Electrical Engineering Interview Questions Part – 12
1.what is the principle of motor?
Whenever a current carrying conductor is placed in an magnetic field it produce turning or twisting movement is called as torque.
2.Types of dc generator?
DC Generators are classified into two types 1)separatly excited DC generator 2)self excited DC generator,which is further classified into; 1)series 2)shunt and 3)compound(which is further classified into cumulative and differential).
3.Which motor has high Starting Torque and Staring current DC motor,Induction motor or Synchronous motor?
DC Series motor has high starting torque. We can not start the Induction motor and Synchronous motors on load,but can not start the DC series motor without load.
4.Define stepper motor. What is the use of stepper motor?
The motor which work or act on the applied input pulse in it,is called as stepper motor. This stepper motor is under the category of synchronous motor,which often does not fully depend of complete cycle. It likes to works in either direction related to steps. for this purpose it mainly used in automation parts.
5.What is 2 phase motor?
A two phase motor is a motor with the the starting winding and the running winding have a phase split. e.g;ac servo motor.where the auxiliary winding and the control winding have a phase split of 90 degree.
6.Which type of A.C motor is used in the fan (ceiling fan,exhaust fan,padestal fan,bracket fan etc) which are find in the houses ?
Its Single Phase induction motor which mostly squirrel cage rotor and are capacitor start capacitor run.
7.Give two basic speed control scheme of DC shunt motor?
1. By using flux control method:in this method a rheostat is connected across the field winding to control the field current.so by changing the current the flux produced by the field winding can be changed,and since speed is inversely proportional to flux speed can be controlled
2.armature control method:in this method a rheostat is connected across armature winding by varying the resistance the value of resistive drop(I[a]R[a]) can be varied,and since speed is directly proportional to Eb-I[a]R[a] the speed can be controlled.
8.Difference between a four point starter and three point starter?
The shunt connection in four point starter is provided separately form the line where as in three point starter it is connected with line which is the drawback in three point starter.
9.What is the difference between synchronous generator & asynchronous generator?
In simple,synchronous generator supply’s both active and reactive power but asynchronous generator(induction generator) supply’s only active power and observe reactive power for magnetizing. This type of generators are used in windmills.
10.Why syn. generators are used for the production of electricity?
Synchronous machines have capability to work on different power factor (or say different imaginary power varying the field EMF. Hence syn. generators r used for the production of electricity.
11.Why is the starting current high in a DC motor?
In DC motors,Voltage equation is V=Eb-IaRa (V = Terminal voltage,Eb = Back emf in Motor,Ia = Armature current,Ra = Aramture resistance). At starting,Eb is zero. Therefore,V=IaRa,Ia = V/Ra ,where Ra is very less like 0.01ohm.i.e,Ia will become enormously increased.
12.What are the advantages of star-delta starter with induction motor?
The main advantage of using the star delta starter is reduction of current during the starting of the motor. Starting current is reduced to 3-4 times Of current of Direct online starting.(2). Hence the starting current is reduced ,the voltage drops during the starting of motor in systems are reduced.
13.Why series motor cannot be started on no-load?
Series motor cannot be started without load because of high starting torque. Series motor are used in Trains,Crane etc.
14.Mention the methods for starting an induction motor?
The different methods of starting an induction motor
DOL:direct online starter
Star delta starter
Auto transformer starter
Series reactor starter
15.What are Motor Generator Sets and explain the different ways the motor generator set can be used ?
Motor Generator Sets are a combination of an electrical generator and an engine mounted together to form a single piece of equipment. Motor generator set is also referred to as a genset,or more commonly,a generator The motor generator set can used in the following different ways:
1.Alternating current (AC) to direct current (DC)
2.DC to AC
3.DC at one voltage to DC at another voltage
4.AC at one frequency to AC at another harmonically-related frequency
16.Which type of motor is used in trains,what is the rating of supply used explain Working principal?
Dc series is in the trains to get high starting torque while starting of the trains and operating voltage is 1500v dc.
17.What are the Application of DC Motors in Thermal Power Plant?
In thermal power plants dc motors are employed for certain control and critical emergency operations which are supplied by dedicated batteries. DC motors operate as backup drives for normal ac drive systems when ac power supply to the plant is lost. In thermal power plant,the dc motors finds applications for performing control functions such as Turbine governor motor
Governor limit setting
Motor operated rheostats
Emergency lubrication for the turbines (main,boiler feed pumps)
Generator (H2 oil seal).
DC motor operated valves
DC motors employed in thermal plants are classified in to two types
based on the type of application.
DC motors carrying out Control function
Dc motors carrying out Emergency function
This category consists of the turbine governor motor,governor limiting setting,motor operated rheostats,etc. These motors are small,about 1/8 hp or less. They are operated quite infrequently for short duration.
This category consists of turbine-generator emergency (lubrication) bearing oil pumps and emergency seal oil pumps. Such pumps may also be provided for steam turbine drives of feedwater pumps,fans,and other large loads. The lack of lubrication during a shutdown without ac power will ruin the linings of the bearings and damage the shaft.
Hydrogen seal oil pump is provided to prevent the escaping of hydrogen (for large turbine-generators hydrogen cooling is provided for efficient cooling) from the casing by providing a tight seal with high pressure oil
18.What are the Advantages & Disadvantages of Synchronous motors?
Advantage or Merits:
One of the major advantage of using synchronous motor is the ability to control the power factor. An over excited synchronous motor can have leading power factor and can be operated in parallel to induction motors and other lagging power factor loads thereby improving the system power factor.
In synchronous motor the speed remains constant irrespective of the loads. This characteristics helps in industrial drives where constant speed is required irrespective of the load it is driving. It also useful when the motor is required to drive another alternator to supply at a different frequency as in frequency changes.
Synchronous motors can be constructed with wider air gaps than induction motors which makes these motors mechanically more stable.
In synchronous motors electro-magnetic power varies linearly with the voltage.
Synchronous motors usually operate with higher efficiencies ( more than 90%) especially in low speed and unity power factor applications compared to induction motors
Disadvantages or Demerits:
Synchronous motors requires dc excitation which must be supplied from external sources.
Synchronous motors are inherently not self starting motors and needs some arrangement for its starting and synchronizing.
The cost per kW output is generally higher than that of induction motors.
These motors cannot be used for variable speed applications as there is no possibility of speed adjustment unless the incoming supply frequency is adjusted (Variable Frequency Drives).
Synchronous motors cannot be started on load. Its starting torque is zero.
These motors have tendency to hunt.
When loading on the synchronous motor increases beyond its capability,the synchronism between rotor and stator rotating magnetic
field is lost and motor comes to halt.
Collector rings and brushes are required resulting in increase in maintenance.
Synchronous motors cannot be useful for applications requiring frequent starting or high starting torques required.