Preferential Subject #3 Protection and Control of Series Compensated Networks S U M M A R Y
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Preferential Subject #3
Protection and Control of Series Compensated Networks
S U M M A R Y
Special Reporter: Graeme Topham
South Africa
Study Committee B5 Colloquium2005 September 14 – 16
Calgary, CANADA
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SUMMARY
STUDIES
SIMULATION
DATA
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Q1: Main utility considerations when deciding to series compensate a transmission line and/or
what are the challenges faced?
JP: Design considerations 275 kV double circuit SC line: Simulation study:
Degree of compensation vs. Stable transmission capacity
Special directional scheme for backup Large scale field tests
GS: Introducing SC more economical than additional line CA: Must be careful in choice of relays. Tests important CA: SC reduces influence of Geo-magnetic induced
currents
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Q2: What economic and/or environmental issues deter the implementation of
series compensation?
SE: Environmental issues can influence preferred location of SC
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Q3: Experiences of other unique SC distance relay applications where special adjustments
to settings and/or logic are required?
BR: Extensive simulation tests -> necessity to refine logic and/or settingsAt lower voltages tests expensive -> tools needed
CN: Deviation of power frequency component relay. Zero sequence source impedance artificially decreased. Adaptive functionality.
JP: Special directional scheme. Based on memory function -> operating time delay for V inversion. Three directional distance elements required for SC double-circuit lines. Numerical technology allowed simplification.
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Q3: Experiences of other unique SC distance relay applications where special adjustments
to settings and/or logic are required?
SE: Distance relay model – basis for problems for dealing with SC
UK: Special setting when accurate V measurement
unavailable Special polarizing V for direction decision Cross differential relay proposed as better
solution for double circuit lines Weak infeed not a problem New capacitor voltage calculation technique
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Q3: Experiences of other unique SC distance relay applications where special adjustments
to settings and/or logic are required?
US: Formula based on gap voltage to come to a security factor for setting Z1
CA: Current diff relay better than distance relay SE: Margin for Z1 dependent on compensation
degree
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Q4: What analysis tools are available to utilities to assist in evaluating distance relay performance
on SC applications prior to the purchase or choice of a particular relay type?
BR: Use of RSim tool to ‘assemble’ a virtual relay. Good results for relays where enough info available. Cooperation between manufacturers and users
SE: SS simulations (PSSE / CAPE) not suitableEMTP - insufficient relay detailsOnly viable option is simulator tests
US: Tools – relay manual; test report; test data base (COMTRADE files); simulation
US: Real-time simulation - system specific and must be accurately
CA: HyperSim
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Q4: What analysis tools are available to utilities to assist in evaluating distance relay performance
on SC applications prior to the purchase or choice of a particular relay type?
CN: Digital model for development. Physical models for testing
CA: Relay model info will allow users to see margin -> added security
US: DLL file for EMPT testing
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Q5: Besides zero sequence current compensation, what other techniques have been successfully
applied to distance relays to resolve the impedance measurement inaccuracy on SC parallel lines?
US: Supervise impedance measurement with superimposed direction function
SE: China – 4 x 500 kV systems on same tower. Grounding switches?
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Q6: What are the current experiences with using the weak infeed protection function,
particularly in SC line protection applications?
BR: Many problems with weak infeed function. How to determine temporary weak infeed terminals during long duration major disturbance and restoration? 2006 Session?
CA: Agree weak infeed trip insecureRecommendation to separate WI from permissive trip Echo function in POTT schemes
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Q6: What are the current experiences with using the weak infeed protection function,
particularly in SC line protection applications?
SE: WI important feature. Must consider all necessary precautions to prevent unwanted operations
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Q7: What are the main technical difficulties with accurate fault location on SC lines and what fault
location techniques are currently being successfully employed?
JP: Experience with one- and two-terminal methods. Latter better than differential equation based algorithm.
SE: Impedance method inaccurate especially when compensation degree switched.Travelling wave method found to be most accurate
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Q8 a): What methodologies are used to optimize settings for series compensated
line applications?
SE: Real-time simulations to verify total protection scheme
SE: Thyristor controlled capacitor needs to be correctly simulated when testing line protection
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Q8 b): What are the requirements of utilities in terms of certification tests for relays and/or
protection systems before applying these to SC lines?
AU: Distance relay problemsTransient fault studies essentialAutomatic test tool very useful
BR: Real-time digital simulation to verify behavior and performance of relays. Also used to optimize settings.
US: High quality records to verify models
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Q9: What are utility experiences with non-distance protection applications on series
compensated transmission lines?
JP: FM current differential as main protection with directional distance as back-up
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Q10: What are the advantages, disadvantages, technical challenges and cost implications of using
non-distance protection when compared to using distance protection on SC applications?
JP: Advantages of using current-based relay as main protection
Operating time of back-up distance well co-ordinated
270 line faults cleared by Main. Backup not involved and no misoperations
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Q10: What are the advantages, disadvantages, technical challenges and cost implications of using
non-distance protection when compared to using distance protection on SC applications?
UK: High charging current possible problem for current diff. Cross differential relay proposed option for double circuit lines.
Examples of new relay principles being researched – surge impedance, noise generated protection and boundary protection techniques
Importance of dynamic tests and international research and development collaboration
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Q10: What are the advantages, disadvantages, technical challenges and cost implications of using
non-distance protection when compared to using distance protection on SC applications?
US: Comparison of distance protection (with and without comms) and directional comparison and importance of performance and cost assessment
SE: Charging current compensation no longer a problem. Trend towards current differential.
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Q11 a): What are the current experiences with auto-reclosing on series compensated transmission lines?
Q11 b): What are the technical challenges and proposed solutions?
SE: Duty cycles for thyristor controlled capacitor bank elements outlined.
Challenge relating to multi-pole tripping and sequential reclosing.
SE: Good experience with ARC (3-pole tripping) even on TCSC
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BR: No UPFCs, but TCSCs successfully applied – No particular problems. Line protection set according to worst conditions
Q12: Have there been any problematic protection issues relating to the use of UPFCs experienced
by other utilities and what solutions are available?
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Q13: What other novel theoretical tools are available to assist in the analysis and
understanding of SC networks?
SE: Practical results of complex subject of informational analysis in Russia
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Q14: What influences of shunt capacitor banks on protection measurement are reported and
how are the effects mitigated?
CH: Large impact on the circulating currents and transient behaviour during line faults under weak infeed conditions. Close-to-zero V faults make direction determination difficultMore than 1 polarization signal for direction decision recommended
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PS-3Concluding Comments
Evidence of continued valuable work being done to improve the performance of the protection, control and monitoring of series compensated networks
New challenges in protecting series compensated and adjacent transmission lines are emerging and innovative techniques to deal with such challenges and also to enhance equipment performance continue to be developed
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PS-3Concluding Comments
Encouraging to see the high level of co-operation between manufacturers and utilities (evident from the number of joint papers) to solving application problems and also to improve protection equipment
It is also apparent that a thorough understanding of the subject is advantageous in order to ensure optimal use of the correct equipment for particular applications
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PS-3Concluding Comments
The importance and value added by collaboration through international bodies and working groups should not be underestimated
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