initialisation et load flow sous emtp · 3 pierre rault / emtp-rv user group / june 20th 2011...
TRANSCRIPT
![Page 1: Initialisation et Load Flow sous EMTP · 3 Pierre RAULT / EMTP-rv user group / June 20th 2011 Context EWEA’s 20 year offshore network development plan Source: EWEA 2009 Currently](https://reader036.vdocuments.mx/reader036/viewer/2022071417/611483f2c45ccd60f47005f0/html5/thumbnails/1.jpg)
Initialisation and Load Flow with EMTP RV for Multiterminal DC grids P. RAULT (PhD Student) Supervisors: F. Colas (L2EP) X. Guillaud (L2EP) S. Nguefeu (RTE)
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2 Pierre RAULT / EMTP-rv user group / June 20th 2011
Outline
1) Context
2) Find DC steady state solution
3) Initialize the DC network
4) Converter initialization
5) Initialize the overall system
6) Conclusion & Improvement
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3 Pierre RAULT / EMTP-rv user group / June 20th 2011
Context
EWEA’s 20 year offshore network development plan
Source: EWEA 2009
Currently operating offshore cable Under construction or planned offshore cable Under study by TSO Under study by TSO/EWEA recommendation Proposed by EWEA in the 2020 timeframe Proposed by EWEA in the 2030 timeframe Proposed offshore node Concession and development zones
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4 Pierre RAULT / EMTP-rv user group / June 20th 2011
The TWENTIES wind energy project Secure large-scale integration of wind power into the European electricity grid • Demonstration project • Lunched by EU • 62 M€ (32M€ Directly provided by EU) • 26 Electrical companies & Research institutions • 10 Member states are represented • Coordinated by Red Eléctrica de España
RTE task: Improving safety and security for offshore wind generation • Control & protection to roll out HVDC grid
Further information • http://www.twenties-project.eu
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5 Pierre RAULT / EMTP-rv user group / June 20th 2011
Context: My work
Multiterminal HVDC network
How can we control this mesh HVDC grid?
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6 Pierre RAULT / EMTP-rv user group / June 20th 2011
Outline
1) Context
2) Find DC steady state solution
3) Initialize the DC network
4) Converter initialization
5) Initialize the overall system
6) Conclusion & Improvements
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7 Pierre RAULT / EMTP-rv user group / June 20th 2011
Example of 4 terminals
𝐼𝐷𝐶2 𝐼𝐷𝐶1
𝐼𝐷𝐶4
𝑉𝐷𝐶1 𝑉𝐷𝐶2
𝑉𝐷𝐶4
𝑅12
𝑅2
4
𝐼𝐷𝐶3
𝑉𝐷𝐶3
𝑅2
3
𝑅34
𝑅 =
𝑅11 𝑅12 𝑅13 𝑅14
𝑅21 𝑅22 𝑅23 𝑅24
𝑅31 𝑅32 𝑅33 𝑅34
𝑅41 𝑅42 𝑅43 𝑅44
Resistor matrix
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8 Pierre RAULT / EMTP-rv user group / June 20th 2011
Steady state equations
Voltage controlled
Current controlled
𝐼12 = (𝑉𝐷𝐶1−𝑉𝐷𝐶2
)/ 𝑅12
𝐼13 = (𝑉𝐷𝐶1−𝑉DC3
)/ 𝑅13
𝐼14 = (𝑉DC1−𝑉𝐷𝐶4
)/ 𝑅14
𝐼23 = (𝑉DC2−𝑉DC3
)/ 𝑅23
𝐼24 = (𝑉𝐷𝐶2−𝑉DC4
)/ 𝑅24
𝐼34 = (𝑉DC3−𝑉𝐷𝐶4
)/ 𝑅34
𝐼𝐷𝐶1= 𝐼12 + 𝐼13 + 𝐼14 + 𝑉DC1
/𝑅11
𝑉DC2= 𝐼12 − 𝐼23 − 𝐼24 + 𝐼DC2
. 𝑅22
𝑉DC3= 𝐼13 + 𝐼23 − 𝐼34 + 𝐼𝐷𝐶3
. 𝑅33
𝑉DC4= 𝐼14 + 𝐼24 + 𝐼34 + 𝐼DC4
. 𝑅44
&
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9 Pierre RAULT / EMTP-rv user group / June 20th 2011
Find steady state solution = solve matrix equation
Voltage controlled
Current controlled
𝐼𝐷𝐶1
𝑉𝐷𝐶2
𝑉𝐷𝐶3
𝑉𝐷𝐶4
𝐼12
𝐼13
𝐼14
𝐼23
𝐼24
𝐼34
=
0 0 0 0 1 1 1 0 0 00 0 0 0 𝑅22 0 0 −𝑅22 −𝑅22 00 0 0 0 0 𝑅33 0 𝑅33 0 −𝑅33
0 0 0 0 0 0 𝑅44 0 𝑅44 𝑅44
0 −1/𝑅12 0 0 0 0 0 0 0 00 0 −1/𝑅13 0 0 0 0 0 0 00 0 0 −1/𝑅14 0 0 0 0 0 00 1/𝑅23 −1/𝑅23 0 0 0 0 0 0 00 1/𝑅24 0 −1/𝑅24 0 0 0 0 0 00 0 1/𝑅34 −1/𝑅34 0 0 0 0 0 0
𝐼𝐷𝐶1
𝑉𝐷𝐶2
𝑉𝐷𝐶3
𝑉𝐷𝐶4
𝐼12
𝐼13
𝐼14
𝐼23
𝐼24
𝐼34
+
