS

POWER SYSTEM OPERATION AND CONTROL

SUB CODE: 06EE82 IA MARKS: 25

Hrs/Week: 04 Exams Hrs: 03

Total Hrs: 52 Exam Marks: 100

PART - A

UNIT - 1

CONTROL CENTER OPERATION OF POWER SYSTEMS: Introduction to SCADA, control

center, digital computer configuration, automatic generation control, area control error, operation

without central computers, expression for tie-line flow and frequency deviation, parallel operation of

generators, area lumped dynamic model.

8 Hours

UNIT - 2 & 3

AUTOMATIC GENERATION CONTROL: Automatic voltage regulator, automatic load frequency

control, A VR control loops of generators, performance of A VR, ALFC of single area systems,

concept of control area, multi-area systems, POOL operation-two area systems, tie-line bias control.

10 Hours

UNIT - 4

CONTROL OF VOLTAGE AND REACTIVE POWER: Introduction, generation and absorption

of reactive power, relation between voltage, power and reactive power at a node, single machine

infinite bus systems, methods of voltage control, sub synchronous resonance, voltage stability, voltage

collapse.

8 Hours

PART - B

UNIT - 5

POWER SYSTEM OPTIMIZATION: Optimal system operation with thermal plants, incremental

production cost for steam power plants, analytical form of generating cost of thermal plants,

constraints in economic operation, flow chart, transmission loss as a function of plant generation, the

B-coefficients, examples.

8 Hours

UNIT - 6

UNIT COMMITMENT: Statement of the problem, need and importance of unit commitment,

methods-priority lists method, dynamic programming method, constraints, spinning reserve, and

examples.

8 Hours

UNIT - 7 & 8

POWER SYSTEM SECURITY: Introduction, factors affecting power system security, power system

contingency analysis, detection of network problems, network sensitivity methods, calculation of

network sensitivity factor, contingency ranking.

10 Hours



TEXT BOOKS:

1. “Computer Aided Power System Analysis”- G.L.Kusic, PHI.

2. “Modern Power System Analysis”- I J Nagarath and D P Kothari, TMH, 1993.

3. “Power generation, operation and control”- Wood & B A J F Woollenberg. John Wiley

and Sons, 1984.

