Example: quiz answers

NEUTRAL GROUNDING RESISTORS - Post Glover Resistors

TECHNICAL INFORMATION1369 Cox Avenue Erlanger, KY 41018 USAP hone: 859-283-0778 Toll-Free: 800-537-6144 Fax: 859-283-2978 Web: the Electrical Industry Since 1892 Quality System Certified to ISO 9001 NEUTRAL GROUNDING RESISTORSWith over 130 years of combined industrial and utility experience,Post Gloverdelivers the industry s strongest, broadest and most technologically advanced products Glover has grown into the world s largest power resistor company, based on its industry leading positions in GROUNDING solutions and dynamic braking RESISTORS . Post Glover can be trusted to deliver cost-effective, reliable products to the Glover s factory in Erlanger, Kentucky integrates computer aided design and manufacturing with the industry s strongest engineering team for greater manufacturing capabilities and efficiencies.

7 PGR Document NG112-06 Table 2 – Comparative Performance Rating Table Comparative Performance Rating For Various Conditions Using Different Grounding Methods

Tags:

  Comparative, Resistor, Grounding, Neutral, Neutral grounding resistors

Information

Domain:

Source:

Link to this page:

Please notify us if you found a problem with this document:

Other abuse

Transcription of NEUTRAL GROUNDING RESISTORS - Post Glover Resistors

1 TECHNICAL INFORMATION1369 Cox Avenue Erlanger, KY 41018 USAP hone: 859-283-0778 Toll-Free: 800-537-6144 Fax: 859-283-2978 Web: the Electrical Industry Since 1892 Quality System Certified to ISO 9001 NEUTRAL GROUNDING RESISTORSWith over 130 years of combined industrial and utility experience,Post Gloverdelivers the industry s strongest, broadest and most technologically advanced products Glover has grown into the world s largest power resistor company, based on its industry leading positions in GROUNDING solutions and dynamic braking RESISTORS . Post Glover can be trusted to deliver cost-effective, reliable products to the Glover s factory in Erlanger, Kentucky integrates computer aided design and manufacturing with the industry s strongest engineering team for greater manufacturing capabilities and efficiencies.

2 Post Glover continues to improve through Kaizen events, third party certifications and regular audits of our internal ServiceThe industry s most experienced sales and engineering team and largest independent sales representative network insure a timely and accurate, same day response to your typical and complex applications. With 16 engineers on staff, we are poised to answer your product and application ProductsPost Glover prides itself on designing and manufacturing in accordance with all applicable standards, be they IEEE, ANSI, NEMA or IEC. Taking safety one step further, we offer the only UL listed high resistance GROUNDING unit in the industry, as well as UL and CSA offerings in low resistance GROUNDING RESISTORS and dynamic braking Document #NG112-06 Table of ContentsGrounding of Industrial Power Systems.

3 4 Definition of GROUNDING ..4 Characteristics of Ungrounded Systems ..4 System NEUTRAL GROUNDING ..5 Importance ..5 Solid GROUNDING ..5 Resistance GROUNDING ..6 Low Resistance ..6 High Recap ..7 comparative Performance Rating Table ..7 Rating & Testing NEUTRAL GROUNDING RESISTORS ..8 IEEE-32 Standards ..8 Time Rating ..8 Te st s ..8 CSA Standards ..9 Selection of NEUTRAL GROUNDING Factors to Consider ..10 The Selection Process ..10 Other Methods of GROUNDING ..12 Single Phase Transformer & Loading resistor ..12 GROUNDING Transformers ..12 Zigzag ..13 Wye-Delta ..14 Alternate Wye-Delta ..14 Specifications ..15 NEUTRAL GROUNDING RESISTORS ..15 High Voltage, Low Resistance ..15 Low or Medium Voltage, High Resistance ..16 Zigzag GROUNDING Transformers.

4 17 Glossary of Terms ..184 PGR Document #NG112-06 GROUNDING of Industrial Power SystemsDefinition of GroundingThe term GROUNDING is commonly used in the electrical industry to mean both equipment GROUNDING and system GROUNDING . Equipment GROUNDING means the connection of earth ground to non-current carrying conductive materials such as conduit, cable trays, junction boxes, enclosures and motor frames. System GROUNDING means the deliberate connection of earth ground to the NEUTRAL points of current carrying conductors such as the NEUTRAL point of a circuit, a transformer, rotating machinery, or a system, either solidly or with a current limiting device. Figure 1 illustrates the two types of of Ungrounded SystemsAn ungrounded system is one in which there is no intentional connection between the conductors and earth ground.