1/𝑅11 0 0 00 𝑅22 0 00 0 𝑅33 00 0 0 𝑅44
1/𝑅12 0 0 01/𝑅13 0 0 01/𝑅14 0 0 0
0 0 0 00 0 0 00 0 0 0
𝑉𝐷𝐶1
𝐼𝐷𝐶2
𝐼𝐷𝐶3
𝐼𝐷𝐶4
Input vector
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10 Pierre RAULT / EMTP-rv user group / June 20th 2011
Outline
1) Context
2) Find DC steady state solution
3) Initialize the DC network
4) Converter initialization
5) Initializing the overall system
6) Conclusion & Improvements
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11 Pierre RAULT / EMTP-rv user group / June 20th 2011
Strategy to start DC simulation from steady state
1
• Input vector
• Resistor matrix
2
• Build the steady state matrix
• Run DC steady state solution
2 • Transmit SS solution to DC initializing bloc
3
• Find Steady-state solution and start from steady-state
4 • Display results
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12 Pierre RAULT / EMTP-rv user group / June 20th 2011
Build a Marix / LF DC
1) Develop method in JavaScript for matrix
operation
2) Program a java script application for DC load flow
1) Usable with any input data
1 & 2
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13 Pierre RAULT / EMTP-rv user group / June 20th 2011
Changing global data 2 3
1) Create new structure named “Station” AC voltage Active power Reactive power DC voltage
2) Get global data object var cct = currentCircuit();
var attr=cct.getAttribute('GlobalDataTag');
oGlobalData=getGlobalValue(attr);
3) Save globale data oGlobalData.station=station;//save new global data object
oGlobalData.confirm_device_updates=true;
cct.setAttribute('GlobalDataTag',attr);
4) update global data in all the circuit parseScriptFile('update_variables_in_black_boxes.dwj’)
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14 Pierre RAULT / EMTP-rv user group / June 20th 2011
Using a table of global data in « Black box device »
Data for station n°1
Initialization For each converter
2 3
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15 Pierre RAULT / EMTP-rv user group / June 20th 2011
Initialization establishing DC voltage (« Π »)
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16 Pierre RAULT / EMTP-rv user group / June 20th 2011
1) Currents are well initialized 2) There is no transient
Current Voltage
1249,7 𝐴 (𝐿𝐹 = 1250)
−625,32 𝐴 (𝐿𝐹 = −625)
−937,8 𝐴 (𝐿𝐹 = −937,5)
313,46 𝐴 (𝐿𝐹 = 313.77)
Initialization establishing DC voltage (« Π »)
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17 Pierre RAULT / EMTP-rv user group / June 20th 2011
1278 𝐴 (𝐿𝐹 = 1250)
−596 𝐴 (𝐿𝐹 = −625)
−908 𝐴 (𝐿𝐹 = −937,5)
342.6 𝐴 (𝐿𝐹 = 313.77)
Initialization establishing DC voltage (« FDQ »)
1) There is no transient 2) Small current error (<1,24%)
Current Voltage
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18 Pierre RAULT / EMTP-rv user group / June 20th 2011
Outline
1) Context
2) Find DC steady state solution
3) Initialize the DC network
4) Converter initialization
5) Initialize the overall system
6) Conclusion & Improvements
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19 Pierre RAULT / EMTP-rv user group / June 20th 2011
How start a time-domain solution using converter AC/DC?
1
• Put AC load flow bus
• Fill it with DC results
2 • Start the EMTP-rv’s AC load flow
3
• Start Steady-state solution from Load-Flow solution
4
• Step between steady-state solution and time simulation
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20 Pierre RAULT / EMTP-rv user group / June 20th 2011
AC Load Flow for initializing the AC part of each converter
Converter disconnected
PQ 𝑃𝑚, 𝑄𝑚
SB 𝑉𝑔, 𝛿𝑔
No participation to the load flow calculation
Using short circuit
impedance
Data from DC steady state calculations
?
