lecture 26 distribution systems professor tom overbye department of electrical and computer...
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Lecture 26Distribution Systems
Professor Tom OverbyeDepartment of Electrical and
Computer Engineering
ECE 476
POWER SYSTEM ANALYSIS
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Announcements
Be reading Chapter 14 Last homework is 12.3, 12.11, 14.15. Needs to be
done before the final, but not graded. Final exam is as given on the UIUC website. That
is, Tuesday Dec 13 from 7 to 10pm here (218 Ceramics). Final is comprehensive, with more emphasis on material
since exam 2. Three note sheets allowed (e.g., ones from previous two
exams and one new note sheet)
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Electricity Delivery
• Generation: 50-1300MVA, up to 20kV• Transmission: 400MVA @ 230kV up to 4000MVA @
765kV• Can include: HVDC, ac-dc links
• Subtransmission: 69-138kV• Can include: taps for large single customer
• Primary distribution substations: 15-200MVA, 2.2-46kV• Can include: LTC, capacitor banks, reclosers
• Distribution feeders: 4MVA @ 4.16kV up to 30MVA @ 34.5kV
• Secondary distribution: 5-5000kVA, 120-480V• Meters
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Electricity Delivery
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Electricity Delivery
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Primary Distribution
15kV class, 4 wire multigrounded is most common
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Primary Distribution
• Includes everything from the distribution substation to the distribution transformers
• Rural areas served by overhead lines• Urban areas served by underground systems• 3 common topologies
1. Radial
2. Loop
3. Network
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Primary Radial Systems
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Primary Radial Systems
• Three phase feeder mains of length 1 to 30 miles• Single phase laterals branch off main feeder• Try to balance the load on the 3 phases• Economical and widely used in low load density
areas• Reclosers are used on overhead lines to minimize
loss of load• Typically have 3 shots before lockout
• Sectionalizing fuses also reduce downtime
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Primary Radial Systems
Recloser: Remote operation switch:
Source: http://www.langley-eng.co.uk/langley_products/pole_mounted_switchgear.html
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Primary Radial Systems
• Capacitor banks:• Reduce voltage drop• Reduce losses• Improve power factor
• Are often switched off at night
Source: http://www.powercap.in/pole_mounted_capacitor.htm
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Primary Radial Systems
• Primary selective systems can be used as backup for critical loads such as hospitals
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Primary Loop Systems
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Primary Loop Systems
• Used where higher service reliability is required• Generally more expensive than radial systems• Feeder conductors are sized to feed entire loop• Loop systems can be used in underground
residential distribution (URD), where faults are infrequent but are usually permanent
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Primary Network Systems
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Primary Network Systems
• Very rare, found only in downtown areas of large cities
• Similar operating challenges as the transmission network (eg voltage regulation)
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Secondary Distribution
• Includes everything from the distribution transformer to the meters
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Secondary Distribution
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Secondary Distribution
• Distribution system must ensure customer voltage is within ANSI standards +/-5% (114-126V)
• Most problematic:• Voltage of first customer under light load• Voltage of last customer under peak load
• Load tap changers, voltage regulators, and shunt capacitors are used
• 4 types of secondary systems:• Individual distribution transformer per customer• Common secondary main• Secondary network• Spot network
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Secondary Distribution
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Individual Distribution Transformer
• The customer is directly connected to the primary feeder through a distribution transformer
• Commonly used for:• Rural areas• Large single customers• Voltage problems with
common secondary main
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Common Secondary Main
• Several customers share a secondary main
• Takes advantage of the diversity of loads:• A smaller transformer
is required• Sudden load changes
(eg a large motor starting) will have less effect on voltage
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Secondary Network
• High reliability• Multiple primary
feeders, each over-sized• More than 260 cities in
USA have secondary networks
• Requires comprehensive protection using relays, fuses, network protectors
