Start-Up of Combined Cycle Power Plants - HD- · PDF fileStart-Up of Combined Cycle Power...
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IFAC World Congress - Milano 2011Workshop on Hierarchical and Distributed MPC:
Algorithms and Applications
Start-Up of Combined Cycle Power Plants
A. Tica, H Gueguen, D. Dumur - SUPELECD. Faille, F. Davelaar - EDF
HD−MPC
SUPELEC
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Introduction 2/23
General context
Diffusion of Combined Cycle Power Plants (CCPP)
EfficiencyLower pollutant emissions
Production to consumption fit
Partial load (ancillary services)Frequent start-up and shut-down
Flexibility Improvement
Reduction of start-up and shut-down timeAvoidance of start-up failureMinimization of life-time consumption
CCPP are complex plants with numerous systems and sub-systems
Start-Up of Combined Cycle Power Plants — H. Gueguen HD-MPC
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Introduction 3/23
Objectives
How can MPC control help to reduce start-up time whilesaving life-time consumption?
How can Distribution and Hierarchy help to design andimplement control?
How can design models (Modelica) of the plant be used foroperationnal phases?
Start-Up of Combined Cycle Power Plants — H. Gueguen HD-MPC
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Combined Cycle Power Plants 4/23
Schematic view
Start-Up of Combined Cycle Power Plants — H. Gueguen HD-MPC
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Combined Cycle Power Plants 5/23
Start-up procedure
Start-Up of Combined Cycle Power Plants — H. Gueguen HD-MPC
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Combined Cycle Power Plants 6/23
Modelica modelPolitecnico di Milano (F Casella)
1 1 1 CCPP with 3 levels of pressure
ThermoPower Library
can be used from low load to high load
Simplified model:
gas turbinelow pressure components
Stress model of critical components
high and intermediate pressure superheated steam headershigh and intermediate pressure steam turbine rotor
Start-Up of Combined Cycle Power Plants — H. Gueguen HD-MPC
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Case Study 7/23
1-1-1 CCPP with 1 level of pressure
Start-Up of Combined Cycle Power Plants — H. Gueguen HD-MPC
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Case Study 8/23
Increasing Load Phase
Initial state
Turbine generators are connected to the grid
Gas turbine load is around 15%
Pressure is around 60 e5 Pa
Steam is admitted in steam turbine (Bypass valve is closed)
Aim: full load
GT load near 100%
admission valve: fully open
Start-Up of Combined Cycle Power Plants — H. Gueguen HD-MPC
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Case Study 9/23
Local control
Gas turbine control
Feed water flow by drum level control loop
Steam turbine admission valve by control wrt gas turbine load
when GT load ≤ 50%: open-loop control of pressurewhen GT load > 50%: fully open
Control
Minimize start-up time
Constraints on stress level
Control variables: GTload, admission valve
Start-Up of Combined Cycle Power Plants — H. Gueguen HD-MPC
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Case Study 10/23
Modelica Model
ThermoPower library
Stress model (ASME)
Header stress: combination of mechanical and thermal stressRotor stress: thermal stress
Complexity
≈2400 equations42 state variablessimulation time for increasing load phase: 12.4s (PC with 2GHz CPU)
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Overview 11/23
Start-Up of Combined Cycle Power Plants — H. Gueguen HD-MPC
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Overview 11/23
Start-Up of Combined Cycle Power Plants — H. Gueguen HD-MPC
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Overview 11/23
Start-Up of Combined Cycle Power Plants — H. Gueguen HD-MPC
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Smooth Model 12/23
Aim:elimination of discontinuities
if clausespiecewise affine functionssteam/water tables
reduction of simulation time
Constraint: keep the structure of the ThermoPower model
corresponding componentsnew media functions for steam and water
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Smooth Model 13/23
simplification/specialization of some components (e.g. reverseflow elimination)
discontinuities approximations
Discontinuity approximation
∀x ∈ R H(x) =
{0 x < 01 x ≥ 0
∀x ∈ R Hk(x) =1
1 + e−kx
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Smooth Model 13/23
simplification/specialization of some components (e.g. reverseflow elimination)
discontinuities approximations
Discontinuity approximation
∀x ∈ R H(x) =
{0 x < 01 x ≥ 0
∀x ∈ R Hk(x) =1
1 + e−kx
Start-Up of Combined Cycle Power Plants — H. Gueguen HD-MPC
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Smooth Model 14/23
Steam/Water functions approximation
piecewise polynomial approximations of the Modelica.Mediafunctionse.g. T = f (P, h)
Start-Up of Combined Cycle Power Plants — H. Gueguen HD-MPC
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Smooth Model 15/23
Complexity
≈2000 equations
42 state variables
simulation time forincreasing load phase: 1.4s(PC with 2 GHz CPU)
temperature
header stress
Start-Up of Combined Cycle Power Plants — H. Gueguen HD-MPC
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Overview 16/23
Start-Up of Combined Cycle Power Plants — H. Gueguen HD-MPC
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Overview 16/23
Start-Up of Combined Cycle Power Plants — H. Gueguen HD-MPC
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Overview 16/23
Start-Up of Combined Cycle Power Plants — H. Gueguen HD-MPC
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BB optimization 17/23
Profile optimization.
