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![Page 1: 1 Paper Title Optimization of Electrical System for a Large DC Offshore Wind Farm by Genetic Algorithm M. Zhao, Z. Chen, F. Blaabjerg Institute of Energy.](https://reader036.fdocuments.us/reader036/viewer/2022070412/5697bf851a28abf838c87779/html5/thumbnails/1.jpg)
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Paper Title
Optimization of Electrical System for a Large DC Offshore Wind Farm by Genetic Algorithm
M. Zhao, Z. Chen, F. Blaabjerg
Institute of Energy Technology, Aalborg University
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Contents
∙ Introduction∙ Optimization Model∙ Genetic Optimization∙ Application Example∙ Summary
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Background
∙ Going to sea∙ Large investment∙ High cost in
Electrical system∙ Challenge in
optimization of Electrical System
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Optimization Model
Minimize Cost
Subject to
Objective Obj_Value = Cost - α(Rsys - Rmin)
Function∙ α is the penalty coefficient
minsysR R
Cost:
isystem
Cost price System Reliability Rsys
Reliability Threshold Rmin
Combined
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Reliability Calculation Introduction∙ Reliability Calculation Modeling
▫ Viewed as a graph▫ Stochastic network▫ Component in two states▫ Multiple terminals
∙ Component Reliability λ: Failure rate
r: Repair duration
∙ Reliability Definition:
1. >= 1 Operative paths
2. N Operative paths (√) N = Number of WT
3. >=M Operative paths (+) M < N
1(1 )jR r
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Reliability Calculation
∙ Step 1: Find an operative path L_i from all the wind turbines to PCC
∙ Step 2: Repeat Step 1 to Find all the possible operative paths
_ __
L i pq jj L i
R R
_ 1j
pq jj
R j operativeR
R j fail
_ __
sys L i pq ji i j L i
R R R
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Genetic Algorithm
ParentsSelected
goodindividuals
Evaluateusing fitness
function
Selection Operator
Newgeneration(Children)
Crossoveroperator
Mutation Operator
InitialPopulation
Convergent
Stop
No
Yes
• Deal with complex, multi-variables optimization problems
• Capable to find global optimum solution
• Flow chart of GA
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Optimization Structure
Data of componentsData of wind and grid
system
Possibleconfiguration
Predefineassumption and
rules
Knowledgedatabase
Costcalculation
ReliabilityEvaluation
Generateinitial N
configurations
Competitionand
reproduction
Final optimumconfiguration
Generic Algorithm
I nputI nput
Output
Not satisfied
satisfied
Evaluation
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Optimization Variables and Coding
∙ Encoding▫ The design of system is represent by some variables, which are
encoded into binary string.
∙ Decoding
1 0 0 1 1 0 0 0 1 0 1 0
X7X6
X5X4X3
X2
X11
1 2 3 4 5 6 7 8 9 10 11 12 13 14 150 0
X8 X9
Bi t i ndexBi t val ue
Opti mi zati onVari abl es
Binary String
Network ModelN=<V, F>
Parameter Database<Data_V, Data_F>
Decoding
NetworkSimplify
GeneticAlgorithm
Cost, ReliabilityCalculation
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Variable examples
∙ Local grid topology – X1
∙ DC-DC converter location – X2
Star
DC
WT
WT
Rectifier
DC/DC
Cluster
Rectifier
DC/DC
Cluster
DC/DC
Star
DC
WT
WT
Rectifier
DC/DC
Cluster
Rectifier
Star
DC
WT
WT
Rectifier DC/DC
DC/DC
Cluster
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GA Implementation
∙ Selection: Rank-based selection▫ Chromosomes are ranked according to fitness values▫ Selection operator:▫
◦ Less fitness value -> higher probability to be selected
∙ Crossover: Single-Point crossover.
∙ Mutation: Full bits mutation with variable probability ∙ Pm=Pm-ΔPm
∙ Feasibility Check
2 4( 1)( )
2( 1)
bias bias bias RandIndex N
bias
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Generation Updating
∙ Adaptive Generation Gap
▫ G=0.4+C((FAVG(t-1)-FAVG(t))/FAVG(t)) FAVG(t-1)>FAVG(t)
▫ G=0.4 FAVG(t-1)<FAVG(t)
C is a constant which determines how the improvement of fitness will influence G
Parent 1 Parent 2 Parent i Parent N
Fi tnessGood Bad
Chi l d 1 Chi l d N-1Chi l d j Chi l d N
Repl ace Repl ace
G * N
Generati on K
GA Operator
Generati on K+1 Parent 1 Parent 2 Chi l d 1 Chi l d j
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Application Example
∙ 2 MW wind turbines∙ 200 MW offshore wind farm∙ 150 km DC transmission
N Population size 20MAX_G Maximum generation 70Pc Probability of crossover 0.6Pm,init Initial probability of mutation 0.1Pm,step Step value of Pm. 0.0018Rmin Reliability threshold 0.5α Penalty coefficient 40C Replacement Ratio 5Bias Bias coefficient in selection 2.0
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Optimization Results
0 10 20 30 40 50 60 70500
520
540
560
580
600
620
640
660
680
700
ITERATION
FIT
NE
SS
VA
LUE
OR
CO
ST
Average FitnessMinumum FitnessAverage Cost
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Best 5 solutions
Chromosome Cost (MDDK)
Reliability
0x0A09 511.558 0.6473
0x0A29 512.058 0.6473
0x74A8 514.898 0.6663
0x0B28 517.788 0.663
0x0B6A 519.956 0.6872 WT Rectifier
Other Clusters
DC/DC INVERTERPCC
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Summary
∙ Electrical system of an offshore wind farm can be modeled as:
‘Network Data’ and ‘Component Parameters’
∙ Via defining variables to present a system design, Genetic Algorithm can be applied to optimize the electrical system.
∙ Objective: Minimum cost with required reliability .
∙ More factors shall be considered in the future.
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Thank You For Your Attention!