• 208Y/120 or 480Y/277V
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Spot Network
• Used for single, concentrated load (eg high rise, mall)
• Usually 480Y/277V• High reliability
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Distribution Substation Transformers
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Distribution Substation Transformers
• Emergency loading:• 2 hour emergency rating (eg 170%) which gives time to
perform switching to alleviate loading• 10 or 30 day emergency rating (eg 155%) which gives
time to perform maintenance
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Distribution Substation Transformers
• Construction:• Contain mineral oil for insulation and cooling• Sealed and internal pressure is monitored
• Can have LTC and voltage regulator• Ratings:
• OA: passive cooling• FA: active cooling with fans only• FOA: active cooling with fans and oil circulation pump
• Nameplate transformer impedance usually given in % using OA rating as the MVA base
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Distribution Substation Transformers
Three phase 22.9kV Δ / 4.16kV Y, 12MVA OA, 16MVA FA1, 20MVA FA2, LTC on LV side
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Example 14.2
A distribution substation is served by two transmission lines, each connected to a 40MVA (FOA) transformer. The utility that owns the substation uses the following loading criteria:
• 128% for normal loading• 170% for 2 hour emergency• 155% for 30 day emergency
1.What is the normal rating of substation
2.What is the 2 hour emergency rating under single-contingency loss of a transformer (n-1)
3.What is the 30 day emergency rating for n-1
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Example 14.2
1. What is the normal rating of substation1.28 * (40+40) = 102.4MVA
2. What is the 2 hour emergency rating under single-contingency loss of a transformer (n-1)
1.7 * 40 = 68MVA
3. What is the 30-day emergency rating for n-11.55 * 40 = 62MVA
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Distribution Transformers
• Convert the primary distribution voltage (2.4 to 46kV) to secondary distribution voltage (<480V)
• Location: pole mounted, pad mounted, inside buildings, or underground
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Pole Mounted Transformers
• Liquid filled, 1 or 3 phase• Small (eg 25kVA)• Different levels of
protection, as required (eg fuse cutout, surge arrester, circuit breakers)
• Typically the protection is attached to the outside of the transformer
Source: http://www.freefoto.com/preview/13-20-72/Electricity-Transformer-mounted-on-a-Utility-Pole
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Pad Mounted Transformers
• Used for underground distribution
• Liquid filled or dry-type, 1 or 3 phase
• Medium sized (eg 225kVA)
Source: http://www.zeppaenterprises.com/electric/2000amptrans.jpg
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Network Transformers
• Located in vaults, supplies power to secondary networks or spot networks
• Liquid filled, 3 phase
• Large (300-2500kVA)
Source: http://www.howard-ind.com/howardtransformers/ Images/Network%20Transformer%20%28Vault%20Type%20Crop%.jpg
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Distribution Transformers
• Like distribution substation transformers, distribution transformers can also be overloaded
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Shunt Capacitors in Distribution
• Supply reactive power to inductive loads, thus reducing line losses and improving voltage
• Placement is important:• If only 1 load, place cap bank at load• Cap banks placed at distribution substations only reduce
I2R losses and voltage drops in transmission, not distribution
• Common to use 2/3 rule: place 2/3 of the required reactive power 2/3 down the feeder
• A combination of fixed and switched cap banks are used
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Example 14.3
XLOAD=40Ω, RLOAD=20Ω, XC=40Ω
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Example 14.3
Impedance seen by source without cap bank
Impedance seen by source with cap bank
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Problem 14.15
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Distribution Software
Many vendors
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Distribution Software
• Functions:• Analysis: faults, contingencies, reliability, harmonics,
losses• Optimization of cap placement, conductor size, switching,
transformer size, voltage• Operations (DSM, PF correction, voltage, relay
coordination)• Visualization• Outage management
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Distribution Reliability
• Goal: 1 interruption, max 2 hours in 1 year• Reliability indices:
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Distribution Reliability
• Momentary interruptions not included• Prolonged interruptions (eg storm) treated differently• Typical values• SAIFI: 1.1 interruptions/year• SAIDI: 90 minutes/year• CAIDI: 76 minutes/year• ASAI: 99.982%
• Utilities may be obligated to or may voluntarily report indices to state commissions
• Reports help identify weakest links, trends