Flexible AC Transmission Systems Two Mark Question and Answers
1.
What
is the necessity of compensation?
The reactive
power through the system can significantly improve the performance / parameters
of the power system as follows
·
Voltage
profile
·
Power
angle characteristics
·
Stability
margin
·
Damping
to power oscillations
2.
What
are the objectives of line compensation?
·
To
increase the power transmission capacity of the line
·
To
keep the voltage profile of the line along its length within acceptable bounds
to ensure the quality of supply to the connected customer as well as to
minimize the line insulation costs
3.
How
is the reactive power controlled, using FACTS devices?
The SVC is a
shunt device of the FACTS group, regulates voltage at its terminals by
controlling the amount of reactive power injected in to or absorbed from the
power system. When a system voltage is low, the SVC generates reactive power (SVC
Capacitive). When a system voltage is high, it absorbs reactive power (SVC
inductive)
4.
How
is reactive power controlled in electrical network?
Traditionally,
rotating synchronous condensers and fixed or mechanically switched capacitors
or inductors have been used for reactive power compensation. However, in recent
years static VAR compensators are used to provide or absorb the required
reactive power have been developed.
5.
Explain
the objectives of FACTS controllers in the power system network.
·
Better
the control of power flow (Real and Reactive) in transmission lines.
·
Limits
SC current
·
Increase
the load ability of the system
·
Increase
dynamic and transient stability of power system
·
Load
compensation
·
Power
quality improvement
6.
What
are the adv. of FACTS controllers?
·
The
flow of power is ordered. It may be as per the contract or as per the
requirements of the utilities
·
It
increases the loading capability of the lines to the thermal capability
·
It
improves the stability of the system and thus make the system secure
·
Provides
secure Tie Line connection to the neighboring utilities and regions , thereby
decreasing overall generation reserve requirements on both sides
·
Upgrade
of lines
·
Reduce
loop flow
7.
List
the disadvantage of fixed series compensation.
·
It
is effective only during heavy loads
·
Whenever
an outage occurs on a line, with series compensation, the series compensation
is removed. This may cause overloading of other parallel lines
·
If
series compensation is added to an existing system, it is generally necessary
to have it on all the lines in parallel.
·
One
major drawback in the series capacitance compensation is that special
productive devices are required to protect the capacitors and bypass the high
current produced when a SC occurs
8.
What
is meant by thyristor switched capacitor?
TCSC is a
capacitive reactance compensator, which consists of series capacitor bank
shunted by a thyristor-controlled reactor.
9.
Define
the term Static VAR compensator.
The SVC is a
shunt device of FACTS group using power electronics to control power flow and
improve transient stability on power grids. The SVC regulates voltage at its
terminals by controlling the amount of reactive power injected into or absorbed
from the power system.
10.
What
are the diff types of compensation schemes?
Mainly two types of compensation
are carried out,
·
Load
compensation
·
Line
compensation
11.
What
are the diff power electronic switching devices?
·
SCR
·
MOSFET
·
GTO
·
IGBT
·
DOIDE
·
BJT
12.
Define
the term FACTS.
·
Flexible
AC Transmission System
·
Alternating
current transmission system incorporating power electronics based and other
static controllers to enhance controllability and increase power transfer
capability
13.
What
is best location for SVC?
·
Location
of SVC strongly affects controllability of swing modes.
·
In
general the best location is at a point where voltage swings are greatest.
Normally, the midpoint of a transmission line between the two areas is a good
location.
14.
Compare
fixed series compensation and fixed shunt compensation.
·
Voltage
boost due to shunt compensators is uniform throughout the line.
·
Power
factor will be improved by the shunt capacitor whereas, series compensator
improves power system stability limit
·
Protection
required for the series compensator is more compared to shunt compensator.
·
Amount
of voltage boost by the series capacitor is more
15.
What
are the main areas of application of FACTS devices?
FACTS mainly
find application in following areas,
·
Power
transmission
·
Power
Quality
·
Railway
Grid Connection
·
Wind
power grid Connection
·
Cable
Systems
16.
