CONTROL AND OPTIMIZATION IN SMART-GRIDS · 2018-05-03 · PI: Rabie Nait-Abdallah,...
Transcript of CONTROL AND OPTIMIZATION IN SMART-GRIDS · 2018-05-03 · PI: Rabie Nait-Abdallah,...
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CONTROL AND OPTIMIZATION IN SMART-GRIDS
Fredy Ruiz Ph.D.
Pontificia Universidad Javeriana, Colombia
Visiting Profesor - Politecnico di Torino
May, 2018
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Introduction - Myself
Fredy Ruiz
Born in Facatativá (Colombia)
BSc. Electronics Engineering, Pontificia Universidad Javeriana, 1997-2002.
MSc. Electronics Engineering, Pontificia Universidad Javeriana, 2004-2005.
PhD. Computer and Control Engineering, Politecnico di Torino, 2006-2009.
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CEPIT – Reseach groupon Control and PowerElectronics 3 Associate professors
(PhD)
3 Assistant Professors(MSc)
12 PhD Students
15 MSc Students
1 Development Engineer
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Dielectric Barrier Discharge Applications
Desing, Modeling and control of power sources for DBD systems.
UV production
Water/Air disinfection
Cooperation with LAPLACE Lab. (Toulouse, Francia)
Budget ~ € 100.000
PI: Prof. Rafael Díez, [email protected]
Current sources
Current inverter
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Energy Management System based on Storage Technologies
To Develop Hardware and Control solutions for the effective integration of PV sources to the grid, employing battery storage. Multilevel inverters Battery modeling and management, SOC and SOH estimation Scheduling and control of charge-discharge profiles Frequency and voltaje regulation services
Budget ~ € 83.000
PI: Diego Patiño, [email protected]
Wide-bandgap semiconductors
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Sustainable Strategies for the Use of Electrical Energy Resources for Low-income Population
To develop isolated PV-powered systems for rural schools, Custom Power Electronics
Embedded generation and demand forecast
MPC based Energy Management System
Budget ~ € 1.200.000 (3 partners)
CO-PI: Fredy Ruiz, [email protected]
MPPT DC/DC
DC/AC
20 baterías 12 V, 40 Ah
Carga 630 Wp
160 V 240 V 240 V 120 VRMS
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Recombinant Protein Production Optimization in Pichia Pastoris, based on in silico models
To increase protein production by re-design of growth conditions in biorreactor. Gray-box models, data-driven.
Growth profiles obtaind by Optimal control formulation
MPC real-time control
Budget ~ € 24.000 (Cooperation with Institute for the Study of Inborn Errors of Metabolism, PUJ).
PI: Fredy Ruiz, [email protected]
790 800 810 820 830 840 850 860 870
5
10
15
20
25
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35
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45
TIEMPO (minutos)
IMPLEMENTACION DEL CONTROLADOR UDC3500
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Universal Access to Electricity
To develop strategies (Energy and Demand-Response services) to improve the costof renewables-based energy provision in isolated rural zones. Micro-grid sizing considering demand response
Demand response contract design
Direct load control
Budget ~ € 70.000 (Cooperation with Industrial Engineering - PUJ)
PI: Rabie Nait-Abdallah, [email protected]. Ruiz - Control and Optimization in Smart-Grids
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Introduction
• There is a strong pressure to reduce the use of fossil
fuels for energy supply:
• Electricity
• Transportation
• Heating
• …
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Introduction
• This implies a shift to electrification of many
services and improved eficiency in processes:
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CO2 emissions from fuel combustion (MtCO2)
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0
5.000
10.000
15.000
20.000
25.000
30.000
35.000
1990 1991 1992 1993 1994 1995 1996 1997 1998 1999 2000 2001 2002 2003 2004 2005 2006 2007 2008 2009 2010 2011 2012 2013 2014 2015 2016
World CO2 Emissions
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CO2 emissions from fuel combustion (MtCO2)
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28%
18%
12%
8%
7%
7%
6%
5%
4%4%
1%China
North America
Europe
Asia
Russia - CIS
India
Middle-East
Latin America
Africa
Japan
Pacific
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Generation shift
Renewable energies offer a sustainable energy source
Solar
Wind
Tidal
….