4. “Electric Power Systems”-B. M. Weedy,



LESSON PLAN

POWER SYSTEM OPERATION AND CONTROL

Sub_Code : 06EE82 IA Marks: 25 Hrs/Week : 04 Exam Hrs: 03

Total Hrs : 60 Exam Marks: 100

Unit

no. Unit name

No of

hours Topics to be taken

1

CONTROL

CENTER

OPERATION

OF POWER

SYSTEMS

1 Introduction to SCADA

2 Block diagram explanation of SCADA

3 Explanation on control center and digital computer

configuration

4 Explanation of automatic generation control, area control

error

5 Operation without central computers

6 Expression for tie-line flow and frequency deviation

7 Parallel operation of generators

8 Explanation of area lumped dynamic model.

9 Solving problems based on the above

&3

AUTOMATIC

GENERATION

CONTROL

10 Introduction to AGC

11 Explanation of Automatic voltage regulator

12 Explanation of automatic load frequency control

13 Explanation of A VR control loops of generators

14 performance of A VR, ALFC of single area systems

15 Explanation of concept of control area

16 Solving problems in single area system

17 Explanation of multi-area systems

18 POOL operation-two area systems

19 Explanation of tie-line bias control

20 Solving problems in multi area system

4

CONTROL OF

VOLTAGE

AND

REACTIVE

POWER

21 Introduction to voltage control in power systems

22 Generation and absorption of reactive power

23 Relation between voltage, power and reactive power at a

node,

24 Voltage control in Single machine infinite bus systems

25 Methods of voltage control

26 Concept of sub synchronous resonance

27 Explanation of voltage stability

28 Explanation of voltage collapse

29 Solving problems

30 Revision



Unit

no. Unit name

No of

hours Topics to be taken

5

POWER

SYSTEM

OPTIMIZATIO

N

31 Introduction to power system optimization

32 Optimal system operation with thermal plants,

33 Incremental production cost for steam power plants

34 Analytical form of generating cost of thermal plants

35 Constraints in economic operation

36 Flow chart, transmission loss as a function of plant

generation

37 Derivation for B-coefficients

38 Solving problems

39 Revision

6

UNIT

COMMITMEN

T

40 Introduction to unit commitment

41 Statement of the problem,

42 need and importance of unit commitment

43 methods-priority lists method

44 Solving problems in priority list method

45 dynamic programming method

46 Constraints in unit commitment

47 spinning reserve

48 Solved problems in unit commitment

49 Revision

7&8

POWER

SYSTEM

SECURITY

50 Introduction to power system security

51 factors affecting power system security

52 power system contingency analysis

53 detection of network problems

54 network sensitivity methods

55 Solving problems

56 calculation of network sensitivity factor

57 Solving problems

58 contingency ranking

59 Revision

60 Revision



06EE832 – ELECTRICAL DISTRIBUTION

SYSTEM



SYLLABUS

ELECTRICAL DISTRIBUTION SYSTEM

Sub.code: 06EE832 IA marks: 25



PART - A

UNIT - 1

INTRODUCTION TO POWER SYSTEM PLANNING AND AUTOMATION: Factors

affecting system planning, present planning techniques, planning models, future trends in

planning, systems approach, distribution automation

8 Hours

UNIT - 2

LOAD CHARACTERISTIC: Basic definition, relation between load and load factor, load

growth.

6 Hours

UNIT - 3 & 4

3. SYSTEM PLANNING: Planning process, planning criteria, system developers, disperced

generation, distribution systems, economics and finance, mapping.

12 Hours

PART - B

UNIT - 5 & 6

DESIGN AND OPERATION: Engineering design, operation criteria, substation and feeder,

voltage control, harmonics, load variations, system losses, energy management.

10 Hours

UNIT - 7

DISTRIBUTION AUTOMATION: Definitions, communication, sensors, SCADA.

8 Hours



UNIT - 8

OPTIMIZATION: Introduction, costing of schemes, typical network configurations,

planning terms, network cost modeling, synthesis of optimum line network.

8 Hours

TEXT BOOKS:

1. “Electric power distribution system engineering”-Turan Gonen, Mc GrawHill,

1986.

2. “Electric power distribution”-A S. Pabla, TMH, 5th

edition, 2004.



LESSON – PLAN

ELECTRICAL DISTRIBUTION SYSTEM




Chapter

No Chapter

Hour

No. Topics to be Covered

1

INTRODUCTION

TO POWER

SYSTEM

PLANNING AND

AUTOMATION

01 Introduction

02 Power System planning

03 Factors affecting system planning

04 present planning techniques

05 planning models

06 Developing models

07 future trends in planning

08 systems approach

09 distribution automation

2 LOAD

CHARACTERISTICS

10 Basic definition

11 Load profile

12 Load factor

13 Importance of load factor

14 relation between load and load factor

15 load growth

16 Planning with load growth

3,4 SYSTEM

PLANNING

17 System description

18 Flow diagrams

19 Planning process

20 planning criteria

21 system developers

22 Generation details

23 dispersed generation

24 Distribution of power

25 distribution systems

26 Financial analysis

27 economics and finance

28 mapping

29 Verification of the mapping

30 Overview of plaaning



Chapter

No Chapter

Hour


5, 6 DESIGN AND

OPERATION

31 Design principles

32 Engineering design

33 operation criteria

34 Substation design and operation

35 Feeder design and operation

36 Voltage control

37 harmonics

38 Implications of harmonics

39 load variations

40 system losses

41 energy management

42 Energy savings

7 DISTRIBUTION

AUTOMATION

43 Introduction to automation

44 Definitions, advantages, requirement

45 Sensors and instruments

46 Data collection

47 Communication methods

48 Comparison of communication methods

49 Supervisory control

50 SCADA systems

51 SCADA systems

8 OPTIMIZATION

52 Introduction

53 costing of schemes

54 Parameters involved

55 typical network configurations

56 Model for analysis

57 planning terms

58 network cost modeling

59 synthesis of optimum line network.

