RTU Syllabus Electrical Engineering 7th Semester 2020-21 & Marking

RTU Syllabus Electrical Engineering 7th Semester 2020-21: The latest Electrical Engineering Syllabus and marking scheme will help you to boost your preparation for the seveth-semester exam. With the latest RTU Syllabus, Electrical Engineering 7th Semester students get to know the important chapters and concepts to be covered in all subjects.

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If you have cleared the concept behind the every topic of RTU Syllabus Electrical Engineering 7th Semester then it will be also helpful to crack the various competitive exams like Gate, IES.

Here we are providing you the complete guide on RTU Syllabus Electrical Engineering 7th Semester 2020-21 and Marking Scheme.

RTU Syllabus Electrical Engineering 7th Semester 2020-21

With the latest Electrical Engineering Syllabus for the 7th Semester, you can create a right study plan and score a better mark in all subjects in the semester exam.

You must have Electrical 7th Semester books & study materials, Previous years questions paper along with the latest Electrical 7th sem Syllabus to enhance your semester exam preparation,

Before starting the complete guide on RTU Syllabus Electrical Engineering 7th Semester 2020-21, let’s check the highlights of RTU from the table below.

RTU Kota Highlights:

Check the latest RTU Electrical Engineering 7th semester syllabus 2020-21 from below.

Power System Planning

Unit-1

• Introduction of power planning, National and Regional Planning, structure of P.S., planning tools Electricity Regulation, Electrical Forecasting, forecasting techniques modeling.

Unit-2

• Generation planning, Integrated power generation cogeneration/captive power, Power pooling and power trading. Transmission and distribution planning. Power system Economics. Power sector finance, financial planning, private participation Rural Electrification investment, concept of Rational tariffs.

Unit-3

• Power supply Reliability, Reliability planning. System operation planning, load management, load prediction, reactive power balance
  Online power flow studies, state estimation, computerized management, power system simulator.

Unit-4

• Computer aided planning, wheeling. Environmental effects, the greenhouse effect Technological impacts. Insulation coordination. Reactive compensation.

Unit-5

• Optimal power system expansion planning: Formulation of least cost optimization problem incorporating the capital, Operating and maintenance cost of candidate plants of different types (Thermal, Hydro, Nuclear, Non-conventional etc.) and minimum assured reliability constraint – optimization techniques for solution by programming.

Text Books:

• Wang, J. R. Mc Donald: Modern Power System Planning, MGH.
• S. Pabla: Electrical Power System Planning, Machmillan India Ltd.

Reference Books:

• Tllic, F. Faliana and L. Fink: Power System Restructuring Engineering and Economics, Kulwar Academic Publisher.
• L. Lie: Power System Restructuring and Deregulation, John Willey & Sons UK.

Power System Analysis

Unit-1

• Percent and per unit quantities. Single line diagram for a balanced 3-phase system Admittance Model: Branch and node admittances Equivalent admittance network and calculation of Y bus. Modification of an existing Y bus.

Unit-2

• Impendence Model: Bus admittance and impedance matrices. Thevenin’s theorem and Z bus. Direct determination of Z bus. Modification of an existing bus. Symmetrical fault Analysis: Transient on a Transmission line, short circuit of a synchronous machine on no load, short circuit of a loaded synchronous machine. Equivalent circuits of synchronous machine under sub transient, transient and steady state conditions. Selection of circuit breakers, Algorithm for short circuit studies. Analysis of three-phase faults.

Unit-3

• Symmetrical Components: Fortescue theorem, symmetrical component transformation. Phase shift in star-delta transformers. Sequence Impedances of transmission lines, Synchronous Machine and Transformers, zero sequence network of transformers and transmission lines. Construction of sequence networks of power system. Fault Analysis: Analysis of single line to ground faults using symmetrical components, connection of sequence networks under the fault condition.

