EH2741 Communication and Control in Electric Power Systems Lecture 2
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1 KTH ROYAL INSTITUTE OF TECHNOLOGY EH2741 Communication and Control in Electric Power Systems Lecture 2 Lars Nordström larsno@kth.se
2 Course map
3 Outline Transmission Grids vs Distribution grids Primary Equipment Substations Power System Control Fundamentals Frequency Control Voltage Control
4 Power network structure Transmission system all major generating stations and main load centers voltage levels (typically, 230 kv and above). Sub-transmission system transmits the transmission substations to the distribution substations. Large industrial customers Distribution system power to the individual customers between 4.0 kv and 34.5 kv 4
5 Transmission Grids Meshed Long distances High Voltages Connects bulk generation
6 Meshed MV Grid (Distribution level)
7 Low Voltage Feeders
8 Primary Equipment 8
9 Power Transformer Transfers energy between different voltage level Higher voltages are single pole Can shift phase angles
10 Tap changer
11 Series capacitor Compensates for inductance in long power lines Connected manually/mechanically
12 Shunt capacitors Compensates for inductive loads by drawing leading current
13 Shunt Reactance Consumes reactive power Compensates for shunt capacitances in long power lines
14 Disconnectors Disconnects equipment Cannot break load currents
15 Circuit Breakers Basic types divided according to how the arc is extinguished Vaccum insulated Gas insulated (SF6) Oil insulated Air insulated
16 SVC Shunt capacitor with greater controlability Capacitor banks in parallell with tyristor controlled inductance Part of the FACTS concept
17 TCSC Thyristor controlled series capacitor Series capacitor with greater controllability Series capacitor in parallel with inductance Part of the FACTS concept
18 Substations 18
19 Transmission Substation Open air, vaccum insulated Gas Insulated
20 Distribution Substation kv range Equipment housed in compartments Separate compartments for Disconnector Breaker Feeder Measurement
21
22 Design Criteria for Substations Reliability Operation Flexibility Maintenance Flexibility Costs
23 Single Bus Configuration Advantages: Lowest cost Small land area Easily expandable Simple in concept and operation Disadvantages: Single bus arrangement has the lowest reliability Failure of a bus fault causes loss of entire substation Maintenance switching can complicate
24 Sectionalised Bus Advantages: Flexible operation Isolation of bus sections for maintenance Loss of only part of the substation for a breaker failure or bus fault Disadvantages: Additional circuit breakers needed for sectionalizing, thus higher cost Sectionalizing may cause interruption of non-faulted circuits
25 Main & Transfer Bus Advantages: Maintain service and protection during circuit breaker maintenance Reasonable in cost Fairly small land area Easily expandable Disadvantages: Additional circuit breaker needed for bus tie Protection and relaying may become complicated Bus fault causes loss of the entire substation
26 Ring bus configuration Advantages: Flexible operation High reliability Double feed to each circuit No main buses Expandable to breaker-and-a-half configuration Isolation of bus sections and circuit breakers for maintenance without circuit disruption Ring Bus Disadvantages: During fault, splitting of the ring may leave undesirable circuit combinations Each circuit has to have its own potential source for relaying Usually limited to 4 circuit positions, although larger sizes up to 10 are in service. 6 is usually the maximum terminals for a ring bus
27 Breaker & a half configuration Advantages: Flexible operation and high reliability Isolation of either bus without service disruption Isolation of any breaker for maintenance without service disruption Double feed to each circuit Bus fault does not interrupt service to any circuits All switching is done with circuit breakers Disadvantages: One-and-a-half breakers needed for each circuit More complicated relaying as the center breaker has to act on faults for either of the 2 circuits it is associated with Each circuit should have its own potential source for relaying
28 Double breaker Advantages: Flexible operation and very high reliability Isolation of either bus, or any breaker without disrupting service Double feed to each circuit No interruption of service to any circuit from a bus fault Disadvantages: Very high cost 2 breakers per circuit
29 Power System Control Fundamentals
30 Operational states Normal state, all system variables are within the normal range Alert state, security level falls below a certain limit of adequacy because of a disturbance generation shifting (security dispatch), Increased reserve Normal Emergency state, severe disturbance fault clearing, generation tripping, load curtailment Restorative Alert In extremis, cascading outages load shedding and controlled system separation In Extremis Emergency Restorative state, control action is being taken to reconnect all the facilities and to restore system load. 30
