course plan pdu jan - june 2015
DESCRIPTION
planTRANSCRIPT
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Format No. QSP/7.1/01.F01 (B)
Issue No.04 Rev. No 4 Dated: June 7, 2014 _____________________________________________________________________________________________
UNIVERSITY OF PETROLEUM & ENERGY STUDIES
College of Engineering Studies
Dehradun
______________________________________________________
COURSE PLAN
Programme : B.Tech - PSE
Course : Power Distribution & Utilisation
Subject Code : PSEG 403
No. of credits : 3
Semester : VI [ 2012-16 Batch ]
Session : January May 2015
Batch : 2012-16
Prepared by : Vineet Mediratta
Email : [email protected]
Approved By
_______________________ _______________________
HOD Dean
UPES Campus Tel : +91-135-2770137
Energy Acres Fax : +91 135- 27760904
P.O. Bidholi, Via Prem Nagar Website : www.upes.ac.in
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COURSE PLAN
Subject : Power Distribution & Utilisation Course : B.Tech - PSE
Duration: 36 Session Subject code : PSEG 403
One Session: 60 Minutes
A. OBJECTIVES:
The objectives of the course are as follows:
To introduce the concept of Electric Power Distribution & Utilization to the
students
To introduce concept of different types of Power Distribution System, Planning,
Substations
To give some knowledge about different methods of Power Utilization
Upon completion of this course the learners will able to :
After the course the students will have in depth knowledge of:
1. Power Distribution Planning
2. Distribution Lines & Cables, Substations and Metering.
3. Utilization of Electric Power for Traction, Illumination and Welding.
4. Cost Economics.
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B. COURSE OUTLINE
The consists of the following major sections:
POWER DISTRIBUTION
DISTRIBUTION SYSTEM PLANNING: Load forecasting, Power Quality parameters, Choice of systems
for different consumers, Planning Criteria, Standards, System layout.
DISTRIBUTION LINES / CABLES: Towers/Poles, Stay wires; Conductor - Types, characteristics &
selection; Underground Cables - Selection, laying, cable box and jointing; Earth wire; Insulators &
hardware fittings; Distributors, Feeders, Services Mains (LV, MV, HV); Clearances; Pole-mounted sub-
stations and its location; Earthing HT & LT poles/supports; Selection & fixing of control devices.
LT Distribution System DC 2-wire and 3-wire systems; AC single phase, three phase and 4-wire
systems; Comparison of copper efficiency. Distribution Systems: Primary and Secondary distribution
systems, Concentrated & uniformly distributed loads on distributors fed at one and both ends, Ring
distribution, Submains and Tapered mains, Voltage drop and Power loss calculations, Voltage
regulators.
DISTRIBUTION SUB-STATIONS: Types, General Arrangement, Layout, Bus-bar arrangements; Sub-
station equipment Construction details, selection and specification of equipment (distribution
transformer, Circuit Breakers, etc.); Auxiliary Systems; Earthing of sub-station equipment; Basic
operational aspects of equipments/systems.
METERS & METERING : Meters/Indicators Types & Function; Metering system; Location of meters;
Testing & Setting of meters/indicators; Latest development in metering technologies. Class of
accuracy.
DISTRIBUTION LOSSES AND EFFICIENT ENERGY MANAGEMENT: Classification, Causes and
Calculation of power losses; Methods of reducing power losses and Anti-theft measures; Causes and
cures for breakdowns, tripping and fluctuations in distribution system; System voltage drops and
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improvements; Distribution transformer failures causes & remedies; Demand Side Management
(DSM), HVDS, Energy efficiency monitoring and corrective measures.
COST ECONOMICS / COMMERCIAL ASPECTS: Cost Engineering, Costing & Control, Estimation,
Estimate for providing service (LT/HT) connections; Tariff structure & types, Rational & Competitive
tariff, Energy Accounting, Energy Billing and Revenue realization.
POWER UTILISATION
ELECTRIC HEATING AND WELDING: Electric Heating Advantages, Methods, Resistance ovens,
Induction heating, Dielectric heating, Arc Furnace, Heating of buildings; Electric Welding Resistance
and Arc Welding, Control Devices and Welding Equipment.
ELECTROLYTIC PROCESS: Principle of Electro-deposition, Laws of Electrolysis, Extraction and Refining
of Metals, Electro-plating, Factors affecting electro-deposition, Manufacture of chemicals,
Application of Electrolysis.