Unit-4

• Unsymmetrical Fault Analysis: (i) Analysis of line-to-line and double line to ground faults using symmetrical components, connection of sequence networks under fault conditions. Analysis of unsymmetrical shunt faults using bus impedance matrix method.

Unit-5

• Load Flow Analysis:Load flow problem, development of load flow equations, bus classification Gauss Seidel, Newton Raphosn, decoupled and fast decoupled methods for load flow analysis. Comparison of load flow methods.

Text Books:

• Wang, J. R. Mc Donald: Modern Power System Planning, MGH.
• S. Pabla: Electrical Power System Planning, Machmillan India Ltd.

Reference Books:

• D. Glover, M. S. Sharma & T. J. Overbye: Power System Analysis and Design, Cengage Learning.
• Nasser Tleis: Power System Modelling and Fault Analysis, Elsevier.
• Kothari & Nagrath: Modern Power System Analysis, MGH.
• Haadi Saadat: Power System Analysis.

Artificial Intelligence Techniques

Unit-1

• Artificial Intelligence: Introduction to AI and knowledge based Expert systems, Introduction, Importance and Definition of AI, ES, ES building tools and shells.

Unit-2

• Knowledge Representation: Concept of knowledge, Representation of knowledge using logics rules, frames. Procedural versus. Declarative knowledge, forward versus backward chaining Control Strategies: Concept of heuristic search, search techniques depth first search, Breath first search, Generate & test hill climbing, best first search.

Unit-3

• Artificial Neural Network: Biological Neurons and synapses, characteristics Artificial Neural Networks, types of activation functions.
• Perceptions: Perception representation, limitations of perceptrons. Single layer and multiplayer perceptrons. Perceptron learning algorithms.

Unit-4

• Basic Concepts in Learning ANN: Supervised learning, Back propagation algorithm, unsupervised learning, Kohonen’s top field network & Algorithm.

Unit-5

• Fuzzy Logic: Fuzzy logic concepts, Fuzzy relation and membership functions, Defuzzification, Fuzzy controllers, Genetic Algorithm: concepts, coding, reproduction, crossover, mutation, scaling and fitness.

Text Books:

• Saroj Kaushik: Artificial Intelligence, Cengage Learning.
• Elaine Rich and Kevin Knight: Artificial Intelligence 3/e, MGH

Reference Books:

• Padhy: Artificial Intelligence & Intelligent Systems, Oxford
• James Anderson: An introduction to Neural Networks.
• W Patterson: Artificial Intelligence and Expert Systems.
• Kumar Satish: Neural Networks, 2nd ed., MGH.
• Rajsekaran & G. A. Vijayalakshmi Pai: Neural Networks, Fuzzy Logic and Genetic Algorithm- Synthesis and Applications, Prentice Hall of India.
• Siman Haykin: Neural Netowrks, Prentice Hall of India.

Non-Conventional Energy Sources

Unit-1

• Introduction: World energy situation, conventional and non-conventional energy sources, Indian energy scene. Tidal Energy: Introduction to tidal power. Components of tidal power plants, double basin arrangement. Power generation. Advantages and limitations of tidal power generation. Prospects of tidal energy in India.

Unit-2

• Solar Energy: Solar radiation, solar radiation geometry, solar radiation on tilted surface. Solar energy collector. Flat- plate collector, concentrating collector – parabolidal and heliostat. Solar pond. Basic solar power plant. Solar cell, solar cell array, basic photo-voltaic power generating system.

Unit-3

• Wind Energy: Basic principle of wind energy conversion, efficiency of conversion, site selection. Electric power generation-basic components, horizontal axis and vertical axis wind turbines, towers, generators, control and monitoring components. Basic electric generation schemes- constant speed constant frequency, variable speed constant frequency and variable speed variable frequency schemes. Applications of wind energy.
• Geothermal Energy: Geothermal fields, estimates of geothermal power. Basic geothermal steam power plant, binary fluid geothermal power plant and geothermal preheat hybrid power plant. Advantages and disadvantages of geothermal energy. Applications of geothermal energy. Geothermal energy in India.