Choice of parametrized profiles: L(t) = Lp(t, q), e.g.
L2H(t, q) = Lm + (Li − Lm)th
th + kh+ (LM − Li )
tp
tp + rp
Optimization problem
mintf ,q(J), J =
∫ t0
tf
dt
subject to the constraints
x = f (x , Lp(t, q))
Lp(tf , q) ≥ LM − ε1
‖f (x(tf ), Lp(tf , q))‖ ≤ ε2
h (x(t)) ≤ 0
(1)
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BB optimization 18/23
Example: L2H(t, q) gains wrt ramp: time 20%; consumption 20%
gains wrt ramp (classical): time 20%; consumption 20%Start-Up of Combined Cycle Power Plants — H. Gueguen HD-MPC
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BB optimization 19/23
Gas turbine load
2 hills functions; start-up time: 4790s (-20%)spline functions (3); start-up time: 4530s (-25%)
Gas turbine load and steam turbine admission valve
spline functions (2); start-up time: 4440s (-26%)
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MPC 20/23
Control variable: gas turbine load
Every computation time (TC )
profile computation for the next N.TC
Lagrange polynomials (N)
minimization of J =∫ t0+N.Tc
t0‖LLN
(t, q)− L0 (L(t0))‖2 dt
Start-up time: 3400s (-43%) [TC = 60s,N = 5]
Start-Up of Combined Cycle Power Plants — H. Gueguen HD-MPC
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MPC 20/23
Control variable: gas turbine load
Every computation time (TC )
profile computation for the next N.TC
Lagrange polynomials (N)
minimization of J =∫ t0+N.Tc
t0‖LLN
(t, q)− L0 (L(t0))‖2 dt
Start-up time: 3400s (-43%) [TC = 60s,N = 5]
Start-Up of Combined Cycle Power Plants — H. Gueguen HD-MPC
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Hierarchy and Distribution 21/23
Hierarchical MPC control
Robustness of control
Introduction of variations into the model?Simulation on sets?
Distributed control
Gradient based methods?
Robustness?
Range of admissible input signals
Start-Up of Combined Cycle Power Plants — H. Gueguen HD-MPC
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Hierarchy and Distribution 21/23
Hierarchical MPC control
Robustness of control
Introduction of variations into the model?Simulation on sets?
Distributed control
Gradient based methods?
Robustness?
Range of admissible input signals
Start-Up of Combined Cycle Power Plants — H. Gueguen HD-MPC
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Hierarchy and Distribution 22/23
Example
Start-Up of Combined Cycle Power Plants — H. Gueguen HD-MPC
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Hierarchy and Distribution 22/23
Example
Start-Up of Combined Cycle Power Plants — H. Gueguen HD-MPC
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Conclusion 23/23
Smooth Modelica model for a 1-1-1 1 pressure level CCPP
new components / media consistent with ThermoPowersystematic design of the optimisation model
Start-up profile optimization
reduction of start-up timeimportance of profile functions
Such approach for such plants is still challenging
optimization tools / model developmentsimulation tools: admissible state and feasible trajectoriesdistributed approaches: steam interactions
Start-Up of Combined Cycle Power Plants — H. Gueguen HD-MPC
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Conclusion 23/23
Smooth Modelica model for a 1-1-1 1 pressure level CCPP
new components / media consistent with ThermoPowersystematic design of the optimisation model
Start-up profile optimization
reduction of start-up timeimportance of profile functions
Such approach for such plants is still challenging
optimization tools / model developmentsimulation tools: admissible state and feasible trajectoriesdistributed approaches: steam interactions
Start-Up of Combined Cycle Power Plants — H. Gueguen HD-MPC