31 Load & generation balance Match between electric load and generation Frequency is an indication Balanced system, 50/60 Hz Net power surplus, frequency increases Generation Load Net power shortage, frequency decreases ΔP Δf 31
32 Operational requirement Follow the change in the load demands Supply energy at minimum cost and environmental impact. Power quality Frequency Voltage Level of reliability. 32
33 Why constant frequency Frequency fluctuations are harmful to electrical appliances. Speed of three phase ac motors proportional to the frequency. (N=120f/p) The blades of steam and water turbines are designed to operate at a particular speed. Frequency variation leads to speed variation and results in mechanical vibration 33
34 Why constant voltage Over voltage and under voltage Electric motors will tend to run on over speed when they are fed with higher voltages resulting vibration and mechanical damage. Over voltage may also cause insulation failure. For a specified power rating, lower voltage results in more current and this results in heating problems. (P=VI) 34
35 Transport of electric power Apparent power (Complex power) (S) [VA] S=VI*=P+jQ Electric power P [W] Reactive Power Q [VAR] Two ways to increase the transported power Increase current I Larger conductor cross-section Increase voltage U More insulation Two ways to transport electricity Alternating current (AC) Direct current (DC) 35
36 Control parameters Active Power and Frequency Balance of load and generation Load-Frequency Control Reactive Power and Voltage Automatic voltage regulator capacitors and reactors Tap-changing transformers 36
37 Frequency control actions Generation side Control Demand side control Primary Control Governor Δf Power System U pri Generator df dt f UFLS U Sec U UFLS ΔP tie AGC/LFC Secondary Control Δf U CT Operator Connection and Tripping of power Emergency Control 37
38 Primary Frequency Control Generation is controlled by mechanical output of the prime mover The speed governor senses the change in speed (frequency) Actions taken within 5 30 seconds by generator droop control 38
39 Need of primary control reserves UCTE (Continental Europe) 3000 MW or equivalent of two 1500 MW nuclear plants or lines trip at the same time Eastern Interconnection (USA) 3000 MW = largest interconnection NORDEL (North Europe) Continuous control = 600 MW/0.1 Hz Frequency response = 1000 MW, if frequency drop to 49,5 49,9 Hz 39
40 Secondary control reserves Should reset the primary control reserves in 5 15 minutes to be ready for next disturbance Should correct the frequency deviation within allowable limit +/- 0.1 Hz in Nordel +/- 0.2 Hz in UCTE 40
41 Supplementary/Secondary Control Frequency deviation feedback PI or I controller Connected to economic dispatch system 41
42 Under frequency Load Shedding (UFLS) To prevent extended operation of separated areas at low frequency, load shedding schemes are employed. A typical scheme for USA: 10% load shed when frequency drops to 59.2 Hz 15% additional load shed when frequency drops to 58.8 Hz 20% additional load shed when frequency reaches 58.0 Hz 42
43 Example 43
44 Voltage Control Control of voltage levels is carried out by controlling the production, absorption, and flow of reactive power Generating units provide the basic means of voltage control. synchronous generators can generate or absorb Q depending on excitation automatic voltage regulator continuously adjusts excitation to control armature voltage primary source of voltage support 44
45 Voltage Control Hierarchy
46 Voltage Control Additional means are usually required to control voltage throughout the system: sources or sinks of reactive power, such as shunt capacitors, shunt reactors, synchronous condensers, and static var compensators (SVCs) line reactance compensators, such as series capacitors regulating transformers, such as tap-changing transformers and boosters 46
47 Example: Shunt Compensation a) shunt compensation b) phasor diagram without compensation c) phasor diagram with compensation 47
48 What s next? In the ARISTO computer lab, you will try and test how these control actions impact the voltage and the frequency of the power system. Hopefully getting a first intuitive feeling for the concepts Complete mastering of these concepts, design of control strategies is the topic of specific courses on control and stability of power systems, e.g. EG2110 and EG
49 Exercises - Scenarios Task 1: Voltage Support Injection / Consumption of reactive power Task 2: Voltage Collapse in a power system (N-1 Operation) Operation of Line Distance Protection (LDP) relays Islanding of power system due to voltage instability Task 3: Frequency control along with load shedding Primary Frequency Control (Governor Droop Characteristics) Secondary Frequency Control (Manual) Under Frequency Load Shedding 49
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