Unit-4

• Nuclear Fusion Energy: Introduction, nuclear fission and nuclear fusion. Requirements for nuclear fusion. Plasma confinement magnetic confinement and inertial confinement. Basic Tokamak reactor, laser fusion reactor. Advantages of nuclear fusion. Fusion hybridand cold fusion.

Unit-5

• Biomass Energy: Introduction, biomass categories, bio-fuels. Introduction to biomass conversion technologies. Biogas generation, basic biogas plants-fixed dome type, floating gasholder type, Deen Bandhu biogas plant, Pragati design biogas plant. Utilization of bio gas. Energy plantation. Pyrolysis scheme. Alternative liquid fuels –ethanol and methanol. Ethanol production.

Text Books:

• D. Rao: Renewable Energy
• H. Khan: Non-Conventional Energy Resources, MGH.

Reference Books:

• N. Mathur: Non-Conventional Resources of Energy.
• Boyle: Renewable Energy, 3rded Oxford.
• Bent Sorensen, 4th ed.: Renewable Energy, Elsevier.
• V. N. Kishore: Renewable Energy Engineering and Technology, TERI.
• Garg & Prakash: Solar Energy : Fundamentals and Applications, MGH
• David Boyles: Bio Energy, Elis Horwood Ltd.,

Power System Engineering

Unit-1

• Economic Operation of Power Systems: Introduction, system constraints, optimal operation of power systems. Input output, heat rate and incremental rate curves of thermal generating units. Economic distribution of load between generating units within a plant. Economic distribution of load between power stations, transmission loss equation. Introduction to unit commitment and dynamic programming.

Unit-2

• Power System Stability-I: Power angle equations and power angle curves under steady state and transient conditions. Rotor dynamics and swing equation (solution of swing equation not included). Synchronizing power coefficient. Introduction to steady state and dynamic stabilities, steady state stability limit.

Unit-3

• Power System Stability-II: Introduction to transient stability. Equal area criterion and its application to transient stability studies under basic disturbances. Critical clearing angle and critical clearing time. Factors affecting stability and methods to improve stability.

Unit-4

• Excitation Systems: Introduction of excitation systems of synchronous machines, types of excitation systems, Elements of various excitation systems and their control (functional block diagrams and their brief description)-DC excitation systems, AC excitation systems, brushless excitation system.
• Interconnected Power Systems: Introduction to isolated and interconnected powers systems. Reserve capacity of power stations, spinning and maintenance resaves. Advantages and problems of interconnected power systems. Power systems inter connection in India.

Unit-5

• Tap Changing transformer, phase angle control and phase shifting transformer. Series compensation of transmission lines, location and protection of series capacitors, advantages and problems Introduction to power system security. Introduction to voltage stability.

Text Books:

• Nagrath and D.P. Kothari: Power System Engineering 2/e, MGH.
• J. Grainger and W. D. Stevenson: Power System Analysis, MGH.

Reference Books:

• R. Gupta: Power System Analysis and Design, Third Edition, S. Chand & Co.
• L. Wadhwa: Electrical Power Systems, New age international Ltd. Third Edition
• D. Stevenson: Element of Power System Analysis, MGH.
• R. Gupta: Generation of Electrical Energy, S. Chand Publication.

Electromagnetic Field Theory

Unit-1

• Introduction: Vector Relation in rectangular, cylindrical, spherical and general curvilinear coordinate system. Concept and physical interpretation of gradient, Divergence and curl, Green’s Stoke’s and Helmholz theorems

Unit-2

• Electrostatics: Electric field vectors-electric field intensity, flux density & polarization. Electric field due to various charge configurations. The potential functions and displacement vector. Gauss’s law, Poisson’s and Laplace’s equation and their solution. Uniqueness theorem. Continuity equation. Capacitance and electrostatics energy. Field determination by method of images. Boundary conditions. Field mappings and concept of field cells.