60 Optimal system



06EE843 – RENEWABLE ENERGY

SOURCES



SYLLABUS

RENEWABLE ENERGY SOURCES




PART-A

1. Energy Sources: Introduction, Importance of Energy Consumption as Measure of

Prosperity, Per Capita Energy Consumption, Classification of Energy Resources;

Conventional Energy Resources - Availability and their limitations; Non-Conventional

Energy Resources – Classification, Advantages, Limitations; Comparison of Conventional

and Non-Conventional Energy Resources; World Energy Scenario; Indian Energy Scenario.

04 Hrs

2. Solar Energy Basics: Introduction, Solar Constant, Basic Sun-Earth Angles – definitions

and their representation, Solar Radiation Geometry (numerical problems), Estimation of Solar

Radiation of Horizontal and Tilted Surfaces (numerical problems); Measurement of Solar

Radiation Data – Pyranometer and Pyrheliometer.

06 Hrs

3. Solar Thermal Systems: Principle of Conversion of Solar Radiation into Heat, Solar Water

Heaters (Flat Plate Collectors), Solar Cookers – Box type, concentrating dish type, solar

driers, Solar Still, Solar Furnaces, Solar Green Houses.

06 Hrs 4. Solar Electric Systems: Solar Thermal Electric Power Generation – Solar Pond and

Concentrating Solar Collector (parabolic trough, parabolic dish, Central Tower Collector).

Advantages and Disadvantages; Solar Photovoltaic – Solar Cell fundamentals, characteristics,

classification, construction of module, panel and array. Solar PV Systems – stand-alone and

grid connected; Applications – Street lighting, Domestic lighting and Solar Water pumping

systems.

07 Hrs

Energy Storage: Introduction, Necessity of Energy Storage, and Methods of Energy Storage

(classification and brief description using block diagram representation only).

03 Hrs

PART-B

5. Wind Energy: Introduction, Wind and its Properties, History of Wind Energy, Wind

Energy Scenario – World and India. Basic principles of Wind Energy Conversion Systems

(WECS), Classification of WECS, Parts of a WECS, Derivation for Power in the wind,

Electrical Power Output and Capacity Factor of WECS, Wind site selection consideration,

Advantages and Disadvantages of WECS. 08 Hrs

6. Biomass Energy: Introduction, Photosynthesis process, Biomass fuels, Biomass conversion

technologies, Urban waste to Energy Conversion, Biomass Gasification, Biomass to Ethanol

Production, Biogas production from waste biomass, factors affecting biogas generation, types

of biogas plants – KVIC and Janata model; Biomass program in India.

06 Hrs



7. Energy from Ocean: Tidal Energy – Principle of Tidal Power, Components of Tidal Power

Plant (TPP), Classification of Tidal Power Plants, Estimation of Energy – Single basin and

Double basin type TPP (no derivations. Simple numerical problems), Advantages and

Limitation of TPP. Ocean Thermal Energy Conversion (OTEC): Principle of OTEC system,

Methods of OTEC power generation – Open Cycle (Claude cycle), Closed Cycle (Anderson

cycle) and Hybrid cycle (block diagram description of OTEC); Site-selection criteria,

Biofouling, Advantages & Limitation of OTEC.

06 Hrs

8. Emerging Technologies: Fuel Cell, Small Hydro Resources, Hydrogen Energy, and Wave

Energy. (Principle of Energy generation using block diagrams, advantages and limitations).

06 Hrs

Text Books:

1. Rai, G. D., “Non-Conventional Sources of Energy”, 4th Edition, Khanna Publishers, New

Delhi, 2007

2. Khan, B. H., “Non-Conventional Energy Resources”, TMH, New Delhi, 2006.

Reference Books:

1. Mukherjee, D., and Chakrabarti, S., “Fundamentals of Renewable Energy Systems”, New

Age International Publishers, 2005.



