Table of Contents
- 1 Why is power system stability needed?
- 2 What are the factors of the synchronous machine that influence the transient stability analysis?
- 3 Why we use only synchronous motor as a generator?
- 4 What is transient stability What are the factors affecting transient stability How can the stability of power system be improved explain?
- 5 What is power system stability?
- 6 What is the construction of synchronous machines?
Why is power system stability needed?
Power system stability is defined as the property of a power system that enables it to remain in a state of operating equilibrium under normal operating conditions and to regain an acceptable state of equilibrium after being subjected to a disturbance. Disturbances can be small or large.
Why is synchronous machine useful for power sector?
Synchronous generators are commonly used for variable speed wind-turbine applications, due to their low rotational synchronous speeds that produce the voltage at grid frequency. Synchronous generators in variable speed operation will generate variable voltage and variable frequency power.
What is power system stability define stability limit of the system?
The stability limit defines the maximum power permissible to flow through a particular part of the system for which it is subjected to line disturbances or faulty flow of power.
What are the factors of the synchronous machine that influence the transient stability analysis?
There are two factors that must be considered for the power quality analysis of an electrical power system, i.e. frequency and voltage stability. The system that can return to the initial condition or the steady state after a disturbance occurred indicates that the system is stable.
What is system stability?
What is Stability? A system is said to be stable, if its output is under control. Otherwise, it is said to be unstable. A stable system produces a bounded output for a given bounded input. The following figure shows the response of a stable system.
What happens if system loses its stability?
An unstable system condition could lead to cascading outages and a shut-down of a major portion of the power system. The response of the power system to a disturbance may involve much of the equipment.
Why we use only synchronous motor as a generator?
Essentially, either winding can provide exciting current for the machine, which means the power factor of the motor can be varied by controlling the field current. Thus, one of the traditional reasons for using a synchronous motor is to provide power factor correction.
What is importance of excitation system of a Synchronous Generator?
Excitation system is an important part of AC synchronous generator, which controls the voltage and reactive power of the synchronous generator. In addition, the speed control system controls the speed (frequency) and active power of the prime mover and generator. Both are the main control systems for the generator set.
Why transient stability limit is less than steady state stability limit?
Hence, the maximum active power that can be delivered by system to load reduces. This maximum power limit till the transient persists is called as Transient Stability Limit. Since, during transient or fault, real power output is less so Transient Stability Limit is less than Steady State Stability Limit.
What is transient stability What are the factors affecting transient stability How can the stability of power system be improved explain?
Increase of Voltage The amplitude of the power angle curve is directly proportional to the internal voltage of the machine. An increase in voltage increases the stability limit.It is basic Transient stablity affacting factor of power system.
Why transient stability limit is lower than steady state stability limit?
This maximum power limit till the transient persists is called as Transient Stability Limit. Since, during transient or fault, real power output is less so Transient Stability Limit is less than Steady State Stability Limit.
Which system is more stable and why?
The open loop system is more stable as compared to a closed loop system. Here the word stable means the output of the system remains constant even after the disturbances.
What is power system stability?
Power system stability involves the study of the dynamics of the power system under disturbances. Power system stability implies that its ability to return to normal or stable operation after having been subjected to some form of disturbances.
What is transient stability of a synchronous system?
It in fact deals in the ability of the system to retain synchronism following a disturbance sustaining for a reasonably long period. And the maximum power that is permissible to flow through the network without loss of stability following a sustained period of disturbance is referred to as the transient stability of the system.
What is dynamic stability of a system?
Dynamic stability of a system denotes the artificial stability given to an inherently unstable system by automatically controlled means. It is concerned to small disturbances lasting for about 10 to 30 seconds.
What is the construction of synchronous machines?
Construction of synchronous machines The rotor of a synchronous machine is a large electromagnet. The magnetic poles can be either salient (sticking out of rotor surface) or non- salient construction. Non-salient-pole rotor: # of poles: 2 or 4.