What
is load compensation?
Load
compensation is a management of reactive power to improve the quality of supply
especially the voltage and power factor levels
Three main objectives of the load
compensation are
·
Better
voltage profile
·
Power
factor correction
·
Load
balancing
17.
Define
VAR compensation.
It is defined as
the management of reactive power to improve the performance of AC power
systems: Maximizing stability by increasing flow of active power.
18.
List
the generation of facts controllers.
The following generation of FACTS
controllers for the development of FACTS controllers
First Generation
of FACTS controllers:
Static VAR Compensator (SVC)
Thyristor Controlled Series Capacitor
(TCSC)
Second Generation of FACTS controllers:
Static Synchronous Compensator (STATCOM)
Static Synchronous Compensator (STATCOM)
Static Synchronous Series Compensator
(SSSC)
Third Generation
of FACTS Controllers:
It is designed by combining the
features of previous generations Series and shunt compensation FACTS
controllers.
Unified Power Flow Controller (UPFC)
Interline Power Flow Controller (IPFC)
19.
What
are various categories of FACTS controllers?
·
Series
FACTS controllers
·
Shunt
FACTS controllers
·
Combined
series series FACTS controllers
·
Combined
series shunt FACTS controllers
20.
What
is IPFC?
Interline power
Flow Controller is a combination of two or more independently controllable
static synchronous series compensator (SSSC) which are solid state voltage
source converters which inject an almost sinusoidal voltage at variable
magnitude and couples via a common DC link.
UNIT II-
SVC and its Applications
21.
Write
the application of SVC.
·
SVC’s
are installed to solve a variety of power system problems
·
Voltage
regulation
·
Reduce
voltage flicker caused by varying loads like arc furnace, etc.
·
Increase
power transfer capacity of transmission systems.
·
Increase
transient stability limits of a power system
·
Increase
damping of power oscillations
22.
Define
the term static VAR compensator (SVC).
Static VAR Compensator is an electrical device,
commonly known as SVCs, or shunt connected devices, vary the reactive power
output by controlling or switching the reactive impedance components by means
of power electronics devices. The SVC regulates voltage at its terminals by
controlling the amount of reactive power injected into or absorb from the power
system.
The
term “STATIC” refers to the fact that the SVC has no moving parts. Hence it
requires low maintenance.
23.
What
are advantages of slope in the dynamic characteristics of SVC?
·
Substantially
reduces the reactive power rating of the SVC for achieving nearly the same
control objectives.
·
Prevents
the SVC from reaching its reactive power limits too frequently
·
Facilitates
the sharing of reactive power among multiple compensators operating in parallel
24.
What
is the best location for SVC? Justify.
·
It
has been proven that the midpoint of the transmission line is the optimal
location of SVC. This proof is based on the linear load which is not valid
practically
·
For
nonlinear load model it was found that the best location for advanced Static
VAR compensator close to the receiving end where the wide range of reactive
power could be controlled.
25.
What
are the general characteristics of SVCs?
·
The
lowering of maintenance requirements due to the absence of rotating parts
·
The
very fast control response time
·
The
feasibility of individual phase control
·
Reduced
losses
·
Highly
reliable
26.
List
the Advantages of SVC.
·
Cheaper
·
Higher
capacity
·
Faster
and more reliable
·
Simple
operation
·
Improves
steady state stability and transient stability
27.
Draw
VI characteristics of SVC.
28.
Define
voltage stability.
It is the
ability of a power system to maintain steady acceptable voltages at all buses
in the system under normal operating conditions and after being subjected to a
disturbance.
29.
What
are the two basic modes of SVC?
·
Voltage
regulation mode
·
VAR
mode(SVC susceptance kept constant)
30.
List
out the prevention of voltage instability
·
Placement
of series and shunt capacitors
·
Installation
of synchronous condensers
·
Placement
of FACTS controllers
·
Coordination
of multiple FACTS controllers
·
Under
Voltage load Shedding
31.
What
are the symptoms of voltage collapse?