Unit-3

• Magnetostatics: Magnetic field vector: Magnetic field intensity, flux density & magnetization, Bio-Savart’s law, Ampere’s law, Magnetic scalar and vector potential, self & mutual inductance. Energy stored in magnetic field, Boundary conditions, Analogy between electric and magnetic field, Field mapping and concept of field cells.

Unit-4

• Time Varying Fields: Faraday’s law, Displacement currents and equation of continuity. Maxwell’s equations, Uniform plane wave in free space, dielectrics and conductors, skin effect sinusoidal time variations, reflections, refraction & polarization of UPW, standing wave ratio. Pointing vector and power considerations.

Unit-5

• Transmission Lines: The high-frequency circuit. LCR ladder model. The transmission Lin equation. Solution for loss-less lines. Wave velocity and wave impedance. Reflection and Transmission coefficients at junctions. VSWR.

Text Books:

• Hayt: Engineering Electromagnetics, 7/e, (With CD), MGH
• Matthew N. O. Sadiku: Principles of Electromagnetics, 4th ed., Oxford

Reference Books:

• S. N. Raju: Electromagnetic Field Theory and Transmission Lines, Pearson.
• D. Kraus: Electromagnetic. 5th edition, MGH.
• Baskaran and K. Malathi: Electromagnetic Field and Waves, Scitech Pub.
• S. Kshetrimayum, Electromagnetic Field Theory, Cengage Learning.
• V. Sarwate: Electromagnetic Field and Waves, Willey Eastern Ltd.

Computer Aided Design Of Electrical

Unit-1

• Basic Principles of Electrical Machine Design: Specifications, Factors affecting the design, Limitations, main dimension, loadings, output equation, factor affecting the size and rating, Electrical Engineering Materials: conducting, magnetic and insulating materials.
• Magnetic Circuit Calculation: Ohm’s law for magnetic circuit, mmf required for air gap and iron parts, tapered teeth, real and apparent flux density, magnetizing current.

Unit-2

• Heating and Cooling of Electrical Machines: heat dissipation and heat flow equations, Newton’s law of cooling, equations for temperature rise, Rating of Machines: Continuous, short and intermittent ratings, mean temperature rise, hydrogen cooling of turbo alternators, quantity of cooling medium.

Unit-3

• Computer Aided Design of Transformers: Power and Distribution Transformers, core and yoke cross sections, square and stepped core, output equations, main dimensions, types & design of windings, optimization concepts.

Unit-4

• Computer Aided Design of Synchronous Machines: Turbo and Hydro alternators, choice of specific magnetic & electric loading, short circuit ratio and its effects air gap length, output equation, main dimensions, flow charts for design of synchronous machine, design of stator core & winding.

Unit-5

• Computer Aided Design of Induction Machines: Output equation, main dimensions, design criteria, flow charts for design of induction motor, air gap length, design of stator core and winding, rotor design.

Text Books:

• K. Sawhney: A Course in Electrical Machine Design, Dhanpat Rai & Sons.
• Edikins: Generalized Theory of Electrical Machines.

Reference Books:

• Fitzegerald: Electrical Machinery, Kingsley.
• G. Say: The Performance and Design of AC Machines, Pitman & Sons.
• K. Agrawal: Electrical Machine Design

Economic Operation Of Power Systems

Unit-1

• Economics of Power Generation: Introduction, cost of electrical energy, expression for cost of electrical energy, depreciation, power plant cost analysis, economics in plant selection, selection of types of generation and types of equipments, factors effecting economic generations and distributions, generating cost, economics of different types of generating plants

Unit-2

• Economical Operations of Thermal Power Plants: Methods of loading turbo generators, input, output and heat rate characteristics, incremental cost, two generations units, large no of units, sequence of adding units, effects of transmission losses, economic scheduling considering transmission losses, coordination equations, penalty factors

Unit-3

• Hydro Thermal coordination: Advantages of combined operation, base load peak load operation requirement, combined working of run-off river and steam plant Reservoirs hydroplants and thermal plants (long term operational aspects), short term hydro thermal coordination, coordination equations, scheduling methods and applications.

