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Transcript of EPR ‘Fundamentals of Calculation of Earth Potential Rise in the Underground Power Distribution...
![Page 1: EPR ‘Fundamentals of Calculation of Earth Potential Rise in the Underground Power Distribution Cable Network’ by Ashok K. Parsotam (1997) available free.](https://reader036.fdocuments.in/reader036/viewer/2022062321/56649e155503460f94affecb/html5/thumbnails/1.jpg)
EPR
‘Fundamentals of Calculation of Earth Potential Rise in the Underground Power Distribution Cable Network’ by Ashok K. Parsotam (1997)•available free from NZCCPTS website (companion paper to Cable Sheath Bonding Guide)
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Usefulness of Ashok Parsotam’s paper can be treated as a guide or reference
document includes methods for calculating line
and cable series impedance parameters for use in load flow and short circuit analysis
practical guide for engineers with basic knowledge of power system analysis
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AS/NZS 3835:2006 Earth Potential Rise – Protection of telecommunications network users, personnel and plant
Part 1 Code of PracticePart 2 Application GuideHB 219 Worked Examples for
Application Guide (handbook)
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Usefulness of AS/NZS 3835:2006 good outline of EPR examples explained in Application
Guide (case studies) detailed examples in handbook
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CCPT Induced Voltages Handbooks
HB 101-1997 (CJC 5) Co-ordination of Power and Telecommunications – Low Frequency Induction (LFI): Code of Practice for the mitigation of hazardous voltages induced into telecommunications lines
Also HB 102-1997 (CJC 6) Application Guide to the LFI Code
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Both available via SAI GlobalLFI Code $18.70LFI Application Guide $96.84
Usefulness of CCPT Handbooksprovide guidance for calculating induced voltages and mitigation options
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NZCCPTS Power Co-ordination Overview Guide
Usefulness
Broad overview of the subject (i.e. covers the range of issues of relevance)Refers to detailed guides for specific areas of concernFills in the gaps not covered by the specific guides
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A NZCCPTS Neutral Earthing Resistor or Reactors (including Resonant Reactance Earthing) Guide
sets out recommended practices which should be used for the planning, design, and co-ordination of power systems, when it is desired to install neutral current limiting devices to limit the flow of current during a phase to earth fault
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Focuses on the control of induced voltage or earth potential rise hazard to telecommunication users, staff and plant. Principles apply to installations for any purposedescribes different devices and methods of earthingeffects of fault currents on EPR and on induced voltages
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describes methods of mitigating EPR and induction hazard, for telecommunication networks
covers AC network benefits of installing NER’s
includes details of 10 year study on using NER’s
provides details of an application of resonant earthing installation
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Examples and Experience installation in Sockburn area
(Christchurch) to mitigate serious telecommunication damage
Darfield (Canterbury) resonant earthing installation
Availability Free PDF download from NZCCPTS
website
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B1 NZCCPTS Single Wire Earth Return Systems (SWER) Guide
sets out conditions and procedures which should be used for the planning, design, construction and extension of single wire return high voltage power lines so that they may co-exist satisfactorily with telecommunication lines and systems
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describes how to determine and calculate the level of interference caused to nearby telecommunication circuits
identifies methods to reduce interference
describes procedures to control EPR hazards around return electrodes
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B2 EEA Guide for HV SWER Systems developed from NZECP41 provides basic design information in
relations to the earthing of SWER systems, and performance requirements in terms of associated hazard and interference effects and limits
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deals specifically with SWER lines that may exceed the load current limit set out ECP41
Available as free PDF download from EEA website
Note: NZCCPTS and EEA Guides have much in common.
Examples of SWER Installations
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C NZCCPTS Application Guide for Cable-Sheath Bonding Guide
sets out the technical issues and implications for nearby telecommunication network plant of various cable sheath bonding arrangements for high voltage power cables between substations
describes different bonding systems
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summarizes aspects relevant to causes and magnitude of hazardous electrical interference to nearby telecommunication plant
outlines legislative requirements summarizes impact of various cable
sheath bonding systems on both power and telecommunication networks
outlines advantages and disadvantages on various cable sheath bonding systems
illustrates method of calculation
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Example Transpower 220kV substation cable
connection to nearby Tangiwai pulp mill – initially cable sheath bonded at mill end only, required bonding at both ends to avoid telecommunication damage
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Availability Free PDF download from NZCCPTS
website
Note: Cable Sheath Bonding Guide available together with companion paper ‘Fundaments of Calculation of Earth Potential Rise in the Underground Power Distribution Cable Network’
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D NZCCPTS Cable Separations Guide Specifies minimum separations between
buried power (HV and LV) cables and telecommunication cables
Main strength is the provision of associated ‘Application Rules’, which detail acceptable exceptions to these separations
Appendix A discusses how these separations and rules were derived
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E NZCCPTS Cost Apportioning Guide
Specifies the principles for apportioning the cost of mitigating Power Co-ordination hazards or noise interference
Common sense principles
Only 5 pages long
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General
Both parties must agree problem requires mitigation
Cost apportioning principles apply to the cost of the ‘Minimum Overall Cost Option’
Party doing the mitigation is independent of who pays for it
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New Works/Alterations
Party proposing the New Works or Alterations pays 100%
Existing Works
Both parties share the cost 50:50
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Also sections on:
Costs of investigation
Definition of ‘Existing Works’
Situations that are a combination of ‘New Works’ and ‘Existing Works’
Dispute resolution
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