·
Low
voltage profiles
·
Heavy
reactive power flows
·
Inadequate
reactive support
·
Heavily
loaded system
32.
What
are the general characteristics of SVC?
·
Lowering
maintenance requirement from the absence of rotating parts
·
Very
fast control response time
·
Feasibility
of individual phase control
·
Diminished
losses
·
High reliability
·
Lack
of contribution to system short circuit capacity
·
Generation
of harmonics by SVCs except thyristor switched capacitor
·
Variation
of SVC reactive power generation as the square of terminal voltage when it is
operating outside the linear controllable range, leading to a substantial in
reactive power support at a lower voltage
33.
Give
the applications of synchronous condensers.
·
Control
of large voltage excursions
·
Dynamic
reactive power support at HVDC terminals
34.
Give
the applications of saturated reactor.
·
The
control of the large voltage excursions
·
The
alleviation of flicker
·
The
reactive compensation HVDC terminal
35.
What
are the advantages of the slope in the SVC dynamic characteristics?
·
Substantially
reduces the reactive power rating of the SVC for achieving nearly the same
control objectives
·
Prevents
the SVC from reaching its reactive power limits too frequency
·
Facilitates
the sharing of reactive power among multiple compensators operating in parallel
36.
Draw
the power angle curve of SVC compensated SMIB system?
37.
Where
we can locate Svc in a transmission system?
·
Buses
experiencing maximum voltage excursions
·
Buses
where an SVC of a given rating can impart maximum electrical tamping to the
power system
·
Buses
where the critical voltage sensitive loads are connected
·
The
electrical midpoint of transmission line connecting two areas, maximum voltage
swings are likely in the absence of a SVC
UNIT
III-TCSC and its Applications
38.
Draw
the VI Capability curves for Single Module TCSC
39.
List
the advantages of TCSC.
·
Rapid
, continuous control of transmission-line, series-compensation level
·
Dynamic
control of power flow in selected transmission lines within the network to
enable optimal power flow conditions and prevent the loop flow of power
·
Damping
of the power swings from local and inter area oscillations
·
Suppression
of synchronous oscillations
·
Decreasing
DC offset voltages.
40.
What
is the application of TCSC?
·
Mitigation
of sub synchronous resonance
·
Enhancement
of system damping
·
Power
system stability improvement
·
To
increase power transfer capability
41.
What
is meant by bypassed thyristor mode?
In this bypassed
mode, the thyristor are made to fully conduct with the conduction angle of 180
degree. The TCSC module behaves like a parallel capacitor-inductor combination.
However the net current through the module is inductive, for the susceptance of
the reactor is chosen to be greater than that of the capacitor. Also known as
the thyristor switched reactor (TSR) mode
42.
What
is the indication of voltage collapse points?
The Collapse
points are indicative of the maximum load ability of the transmission lines or
the available transfer capability (ATC)
43.
What
is the effect of TCSC in SSR problem?
At sub
synchronous frequency the TCSC presents an inherently resistive-inductive
reactance. The sub-synchronous oscillations cannot be sustained in the
situations and consequently get damped.
44.
What
are different modes of operation of TCSC?
·
Bypassed
thyristor mode
·
Blocked
thyristor mode
·
Partially
conducting thyristor(Capacitive-Vernier) mode
·
Partially
conducting thyristor(inductive-Vernier) mode
45.
What
is the need for variable-series compensation?
·
Enhanced
base power flow and load ability of series compensator line
·
Additional
losses in the compensator line from the enhanced power flow
·
Increased
responsiveness of the power flow in the series compensated line from the outage
of other lines in the system
46.
List
the models of TCSC.
·
Modeling
for sub-synchronous resonance SSR studies
·
Variable
reactance model
·
Transient
stability model
·
Long
term stability model
47.
How
is the variation of capacitive reactance achieved in TCSC?
By varying the
firing angle of the anti-parallel thyristor connected in series with the
reactor in the TCR, the fundamental frequency inductive reactance of the TCR
can be changed. This affects a change in the reactance of TCSC and it can be
controlled to produce either inductive or capacitive reactance.