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Generation Shift
However, most renewable sources are not controllable:
Subject to random variations of weather
Daily trends
Seasonal drifts
…
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World Energy Requirements (Mtoe*)
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0
2.000
4.000
6.000
8.000
10.000
12.000
14.000
16.000 * 1Mtoe=11.63 TWh
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World Electricity Demand (TWh)
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0
5.000
10.000
15.000
20.000
25.000
Fact: Around 13% of world energy demand is spent as electricity!
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Share of renewables in electricity production (%)
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0,00
5,00
10,00
15,00
20,00
25,00
30,00
¿How much electricity is produced by renewable sources?
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Share of wind and solar in electricity production (%)
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0,00
1,00
2,00
3,00
4,00
5,00
6,00
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Shift to 100% renewables
• There is an explosion of solar and wind installations.
• Prices of solar generation have gone down:
• US$ 250 / MWh in 2008
• US$ 50 / MWh in 2017
• Lower than traditional sources:
• Coal: US$ 60-140 / MWh
• Nuclear: US$ 110-180 / MWh
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Energy cost for 2017*
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* https://www.lazard.com/perspective/levelized-cost-of-energy-2017/
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Why don’t we just switch to 100% renewables?
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What area is required to supply all the worldenergy requiremets with photovoltaic resources?
http://www.solardirect.com/outdoor-lighting/solar/street/area-light/solar-insolation-map.html
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Supplying electricity demand with PV
• Demand in 2016 was
21.190 TWh
• Daily, that is
58 TWh
• In Italy, that energy must be generated in about
3 – 4 hours.
• Required peak power capacity is
16.6 TW
• Using standard solar panels with
Peak power = 225 W
Panel area = 1.65 m2
• The amount of panels required is
NP=7.350e6
• With a net area requirement of:
Area = 121.300 km2
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Is this area too much?????
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Supplying electricity demand with PV
• Assuming a land efficiency of 70%, the gross required area is
173.200 km2
• It’s about 60% of Italy land surface
• It’s less than 0.12% of world land surface
• Area can be reduced by half assuming high insolation regions
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Supplying world energy demand with PV
• For the total world energy needs
• Assuming 5 equivalent hours of insolation
• The required area is about:
1million km2
• It’s 11% of Sahara desert
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What makes electric energydifferent from othercommodities?
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How is energy produced, transported, consumed?
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Electricity can not be stored for latter use!!!!At least not like oil, food,…..
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Power systems
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From www.terna.it
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Power Balance
Generation and load must always be balanced.
Otherwise there is high risk of failure:
• Frequency drift
• Generators go off-line
• Cascade effect
• Black Out!!
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System Operation
• Traditionally, balance of power systems has been performed by Generation, assuming random variation in Load.
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Power Balance
• With the introduction of renewables, the model has not changed.
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Power Balance
• With the introduction of renewables, the model has not changed.
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Demand Response
New paradigm: Consumers are an active part of system operation!!!
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Course Context
DR - Ancillary services
Flexible LoadsDirect Load
ControlIncentive-based
Load Control
Smart-Grids with high share of renewable generation
Imbalance between load and generation
Non-Controllable sources
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Traditional grid
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Unidirectional Power flows
Taken from “Final Report on the August 14, 2003 Blackout in the United States and Canada" Dated April 2004”
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Smart-Grid
Multi-directional flows of Power and information.
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Enabling technologies
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• Smart-meters
• PMU
• Smart appliances
• Flexible loads
• Power electronics
• Storage: Batteries fly-wheels, …
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Course topics
• Session 1: Introduction to Power systems• Context and motivation
• Power flow analysis
• Economic dispatch
• Session 2: Renewable sources• Stochastic models of variable sources
• Dispatching random sources
• Session 3: Energy dispatch• Risk-limiting dispatch
• Matlab session
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Course topics
• Session 4: Incentive-based demand response• Modeling demand • Peak time rebates• Contract design for demand response
• Session 5: Flexible loads• Modeling flexibility• Load dispatch• Case study: Electric vehicles
• Session 6: Micro-grids• Lean energy concept• Joint generation and load dispatch
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Power Flows Analisys
• Electric grids are very complex
• 3-phase systems
• Connected by transmission lines
• Usually more than 100 generators
• More than 1.000 nodes
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Power Flows Analisys
How do we schedule generators to deliver power correctly supplying 100% of demand?