LESSON – PLAN

RENEWABLE ENERGY SOURCES




Chapter

No Chapter

Hour


1 Energy Sources

01 Introduction to the term Energy. Its

consumption as a measure of prosperity

02 The availability of energy in the world. Both

Conventional and non conventional

03 A brief discussion on the availability of

conventional energy sources. Merits and

demerits

04 A brief discussion on the future of non-

conventional energy sources. Merits and

demerits

2 Solar Energy Basics

05 Introduction to solar energy. Its availability in

the various parts of the country

06 Discussion on the solar constant. Its

determination, measurements etc.

07 Discussion of diffuse radiation and direct

radiation.

08 Explanation of the terms azimuth angle, zenith

angle, declination hour angle etc. Problems

based on these terms

09 Discussion on the measurements of solar

radiation. Explanation of Pyrhelometers

10 Explanation of radiation on tilted surfaces

3 Solar Thermal Systems

11 Explanations of the principles of conversion of

solar radiation in to heat energy

12 Classification of collectors based on the

construction

13 Explanation of flat plate collectors: its merits

and demerits

14 Explanation of focusing type collectors its

advantages and disadvantages

15 Construction and working of mirror strip

reflector, Fresnel lens collector

16 Explanation of Compound Parabolic

Concentrator



Chapter

No Chapter

Hour


4 Solar Electric Systems

17 Advantages and Disadvantages of concentrating

Collectors over flat plate type collectors

18 Explanation of the need of storage of solar

energy. Different methods available for the

storage

19 Explanation of the Thermal Energy storage

20 Discussion of Chemical storage of energy

Solar Electric Systems

21 Explanation of storage in the form of electricity

22

Explanation of different ways of application of

solar energy: Introduction to direct thermal

application, Solar electric application and

Energy from bio mass

23 Discussion of solar water heating, and space

heating

24 Explanation of Space cooling and water

distillation

25 Conversion of solar energy to electric energy:

thermal electric conversion and photovoltaic

conversion

26 Introduction to solar pumping, solar cooking

27 Introduction to solar production of hydrogen,

and solar green houses.

28 Discussion of future trends in the harnessing of

the solar energy

5 Wind Energy

29 Introduction to wind energy: the basic principles

involved

30 Discussion of the power in the wind: derivation

of eqn. For maximum power

31 Factors affecting the site selection for wind

power plant

32 Explanation of the concepts of lift and drag of

wind energy

33 Explanation of basic concepts of WECS

34

Classification of WECS based on: Axis, size,

output power, rotational speed, utilization of

speed etc

35 Applications of WECS and relative merits and

demerits

36 Introduction to biomass energy: Basic

terminologies in conversion: angry plantation



Chapter

No Chapter

Hour


6 Biomass Energy

37 Introduction wet process and dry process,

photosynthesis

38 Biogas generation: general discussion, factors

affecting the bio digestion

39

Classification of bio gas plants: explanation of

continues and batch type, dome and drum type

etc.

40 Explanation on constructional details of some

main digesters: KVIC, Janata Gigester etc

41 Factors affecting the yield of the plant &

methods of maintaining the Plant output: an

overview

42 Discussion of Selection of site and economics

of these plants

7 Energy from Ocean

43 Discussion of advantages and disadvantages of

Biogas Plants over Solar and other renewable

energy sources

44 Introduction to geothermal energy sources:

Estimation of the resources

45

Discussion of the general categories:

Hydrothermal convective systems, Geopressure

resources, HDR, Magma Resources, Volcanoes

46 Material selection for Geothermal power plants

47 Discussion on the prime movers required for the

geothermal conversions

48 Application of geothermal energy at different

temperatures

8 Emerging Technologies

49 Discussion of the operational and environmental

problems related with geo energy

50 Discussion of the geo thermal energy ‘s

prospects in India

51 Solving of the Model Question papers

52 Solving of the previous years Question papers

53 Revision of geothermal energy

54 Revising applications of geothermal energy

55 Bio gas plants revision

56 Discussion Hydrothermal convective systems,

57 Discussion Geopressure resources

58 Magma Resources, Volcanoes

59 prime movers required for the geothermal

conversions

60 Solving previous question papers

06ee81 - industrial management, electrical …€¦ · “electric power systems”-b. m. weedy,...

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