5 However, in any system, a capacitive coupling exists between the system conductors and the adjacent grounded surfaces. Consequently, the ungrounded system is, in reality, a capacitively grounded system by virtue of the distributed capacitance. This is shown in Figure 2. Under normal operating conditions, this distributed capacitance causes no problems. In fact, it is beneficial, because it establishes, in effect, a NEUTRAL point for the system, as shown in Figure 3a. As a result, the phase conductors are stressed at only line-to- NEUTRAL voltage above , problems can arise under ground fault conditions. A ground fault on one line results in full line-to-line voltage appearing throughout the system. Thus, a voltage times the normal voltage is present on all insulation in the system, as shown in Figure 3b.

6 This situation can often cause failures in older motors and transformers, due to insulation interaction between the faulted system and its distributed capacitance may cause transient overvoltages (several times normal) to appear from line to ground during normal switching of a circuit having a line to ground fault (short). These overvoltages may cause insulation failures at points other than the original fault. In addition, a second fault on another phase may occur before the first fault can be cleared. This can result in very high line to line fault currents, equipment damage and disruption of both addition to the cost of equipment damage, ungrounded systems present fault locating problems. This involves a tedious process of trial and error, first isolating the correct feeder, then the branch, and finally the equipment at fault.

7 The result is unnecessarily lengthy and expensive the drawbacks of an ungrounded system, it does have one main advantage. The circuit may continue in operation after the first ground fault, assuming it remains as a single fault. This permits continued production, until a convenient shutdown can be scheduled for voltagePhase A and B are now at fullline-to-line voltage above groundEach phase is atline-to-neutralvoltage above groundNeutral pointestablishedby distributioncapacitancePhase C is now at groundpotential. Virtually no fault currentflows as there is no returnpath back to the sourceABCCBA(a) NORMAL OPERATION (b) GROUND FAULT ON PHASE C Voltage relationshipsFIGURE 3 Phase A conductorsPhase B conductorsPhase C conductorsDelta configurationFIGURE 2 Transformer bankMetal enclosuresNeutralBonding jumperSourceToloadSYSTEMGROUNDINGEQUIPME NTGROUNDINGFIGURE 15 PGR Document #NG112-06 System NEUTRAL GroundingImportanceThis section is devoted to the proven benefits of proper system GROUNDING , and in particular, the added advantages of resistance (current limited) intentional connection of the NEUTRAL points of transformers, generators and rotating machinery to the earth ground network provides a reference point of zero volts.

8 This protective measure offers many advantages over an ungrounded system, including: Reduced magnitude of transient overvoltages Simplified ground fault location Improved system and equipment fault protection Reduced maintenance time and expense Greater safety for personnel Improved lightning protection Reduction in frequency of faultsSolidly NEUTRAL Grounded Systems Offer Partial ProtectionA solidly grounded system is one in which the NEUTRAL points have been intentionally connected to earth ground with a conductor having no intentional impedance, as shown in Figure 4. This partially reduces the problem of transient overvoltages found on the ungrounded system, provided the ground fault current is in the range of 25 to 100% of the system three phase fault current.

9 However, if the reactance of the generator or transformer is too great, the problem of transient overvoltages will not be solidly grounded systems are an improvement over ungrounded systems, and speed up the location of faults, they lack the current limiting ability of resistance GROUNDING and the extra protection this provides. Solidly grounded systems are usually limited to older, low voltage applications at 600 volts or 4 Advantages of Grounded NEUTRAL SystemsResistance GROUNDING is by far the most effective and preferred method. It solves the problem of transient overvoltages, thereby reducing equipment damage. It accomplishes this by allowing the magnitude of the fault current to be predetermined by a simple ohms law calculation (see Table 1). Thus the fault current can be limited, in order to prevent equipment damage.

10 In addition, limiting fault currents to predetermined maximum values permits the designer to selectively coordinate the operation of protective devices, which minimizes system disruption and allows for quick location of the fault. There are two broad categories of resistance GROUNDING : low resistance and high resistance. In both types of GROUNDING , the resistor is connected between the NEUTRAL of the transformer secondary and the earth ground, as shown in Figure SecondaryLine to NEUTRAL Voltage EqualsSystem Voltage Divided by toNeutral VoltageSystem VoltageNeutralGroundingResistorFIGURE 5 Where: I = Limit of Fault Current E = Line-to- NEUTRAL Voltage of System R = Ohmic Value of NEUTRAL GROUNDING resistor E RI = Table 16 PGR Document #NG112-06 Low Resistance Grounded NeutralLow resistance GROUNDING of the NEUTRAL limits the ground fault current to a high level (typically 50 amps or more) in order to operate protective fault clearing relays and current transformers.


Related search queries