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Power Flow Analysis
• Flows are defined by Kirchoff’s laws
• Steady-state assumption
• Constant frequency
• Phasorial models
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Power Flows Analisys
Electric grids are represented bysingle-bus diagrams:
Nodes: Bus with votage VB
Links: Transsmission lines withgiven admittance yT
Generators: inject power PG to nodes
Loads: drain power PL from nodes
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Generator Load
Load
Tx line
Tx lineTx line
Bus Bus
Bus
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• Flows are defined by Kirchoff’s laws• 𝑃𝑖𝑗 = 𝑉𝑖 |𝑉𝑗| 𝐺𝑖𝑗 cos 𝜃𝑖 − 𝜃𝑗 + 𝐵𝑖𝑗sin(𝜃𝑖 − 𝜃𝑗)
• 𝑄𝑖𝑗 = 𝑉𝑖 |𝑉𝑗| 𝐺𝑖𝑗 sin 𝜃𝑖 − 𝜃𝑗 − 𝐵𝑖𝑗cos(𝜃𝑖 − 𝜃𝑗)
Where• 𝑌𝑖𝑗 = 𝐺𝑖𝑗 + 𝑗𝐵𝑖𝑗• 𝐺𝑖𝑗 Tx line Conductance
• 𝐵𝑖𝑗 Tx line Susceptance
• What unknowns do we have?
1 MW 0,7MW
0,3 MW
V1 V2
V3
Power Flow Analysis
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-> Active power-> Reactive power
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Power Flow Analysis
Even with these simplification it is a complex model!!
In addition:• 𝑉𝑖 ≈ 𝑉𝑗 ≈ 1
• 𝐺𝑖𝑗 ≈ 0
• cos 𝜃𝑖 − 𝜃𝑗 ≈1
• sin 𝜃𝑖 − 𝜃𝑗 ≈ 𝜃𝑖 − 𝜃𝑗
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1 MW 0,7MW
0,3 MW
V1 V2
V3
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• Flows are defined by Kirchoff’s laws• 𝑃𝑖𝑗 = 𝐵𝑖𝑗 𝜃𝑖 − 𝜃𝑗• 𝑄𝑖𝑗 = −𝐵𝑖𝑗
Where• 𝑄𝑖𝑗 constant
• 𝑃𝑖𝑗 given by linear equation
•What unknowns do we have?
1 MW 0,7MW
0,3 MW
V1 V2
V3
Power Flow Analysis
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DC power flow model!
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Power Flow Analysis
Flows are defined by Kirchoff’s laws
𝑃1𝑃2𝑃3
=
𝐵11 + 𝐵12 + 𝐵13 −𝐵12 −𝐵13−𝐵21 𝐵21 + 𝐵22 + 𝐵23 −𝐵23−𝐵13 −𝐵32 𝐵31 + 𝐵32 + 𝐵33
𝜃1𝜃2𝜃3
In general, this matrix is singular!!!
What really matters is the phase difference 𝜃𝑖 − 𝜃𝑗
Slack bus: 𝜃1 = 0
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Power Flow Analysis
Result:
• Varying phase it is possible to modify power flows
Constraints in flows:
• Tx lines have a limited capacity
• When programming production, limits on power flows must be taken into account:
𝑃𝑖𝑗 ≤ 𝑃𝑖𝑗𝑀𝑎𝑥
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1 MW 0,7MW
0,3 MW
V1 V2
V3
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Power Flow Analysis
Result:
• Varying phase it is possible to modify power flows
Constraints in flows:
• Tx lines have a limited capacity
• When programming production limits on power flows must be taken into account:
𝑃𝑖𝑗 ≤ 𝑃𝑖𝑗𝑀𝑎𝑥
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1 MW 0,7MW
0,3 MW
V1 V2
V3
0,566
0,433 -0,1333
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System Operation
• Energy production is managed by a System Operator (SO)
• Its aims are to guarantee:• energy balance in the grid• Reliable operation• Fault tolerance
• In un-regulated systems these objectives are achieved in open markets
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System Operation
• At least two markets exist in any grid:• Day-ahead market: planned production given demand
forecast• Real-time market: energy balance market to correct
imbalances caused by unpredicted load variations, failures, …
• Other possible markets are:• Reserves • Frequency regulation• Demand Response• …
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Day-ahead Market
• Given a demand forecast Dk
• And a set of generators G1, G2, G3, …, GN
• What is the lowest cost generation program that supplies the demand?