ILLUMINATION: Laws of Illumination, Polar curves, Distribution and Control of light, Lighting
calculations, Factory lighting, Flood lighting, Street lighting, Different types of lamps Incandescent,
Fluorescent, Vapour, CFL and their working, Glare and its remedy.
ELECTRIC TRACTION: Salient features, Comparison with other types of traction systems, Types of
electric traction, Systems of track electrification, Speed-Time curves, Tractive effort and specific
energy consumption, Co-efficient of Adhesion, Suitability of electric motors for traction service,
Conventional and Solid-state control of traction motors, Electric braking, Current collection systems,
DC & AC substations, Signaling systems, Diesel electric traction, Train lighting system.
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C. PEDAGOGY
This course will be taught by lectures/presentations /analytical exercises focusing on fundamental
concepts from general to specific topics, and laws, followed by applications along with related
numerical problems. The concepts will be adequately illustrated with numerical examples to make
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applications of theoretical concepts clear. Students will be motivated to take assignments/quiz/mini
projects and solve more numerical problems. Workbooks containing analytical problems will be
available on LMS to the students for further practice.
D. COURSE COMPLETION PLAN POWER DISTRIBUTION Distribution System Planning Distribution Lines & Cables LT Distribution System Distribution Sub Stations Meters & Metering Distribution Losses and Efficient Energy Management Cost Economics / Commercial Aspects
POWER UTILISATION
Electric Heating and Welding
Electrolytic Process
Illumination
Electric Traction
Review/Revision/CT/Quiz 03 Sessions
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E. EVALUATION & GRADING
Description Weight age Schedule
1. Internal Examination 30% Detailed Below
2. Mid-term Exam 20% Academic Calendar
3. End-term Exam 50% Academic Calendar
Internal Assessment: Marks 100 (It is based on the individual/group assignment, online/class
quizzes/test and class room attendance) - Break-up or scheme for internal assessment will be will
be displayed/shown to the students .
Mid- Sem Examination : 20% Weightage
Mid- Sem examination shall be of two hour duration and shall be a combination of short theory
questions and numerical problems.
End -Sem Examination: 50% Weightage
End-Sem examination shall be of three hours duration. The examination paper shall have theory
questions, short, long and application oriented problems.
F. DETAILED SESSION PLAN
SESSION TOPIC READINGS PEDAGOGY
PICTORIAL
REPRESENT-
ATIONS
DISTRIBUTION SYSTEM
PLANNING:
Lecture
Delivery
along with
Presentation
Will be
covered in
-
L1
L2
L3
Load forecasting , Power
Quality parameters,
Choice of systems for
different consumers,
Planning Criteria, Standards,
System layout.
T1 : 39
T2 : 126-128
T1: 87
Lecture PPt
L4
L5
L6
DISTRIBUTION LINES /
CABLES:
Towers/Poles, Stay wires;
Conductor - Types,
characteristics & selection;
Underground Cables -
Selection, laying, cable box
and jointing; Earth wire;
Insulators & hardware fittings;
Distributors, Feeders,
Services Mains (LV, MV,
HV);
Clearances; Pole-mounted
sub-stations and its location;
Earthing HT & LT
poles/supports; Selection &
fixing of control devices.
T3
Lecture
Delivery
alongwith
Presentation
Will be
covered in
Lecture PPt
(Numericals)
Class Test
#2
(L-)
DISTRIBUTION SUB-
STATIONS: Types,
General Arrangement,
Layout, Bus-bar
arrangements; Sub-station
equipment
Construction details,
selection and specification
of equipment (distribution
Lecture
Delivery
alongwith
Presentation
Assignment
#1
Will be
covered in
Lecture PPt
-
transformer, Circuit
Breakers, etc.);
Auxiliary Systems;
Earthing of sub-station
equipment; Basic
operational aspects of
equipments/systems.
Quiz #1
METERS & METERING:
Meters/Indicators Types
& Function; Metering
system; Location of
meters;
Testing & Setting of
meters/indicators; Latest
development in metering
technologies.