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21 Pierre RAULT / EMTP-rv user group / June 20th 2011
Starting simulation (Power part)
+
Initialization DC voltage
Converter unplugged
PQ 𝑃𝑚, 𝑄𝑚
SB 𝑉𝑔, 𝛿𝑔
Generator & impedance initialized
by the SB node Generator initialized
by the PQ node
Voltage capacitor no initialized
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22 Pierre RAULT / EMTP-rv user group / June 20th 2011
Initialization of the control part
Current Controller
V
Voltage Controller
+ -
𝑖𝑠 𝑟𝑒𝑓
𝑢𝑠 𝑟𝑒𝑓 Power
Controller +
- 𝑃𝑔 𝑟𝑒𝑓
𝑖𝑠 𝑟𝑒𝑓
𝑡𝑟5% = 100𝑚𝑠 𝑡𝑟5% = 100𝑚𝑠
𝑡𝑟5% = 10𝑚𝑠
Control choice
1 2
PWM
Controllers have to be initialized
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23 Pierre RAULT / EMTP-rv user group / June 20th 2011
How initialize a controller from EMTP steady state solution?
Park
𝑖𝑠𝑎(0) 𝑖𝑠𝑏(0) 𝑖𝑠𝑐(0)
𝛿𝑔(0)
𝑖𝑠𝑑(0) 𝑖𝑠𝑞(0)
Park
𝑣𝑚𝑎(0) 𝑣𝑚𝑏(0) 𝑣𝑚𝑐(0)
𝛿𝑔(0)
𝑣𝑚𝑑(0) 𝑣𝑚𝑞(0)
PI + -
+ +
init
𝐿𝜔
𝑖𝑠𝑑 𝑟𝑒𝑓 = 𝑖𝑠𝑑(0)
𝑖𝑠𝑑(0)
𝑖𝑠𝑞(0)
𝑣𝑚𝑑(0) 0 +
+
𝑣𝑔𝑑(0)
𝑖𝑛𝑖𝑡 = 𝑣𝑚𝑑 0 − 𝑣𝑔𝑑 0 − 𝐿𝜔𝑖𝑠𝑞(0)
Example : Cuurent controller
Measures & transformations
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24 Pierre RAULT / EMTP-rv user group / June 20th 2011
Initializing example: Current controller
PI + -
+ +
init
𝐿𝜔
𝑖𝑠𝑑 𝑟𝑒𝑓
𝑖𝑠𝑑
𝑖𝑠𝑞
𝑣𝑚𝑑 +
+
𝑣𝑔𝑑
𝑖𝑛𝑖𝑡 = 𝑣𝑚𝑑 0 − 𝑣𝑔𝑑 0 − 𝐿𝜔𝑖𝑠𝑞(0)
Current controller
Initialization block diagram
init
𝑣𝑚𝑑 Hold t0
Hold t0 𝑣𝑔𝑑
𝑖𝑠𝑞 Hold t0
- +
𝐿𝜔
- +
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25 Pierre RAULT / EMTP-rv user group / June 20th 2011
Transition initialization/simulation
Converter unplugged
t=0 (steady state solution)
+
t>0
• Ideal switches are used between 2 configurations
• Change before the first calculation step
Converter plugged
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26 Pierre RAULT / EMTP-rv user group / June 20th 2011
Outline
1) Context
2) Find DC steady state solution
3) Initialize the DC network
4) Converter initializing
5) Initialize the overall system
6) Conclusion & Improvements
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27 Pierre RAULT / EMTP-rv user group / June 20th 2011
Time-domain simulation with MTDC and AC grids
1
• Start DC steady state solution
• Put results in global data
2
• Fill PQ node with corresponding global data
• Start AC load flow
3 • Start Steady-state solution from Load-Flow
solution
Procedure to follow
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28 Pierre RAULT / EMTP-rv user group / June 20th 2011
Outline
1) Context
2) Find DC steady state solution
3) Initialize the DC network
4) Converter initializing
5) Initializing the overall system
6) Conclusion & Improvements
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29 Pierre RAULT / EMTP-rv user group / June 20th 2011
Conclusion
1) Calculation of a DC steady state in JavaScript (Matrix operations)
2) Creation of global data in a JavaScript file
3) Use of these data to initialize a AC load flow
4) Initialization of controllers from AC load flow results
5) Startup of time-domain simulation AC/DC from steady state
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30 Pierre RAULT / EMTP-rv user group / June 20th 2011
Improvement & further work
1) Initialize measure filters
2) Initialize a detailed converter
3) Use a file to initialize simulation data
4) Use EMTP-rv features to initialize DC
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Thank you for your attention!
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32 Pierre RAULT / EMTP-rv user group / June 20th 2011
APPENDIXES
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33 Pierre RAULT / EMTP-rv user group / June 20th 2011
Structure « Station »
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34 Pierre RAULT / EMTP-rv user group / June 20th 2011
Put LF results in table of structure
Each station is represented by a structure of index i