B.TECH - Semester 6 power system analysis and stability Question Paper 2020 (jan)
Practice authentic previous year university questions for better exam preparation.
Sample Questions
- Mention any two merits of using Per Unit System for calculations.
- Enlist the different types of faults in power systems.
- Establish that symmetrical component transformation is power invariant.
- What are the different methods used for formation of admittance matrix?
- Enumerate the assumptions made while conducting load flow using fast decoupled method.
- In a two plant system, the load is connected to plant no. 2. Which all loss coefficients are zero? Why?
- What are the thermal unit constraints to be considered during Unit Commitment?
- Plot the steady state load-frequency characteristics of a speed governor system. Define regulation coefficient.
- Define transient stability.
- Derive from first principles the expression for inertia constant. PART - B
- (a) Derive the current equations and draw the sequence network for a LG fault
- (b) A generator-transformer unit is connected to a line through a circuit-breaker. The unit rating are: Generator: $10 \mathrm{MVA}, 6.6 \mathrm{kV}, X_{d}{ }^{\prime \prime}=0.1$ p.u., $X_{d}{ }^{\prime}=0.2$ p.u. and $X d=0.8$ p.u. Transformer: $1...
- (i) The initial symmetrical r.m.s. current in the breaker. (ii) The maximum possible DC offset current in the breaker. (iii) The momentary current rating of the breaker. (iv) The current to be interrupted by the breaker and the interrupting kVA.
- (v) The sustained short-circuit current in the breaker.
- (a) What do you understand by a short circuit? Discuss the various methods of connecting short-circuit current limiting reactors in the power system.
- (b) The voltages at the terminals of a balanced load consisting of three 20 ohm Y-connected resistors are $200<0^{\circ}, 100<255.5^{\circ}$ and $200<151^{\circ} \mathrm{V}$. Find the line currents from the symmetrical components of the line voltages...
- (a) Formulate the load flow problem. Categorize the various buses in a power system and brief upon their characteristics.
- (b) Explain the step-by - step algorithm for solving the load flow problem using Newton-Raphson method.
- (a) Provide the flow-chart for solving load flow with Gauss-Siedel method.
- (b) What is meant by DC load flow? Explain the concept of DC load flow.
- (a) Formulate the economic dispatch problem considering the transmission losses and derive the expression for penalty factor.
- (b) The incremental cost characteristics of two thermal power plants are given by $\frac{d c_{1}}{d p_{G 1}}=0.2 P_{G 1}+60 \mathrm{Rs} . / \mathrm{MWh} \frac{d c_{2}}{d p_{G 1}}=0.3 P_{G 2}+40 \mathrm{Rs} . / \mathrm{MWh}$. Calculate the sharing of...
- (a) State the Unit Commitment problem. Elaborate on the various constraints of the problem.
- (b) Two units each of 200 MW in a thermal power station are operating all the time throughout the year. The maximum and minimum load on each unit is 200 MW and 50 MW respectively. The incremental fuel characteristics of two thermal power plants are g...
- (a) Develop the block diagram of Load Frequency Control of a single area system.
- (b) What is meant by equal area criterion? How is it applied to analyze the transient stability of a system?
- (a) Find the steady state power limit of a system consisting of a generator equivalent reactance 0.5 p.u. connected to an infinite bus through a series reactance of 1.0 p.u. The terminal voltage of the generator is held at 1.2 p.u. and the voltage of...
- (b) Derive from first principles, the Swing equation of an alternator.