T1 : 603
T3 : 249-262
T1 : 582
T3 : 272
T1 : 597
T1 : 580
Lecture
Delivery
alongwith
Presentation
Class Test#2
Assign # 2
Will be
covered in
Lecture PPt
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T3 : 231
Assignment
# 4
L-35
L-36 & L-37
L-38
L-39
L-40
DISTRIBUTION LOSSES
AND EFFICIENT
ENERGY
MANAGEMENT:
Classification, Causes and
Calculation of power
losses; Methods of
reducing power losses and
Anti-theft measures;
Causes and cures for
breakdowns, tripping and
fluctuations in distribution
system; System voltage
drops and improvements;
Distribution transformer
failures causes &
remedies; Demand Side
Management (DSM),
HVDS, Energy efficiency
monitoring and corrective
T2: 551
T2: 554
T3:327-339
T2: 560
T2: 587
T2:611
T1: 511
T1: 674
T2: 579
Lecture
Delivery
alongwith
Presentation
Assig # 3
Qiuz # 2
Will be
covered in
Lecture PPt
-
measures.
T1: 634
COST ECONOMICS /
COMMERCIAL
ASPECTS: Cost
Engineering, Costing &
Control, Estimation,
Estimate for providing
service (LT/HT)
connections;
Tariff structure & types,
Rational & Competitive
tariff, Energy Accounting,
Energy Billing and
Revenue realization.
ELECTRIC HEATING
AND WELDING: Electric
Heating Advantages,
Methods, Resistance
ovens, Induction heating,
Dielectric heating,
Arc Furnace, Heating of
buildings; Electric Welding
Resistance and Arc Welding,
Control Devices and Welding
-
Equipment.
ELECTROLYTIC
PROCESS: Principle of
Electro-deposition, Laws
of Electrolysis, Extraction
and Refining of Metals,
Electro-plating, Factors
affecting electro-deposition,
Manufacture of chemicals,
Application of Electrolysis.
ILLUMINATION: Laws of
Illumination, Polar curves,
Distribution and Control of
light, Lighting calculations,
Factory lighting, Flood
lighting, Street lighting,
Different types of lamps
Incandescent,
Fluorescent, Vapour, CFL
and their working, Glare
and its remedy.
ELECTRIC TRACTION:
Salient features,
Comparison with other
types of traction systems,
Types of electric traction,
-
Systems of track
electrification, Speed-Time
curves, Tractive effort and
specific energy
consumption,
Co-efficient of Adhesion,
Suitability of electric
motors for traction service,
Conventional and Solid-
state control of traction
motors,
Electric braking, Current
collection systems, DC &
AC substations, Signaling
systems, Diesel electric
traction, Train lighting
system.
L-33-36
Course Summary /
Revision
Class Test #
3
Quiz # 3
Total
Lectures 40
(including
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Class tests)
F. SUGGESTED READINGS:
T1 Electrical Power Distribution A.S. Pabla , Sixth Edition .Tata McGraw Hill Education Private
Limited
T2: Distribution & Utilization of Electrical Energy - C.L.Wadwa, New Age International
Publication.
T3 :Electrical Power Distribution Systems V Kamaraju , 2009 , Tata McGraw Hill Education
Private Limited
R1 : Electric Power Distribution Engineering , Turan Gonen ,Second Edition 2008 , CRC Press
R2 : Electrical Power Transmission and Distribution , S . Sivanagaraju and S. Satyanarayana ,
Pearson Education
R3 : EHV AC , HVDC Transmission & Distribution Engineering S . Rao 2004 Khanna
Publishers
R4 : Electrical power Utilisation R.K. Rajput -
GUIDELINES
Cell Phones and other Electronic Communication Devices: Cell phones and other electronic
communication devices (such as Tabs/Laptops) are not permitted in classes during Tests or
the Mid/Final Examination. Such devices MUST be turned off in the class room.
E-Mail and LMS: Each student in the class should have an e-mail id and a pass word to
access the LMS system regularly. Regularly, important information Date of conducting
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class tests, guest lectures, via LMS. The best way to arrange meetings with us or ask specific
questions is by email and prior appointment. All the assignments preferably should be
uploaded on LMS. Various research papers/reference material will be mailed/uploaded on
LMS time to time.
Attendance: Students are required to have minimum attendance of 75% in each subject.
Students with less than said percentage shall NOT be allowed to appear in the end semester
examination.
Passing criterion: Student has to secure minimum 30%/40% marks of the highest marks in
the class scored by a student in that subject (in that class/group class) individually in both the
End-Semester examination and Total Marks in order to pass in that paper.
Passing Criterion for B. Tech: minimum 30% of the highest marks in the class
Passing Criterion for M. Tech: minimum 40% of the highest marks in the class