Unit-4

• Parallel Operations of Generators: Conditions, synchronizingcurrent and power, two alternators in parallel (effect of change in excitation, load sharing, sharing of load currents), Infinite bus bars, active and reactive power control, synchronizing power, torque, operating limits of alternators, operating characteristics of cylindrical alternator rotor.

Unit-5

• Economics for Electrical Engineers: Concepts of physical and financial efficiencies of electrical goods and services, supply and demand, break even and minimum cost analysis, linear and nonlinear break even, min cist analysis.

Text Books:

• K. Sawhney: A Course in Electrical Machine Design, Dhanpat Rai & Sons.
• Edikins: Generalized Theory of Electrical Machines.

Reference Books:

• I. Elgerd: Electric Energy System Theory, MGH.
• Kundur: Power System Stability and Control, MGH.
• Arthur R. Bergen and Vijay Vittal: Power System Analysis, Second Edition. PHI.
• L. Wadhwa: Electrical Power Systems, Newage International (P) Ltd.
• Gross, Power Systems Analysis, 2nd Edition. John Wiley & Sons.

Power System Planning Lab

Experiments:

• Status of National and Regional Planning, for power system
• Write components of Structure of power system
• Explain in detail various planning tools.
• Write short note on Electricity Regulation
• Modeling of Electrical Forecasting techniques
• Transmission and distribution planning
• concept of Rational tariffs
• Rural Electrification

Power System Modelling And Simulation Lab

• Simulate Swing Equation in Simulink (MATLAB)
• Modeling of Synchronous Machine.
• Modeling of Induction Machine.
• Simulate simple circuits using Circuit Maker.
• (a) Modeling of Synchronous Machine with PSS (b) Simulation of Synchronous Machine with FACTS device.
• (a) Modeling of Synchronous Machine with FACTS device (b) Simulation of Synchronous Machine with FACTS devices.
• FACTS Controller designs with FACT devices for SMIB system.

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• Download RTU Electrical 7th Sem Syllabus 2020-21

All Semester Syllabus for RTU Electrical Engineering

You should have the following syllabus to boost your exam preparation for the RTU Electrical Engineering.

Click on the link to access all semester syllabus related to Electrical Engineering.

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• 8th Semester Electrical Syllabus 2020-21 & Marking Scheme

RTU Electrical Engineering 7th Semester Marking Scheme 2020-21

Here you can check the latest Electrical Engineering 7th Semester Marking Scheme 2020-21.

SEMESTER VII Subject Code	7 Title	Hrs. / Week			IA	Exam	Total
		L	T	P
7EE1A	Power System Planning	3		Theory Subjects	20	80	100
7EE2A	Power System Analysis	3	1		20	80	100
7EE3A	Artificial Intelligence Techniques	3			20	80	100
7EE4A	Non Conventional Energy Sources	3			20	80	100
7EE5A	Power System Engineering	3	1		20	80	100
7EE6.1A	Electromagnetic Field Theory	3	1		20	80	100
7EE6.2A	Computer Aided Design of Electrical Machines
7EE6.3A	Economic Operation of Power Systems
7EE7A	Power System Planning Lab	Practical laboratory courses		2	45	30	75
7EE8A	Power System Modelling & Simulation Lab			2	45	30	75
7EE9A	Industrial Economics & Management			2	30	20	50
7EETR	Practical Training & Industrial visit			2		100	100
7EEPR	Project-1			2	50		50
7EEDC	Discipline & Extra Curricular Activity						50
	Total	18	2	10			1000

• Click Here to download RTU Electrical Engineering 7th Sem Marking Scheme 2020-21

Meaning Of various letters:

• L: Lecture, T: Tutorial, P: Practical, Cr: Credits ETE: End Term Exam, IA: Internal Assessment

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