48.
Draw
the impedance vs. delay angle characteristics of TCSC.
49.
Define
sub synchronous resonance (SSR)
It is an
electric power system condition, where the electric network exchanges energy
with the turbine generator at one or more of the natural frequencies of the
combined system below the synchronous frequency of the system.
50.
What
are the causes of series compensation in long transmission lines?
·
Sub-synchronous
oscillations, caused by interaction between the electrical network and the generator
torsional system.
·
Low
frequency (1Hz-10Hz) oscillations caused by interaction between the series
capacitors and the shunt inductors, especially during line switching and
faults. These oscillations have large magnitudesand last for long periods
because of high shunt reactor Q factors.
·
Switching
oscillations, caused by the switching of lines.
51.
What
is TCSC?
TCSC is a
capacitive reactance compensator, which consists of a series capacitor bank
shunted by a thyristor controlled reactor. The basic conceptual TCSC module
comprises a series capacitor, C,in parallel with a thyristor controlled
reactor, Ls, in order to provide a smoothly variable series capacitive
reactance.
52.
What
is the basic principle of TCSC?
The basic
operating principle behind the TCSC is that, it can provide a continuously
variable capacitor by means of partially cancelling the effective compensating
capacitance of the thyristor controlled reactor.
53.
What
are symptoms of voltage collapse?
The main
symptoms of voltage collapse are low voltage profiles, heavy reactive power
flows, inadequate reactive support, and heavily loaded systems.
54.
How
is voltage instability identified in the power system?
Voltage
instability problem is mainly because of insufficient reactive capacity of
power systems during disturbances like line outage contingencies.
Voltage collapse
is mathematically indicated when the system Jacobian becomes singular.
55.
What
does voltage collapse means?
Voltage collapse
is a loss of stability in large scale electric power systems which causes
blackout when voltages decrease terribly.
56.
How
is system voltage stability limit improved?
Voltage
stability is primarily associated with the reactive power support. FACTS
devices can regulate the active and reactive power control as well as adaptive
to voltage magnitude control simultaneously because of their flexibility and
fast control characteristics.
Placement of
these devices in suitable location and proper coordination between FACTS controllers
can leads to control in line flow and maintain bus voltages in desired level
and so improve voltage stability margins and of the power systems.
57.
What
is Bang Bang control?
Bang Bang control
is a discrete control form in which the thyristor are either fully switched on
(α=90) or fully switched off (α=180)
Thus, TCSC
alternates between a fixed inductor and a fixed capacitor, respectively, and it
is advantageous that such control is used not only for minimizing first swings
but for damping any subsequent swings as well.
Bang bang
control is employed in face of large disturbances to improve the transient
stability.
58.
What
are the needs for variable series compensation?
·
Enhance
base power flow and load ability of the series compensated line
·
Additional
losses in the compensated line from the enhanced power flow
·
Increase
responsiveness of power flow in the series compensated line from the outage of
other lines in the system
59.
What
are the advantages of TCSC?
·
Rapid,
continuous control of the transmission line series compensation level
·
Dynamic
control of power flow
·
Damping
of the power swings from local and inter area oscillations
·
Suppression
of synchronous oscillations
·
Decreasing
dc offset voltage
·
Enhanced
level of protection for series capacitors
·
Voltage
support
·
Reduction
of the short circuit current
60.
Draw
the VI capability characteristics for a two module TCSC.
61.
Draw
a block diagram of the variable reactance model of the TCSC.
62.
What
are the needs of the damping control of a TCSC?
·
Stabilize
both post disturbance oscillations and spontaneously growing oscillations
during normal operations
·
Obviate
the adverse interactions with high frequency phenomena in power system such as
network resonance
·
Preclude
local instabilities within the controller bandwidth
·
Be
robust in that it imparts the desired damping over a wide range of system operating conditions
·
Be
reliable
63.
What
are the locations to place TCSC in a power system?