This is the economic dispatch problem!
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Economic Dispatch
Each generator has an operational cost that varies withtechnology:
• Thermal plants usually have quadratic costs𝐶(𝑝𝑗) = 𝑎1𝑗 + 𝑎2𝑗𝑝𝑗 + 𝑎3𝑗𝑝𝑗
2
• Hydroelectric plats usually have linear costs𝐶(𝑝𝑗) = 𝑎1𝑗 + 𝑎2𝑗𝑝𝑗
• Solar or wind plants usually have fixed costs only𝐶(𝑝𝑗) = 𝑎1𝑗
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Economic Dispatch
min 𝐽 =
𝑘=1
𝐾
𝑗=1
𝑁
𝐶(𝑝𝑗𝑘)
Subject to
𝑗=1
𝑁
𝑝𝑗𝑘 = 𝐷𝑘 ∀𝑘
𝑝𝑗𝑚𝑖𝑛 ≤ 𝑝𝑗𝑘 ≤ 𝑝𝑗
𝑚𝑎𝑥
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Sum of generation costs
Energy Balance
Operational constraints
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Economic Dispatch
• What information does the SO requires from each generator?
• How should the SO pay generators?• Pay as bid: discriminatory price.
• Uniform price: single clearing price.
• VCG: Social value.
• Can generators benefit from false cost information?• Gaming issues!!!
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Economic Dispatch
min 𝐽 =
𝑘=1
𝐾
𝑗=1
𝑁
𝐶(𝑝𝑗𝑘)
Subject to
𝑗=1
𝑁
𝑝𝑗𝑘 = 𝐷𝑘 ∀𝑘
𝑝𝑗𝑚𝑖𝑛 ≤ 𝑝𝑗𝑘 ≤ 𝑝𝑗
𝑚𝑎𝑥
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How can we include topology constraints?
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Economic Dispatch
min 𝐽 =
𝑘=1
𝐾
𝑗=1
𝑁
𝐶(𝑝𝑗𝑘)
Subject to
𝑗=1
𝑁
𝑝𝑗𝑘 = 𝐷𝑘 ∀𝑘
𝑝𝑗𝑚𝑖𝑛 ≤ 𝑝𝑗𝑘 ≤ 𝑝𝑗
𝑚𝑎𝑥
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Plants can not be switched ON-OFF at any rate, how can we include that constraint?
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Economic Dispatch
min 𝐽 =
𝑘=1
𝐾
𝑗=1
𝑁
𝐶(𝑝𝑗𝑘)
Subject to
𝑗=1
𝑁
𝑝𝑗𝑘 = 𝐷𝑘 ∀𝑘
𝑝𝑗𝑚𝑖𝑛 ≤ 𝑝𝑗𝑘 ≤ 𝑝𝑗
𝑚𝑎𝑥
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How do we decide which plants to turn on?
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Economic Dispatch
min 𝐽 =
𝑘=1
𝐾
𝑗=1
𝑁
𝐶(𝑝𝑗𝑘)
Subject to
𝑗=1
𝑁
𝑝𝑗𝑘 = 𝐷𝑘 ∀𝑘
𝑝𝑗𝑚𝑖𝑛 ≤ 𝑝𝑗𝑘 ≤ 𝑝𝑗
𝑚𝑎𝑥
• Can we use the same approach to dispatch renewable sources?
• Can we fix pj ?
Give possible solutions…
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Conclusions
• A transition to 100% renewable energy is feasible BUT:
• Solar and wind are not controllable sources
• Existing energy dispatch methods can not directly be extended to renewables
• Distributed generation causes multi-directional flows
• Demand can be used as a balancing resource
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Bibliography
[1] Kirschen D., Strbac, G., 2005, Fundamentals of Power System Economics, John Wiley & Sons, 296 pages, ISBN 978-0470845721.
[2] Morales González, JM, Conejo, AJ, Madsen, H, Pinson, P & Zugno, M 2014, Integrating Renewables in Electricity Markets: Operational Problems. Springer. International Series in Operations Research and Management Science, vol. 205, DOI: 10.1007/978-1-4614-9411-9.
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