·
The
TCSC should be located in lines that experience limiting power oscillations
·
The
swing of voltage on each side of the TCSC must be within acceptable limits
otherwise multiple sides may be necessary
·
The
control action of the TCSC in one transmission path should not cause undue
power swing in a parallel path
·
Sometimes
it may be advisable to distribute the control action among multiple TCSCs
rather than confining the control action to one large rating TCSC
UNIT IV-
Emerging FACTS Controllers
64.
What
is STATCOM?
The STATCOM (or
SSC) is a shunt-connected reactive power compensation device that is capable of
generating and/or absorbing reactive power and in which the output can be
varied to control the specific parameters of an electric power system.
65.
State
the salient features of STATCOM features.
·
Compact
size
·
System
voltage support and stabilization by smooth control over a wide range of
operating conditions
·
Dynamic
response following system contingencies
·
High
reliability with redundant parallel converter design and modular construction
·
Flexibility
of future reconstruction to Back to Back(BTB) power transmission or
UPFC(Unified Power Flow Control) and other configuration
66.
List
the application of STATCOM.
·
Damping
of power system oscillations
·
Damping
of sub synchronous oscillations
·
Balanced
loading of individual phases
·
Reactive
compensation of AC-DC converters and HVDC links
·
Improvement
of steady state power transfer capacity
67.
Compare
the V-I Characteristic of STATCOM & SVC
|
|
|
68.
How
the reactive power compensation is done using STATCOM.
A STATCOM is a
controlled reactive power source. It provides the desired reactive power generation
and absorption entirely by means of electronic processing of the voltage and
current waveforms in a voltage source converter
69.
List
the modes of operation of STATCOM
The STATCOM can be operated in
two different modes:
v Voltage
regulation mode under this mode it has 3 sub divisions. There are,
·
Over
excited mode of operation
·
Under
excited mode of operation
·
Normal(floating)
excited mode of operation
v Var control mode
70.
Draw
VI characteristics of STATCOM.
71.
Compare
STATCOM and SVC.
·
The
STATCOM has the ability to provide more capacitive reactive power during
faults, or when the system voltage drops abnormally, compared to ordinary
static var compensator. This is because the maximum capacitive reactive power
generated by a STATCOM deceases linearly with system voltage, while that of the
SVC is proportional to the square of the voltage.
·
Also,
the STATCOM has a faster response as it has no time delay associated with
thyristor firing. Nevertheless, these advantages come at a higher price(about
20% more)
72.
What
are the function of STATCOM?
·
Dynamic
voltage control in transmission and distribution systems.
·
Power
oscillation damping in power transmission systems
·
Transient
stability improvement
·
Ability
to control not only reactive power but, if needed, also active power (with a DC energy source
available)
73.
Define
STATCOM.
·
The
STATCOM has been defined as per CIGRE/IEEE with following three operating
scenarios.
·
First
component is static: based on solid state switching devices with no rotating
components;
·
Second
component is Synchronous: Analogous to an ideal synchronous machine with 3
sinusoidal phase voltages at fundamental frequency;
·
Third
component is compensator: rendered with reactive compensation.
74.
List
the advantages/benefits of STATCOM.
The STATCOM
offers following advantages:
·
Superior
voltage supporting capability
·
Fast
response
·
Large
reactive power generation under low system voltage condition
·
Less
harmonics generation
·
Smaller
filter capacity
·
Less
space requirement
75.
What
is UPFC?
The UPFC is a
device which can control simultaneously all three parameters of line power
flow(line impedence, voltage and phase angle).Such “new” FACTS device combines
together the features of two “old” FACTS devices” the Static Synchronous
Compensator(STATCOM) and the Static Synchronous Series Compensator (SSSC). It
is proposed by Gyugyi in 1991.
76.
What
is role of dc link in UPFC?
The real power
is supplied from, or absorbed by, the DC energy storage device called dc link.
77.
List
the application of UPFC.
·
Power
flow control
·
Power
swing damping
·
Voltage
dips compensation
·
Fault
Current Limiting
78.
State
the salient features of UPFC.
·
The
UPFC is versatile and multifunction power flow controller with capabilities of
terminal voltage regulation , series line compensation and phase angle
regulation
·
Minimization
of power losses with out generator rescheduling
·
Regulating
power flow through a transmission line
·
More
reliable
·
Provides
dynamic security
·
Acts
as harmonic isolator
79.
What
are the parameters that can be improved using STATCOM in power system?
·
The
dynamic voltage control in transmission
and distribution system
·
The
power oscillation damping in power transmission system
·
The
transient stability
·
The
voltage flicker control
·
The
control of not only reactive power but also active power in the connected
line, requiring a Dc energy
source
80.
What
are the different constraints for operating UPFC?
·
The
series injected voltage magnitude
·
The
line current through series converter
·
The
shunt converter current
·
The
minimum line side voltage of the UPFC
·
The
maximum line side voltage of the UPFC
·
The
real power transfer between the series converter and the shunt converter
81.
What
are the operating modes of UPFC?
·
VAR
Control Mode
·
Automatic
Voltage Control Mode
·
Direct
Voltage Injection Mode
·
Phase
Angle Shifter Emulation Mode
·
Line
Impedance Emulation Mode
·
Automatic
Power Flow Control Mode
UNIT
V- Coordination of FACTS Controllers
82.
Define
the term “Co-ordination”
The term
coordinated implies that the controllers have been tuned simultaneously to
effect an overall positive improvement of the control scheme
83.
How
is coordination of FACTS controllers carried out?
Controller interactions can occur
in the following combinations:
·
Multiple
FACTS controllers of a similar kind
·
Multiple
FACTS controllers of a dissimilar kind
·
Multiple
FACTS controllers and HVDC converter controllers
84.
What
is the need for coordination of different FACTS controllers?
·
Need
for coordination
·
Adverse
interaction due to fast controls
·
Usually
controls are tuned optimally assuming the remaining power system to be passive
·
Above
parameters not optimal when dynamics of other controller are existent ( Power
System Stabilizers(PSS),HVDC,FACTS)
85.
What
do you understand by coordination of FACTS controllers?
The term
coordinated implies that the controllers have been tuned simultaneously to
effect an overall positive improvement of the control scheme
86.
What
is genetic algorithm (GA)?
·
GA
is global search technique based on mechanics of natural selection and natural
genetics. It is a general purpose optimization algorithm that is distinguished
from conventional optimization techniques by the use of concepts of population
genetics to guide the optimization search.
·
These
techniques provide robust, decentralized control design and are not restricted by
problems of non-differentiability, non-linearity, and non-convexity, all of
which are often limiting in optimization exercises.
87.
List
the advantages of genetic algorithm.
An advantage of
genetic algorithm techniques is that the parameter limits can be varied during
the optimization, making the techniques computationally efficient.
88.
List
the possible combination of FACTS controller interactions.
·
Multiple
FACTS controllers of a similar kind
·
Multiple
FACTS controllers of a dissimilar kind
·
Multiple
FACTS controllers and HVDC converter controllers
89.
Give
The frequency range of the different control interactions
·
0
Hz for steady state interactions
·
0-3Hz
for electromechanical oscillations
·
2-15Hz
for small signal or control oscillations
·
>15
Hz sub synchronous resonance interactions
·
>15
Hz for electromagnetic transient high frequency resonance or harmonic resonance interactions, and
network resonance interactions
90.
What
are the basics procedures of the controller design?
·
Derivation
of the system model
·
Enumeration
of the system performance specifications
·
Selection
of the measurement and control signals
·
Coordination
of the controller design
·
Validation
of the design performance evaluation
91.
Write
the assumptions of control coordination for damping enhancement?
·
All
controllers in the system including FACTS have the transfer function of the
type kjGj (S)
·
The
component Gj(S) in the transfer
function is responsible for causing the left shift in the
electromechanical mode
·
The
gain Kj in the transfer function decides the magnitude of left shift
in the mode of interest
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