CEPEL – The Brazilian Electric Energy Research Center

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Transcript CEPEL – The Brazilian Electric Energy Research Center

Electrical Energy Research Center
Expo Shanghai
Brazilian Forum
Background II:
“Brazil: Clean and
Renewable Energy”
Technologies for the
Sustainable
Development of the
Brazilian Power
Sector
Shanghai, China, 06-July-2010
Albert C. G. Melo
DIRECTOR-GENERAL
Electrical Energy Research Center - Cepel
June 2010
CEPEL – The Brazilian Electric
Energy Research Center
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Eletrobras´ R&D Center
Not for profit organization, founded in 1974
Largest Brazilian Electric Energy R&D Center
Largest High Voltage and High Power Labs in Latin America
More than 500 employees
Technical Support for
 Eletrobras System
 Government (Mines and Energy Ministry, Science and Tech. Ministry)
 Electric Sector Entities (National System Operator-ONS,
Wholesale Energy Market-CCEE, Expansion Planning
Company-EPE and Regulatory Agency- ANEEL)
 Utilities and Industry
Fundão Island Site
Electrical Energy Research Center - Cepel
Adrianópolis Site
June 2010
Brazilian Transmission System
Continental Dimension
4 000 km
BRAZIL
Electrical Energy Research Center - Cepel
44000
000km
km
EUROPE
June 2010
Hydroelectric Interdependence
Several plants from
different owners in the
same Basin
Energy Optimization and
Centralized Dispatch
Savings =~ US$ 2,5 billions
(source: ONS)
Electrical Energy Research Center - Cepel
June 2010
Energy Optimization
and Environment
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Generation Expansion Planning
Energetic Operation Planning and Programming
Hydro Basins Inventory
Environmental Assessment – Integrated, Viability
and Processes
Stochastic Optimization
Load Forecasting
Hydro Resources and Multiple Uses for Water
Economic and Financial Analysis
Tariffs
Parallel Processing Techniques
Electrical Energy Research Center - Cepel
June 2010
Electric Networks
– Transmission and Distribution Systems Planning
– Static and Dynamic Systems Analysis
– Reliability
– New G&T Technologies Impacts on Electric Systems
– Electric Systems Models and Algorithms
– Harmonics
– Control Systems
– Power Quality
Electrical Energy Research Center - Cepel
June 2010
Systems Automation
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SCADA Systems
Distribution Automation
Protection
Real Time Applications
Data Communication
Oscillography and Signal Processing
Fault Location
WEB Technologies for Information
Interchanges
– Computer Architectures
Electrical Energy Research Center - Cepel
June 2010
Lines and Stations
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Transmission and Distribution Equipment Technology
New Technologies for Long Distance Transmission
Installations Refurbishment
Electromagnetic Transients
Electromagnetic Fields Calculation
Foundations, Mechanical Vibration
Insulation and Dielectrics Supportability
Rural Electrification Equipment Technology
Electric Equipment, Arches and Discharge Modeling
Overcurrent Thermal and Dynamic Effects
Environment Impacts on Electric Systems
Grounding and Electromagnetic Compatibility
Equipment Diagnostics
Rotating Electric Machines
Electric Metering and Loss Reduction
Electrical Energy Research Center - Cepel
June 2010
Special Technologies
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Alternative Energy Sources
Use of AES on Remote Systems
Fuel Cells and Hydrogen Generation
Final Use Equipment Technology
and Energy Efficiency
Technical Support to Governmental
Programs
(PROCEL, LUZ PARA TODOS, PROINFA,
RELUZ)
Electric, Magnetic and Physical-Chemical
Materials Characteristics
Corrosion
Metallurgy
Materials Aging and Degradation
Lighting
Heat Transfer
Superconductivity
Electrical Energy Research Center - Cepel
June 2010
Laboratories
30
LABORATORIES
12
IN ADRIANÓPOLIS SITE
18 IN FUNDÃO ISLAND SITE
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MAIN
ACTIVITIES
 R&D PROJECTS SUPPORT
AREAS
 HIGH VOLTAGE
 HIGH POWER
 MATERIALS
 ENERGY EFFICIENCY
 CALIBRATION
 NETWORK SIMULATION
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EQUIPMENT AND MATERIALS TESTS
 SPECIAL TESTS
 DEVELOPMENT OF NEW TECHNIQUES
 ENERGY EFFICIENCY
 CERTIFICATION
Electrical Energy Research Center - Cepel
June 2010
CEPEL Labs and Brazilian Industry
Approval
Technical Evolution of Electric Equipments
Electrical Energy Research Center - Cepel
Circuit Breakers
Transformers
Cubicles
June 2010
Support to Expansion Planning
• CEPEL supplies methodologies and software to support
the Brazilian Power System Planning
• Use of CEPEL’s software and participation of CEPEL’s
researchers for the development of expansion plans
PDEE 2006-2015, PDE 2007-2016, PDE 2008-2017 and
PNE 2030
• CEPEL included in the Power Sector Monitoring
Committee -CMSE
• Executive Secretary of the Permanent Commission for
the Analysis of Methodologies and Software in the
Electric Power Sector - CPAMP
Electrical Energy Research Center - Cepel
June 2010
Some Examples of Projects
and Innovations of CEPEL
• Computer Models Package
for Electro-energetic Operation
and Expansion Planning
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Natural Resources Optimization
Energetic Matrix Diversification
Carbon Emission Minimization
Energy Supply Reliability
Tariff Reduction
National Energetic Security
No Similar Products in Brazil or Abroad
Electrical Energy Research Center - Cepel
June 2010
CEPEL´s Chain of Optimization Models for the
Generation Expansion and Operational
Planning of the Brazilian System
Horizons
and
Time Steps
20-30 Years,
annual steps
to
1 Week,
hourly steps
Official
Programs
Electrical Energy Research Center - Cepel
June 2010
Need of Validation and
Official Approval
NEWAVE Program is used for the following
Electric Sector Activities
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Expansion Planning;
Operation Planning and Programming;
Energy Commercialization;
Definition and Calculation of the Physical Gurantee and
Assured Energy of Generation Enterprises; and
– Elaboration of Guidelines for Electric Power Auction Bids.
Main Reason why CNPE and MME created CPAMP
Electrical Energy Research Center - Cepel
June 2010
MELP Application Example –
National Energy Overlook - 2030
Existing Interconnections
Candidate Interconnections
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N
NE
MA
Market
60000
Southeast
50000
South
SE/
CO
Northeast
40000
MWMed
North
30000
IT
20000
S
10000
20
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0
Year
Electrical Energy Research Center - Cepel
June 2010
MELP Application Example – PNE-2030
Generation Expansion – Scenario 1
(Market B1 with additional conservation)
250.000
200.000
Installed Capacity (GW)
2005
Hydro
68,1
TOTAL (*)
90,7
(*) including imports
2030
156,3
223,4
8%
2005
16%
1%
75%
150.000
Expansion 2015-2030
Total
17%
2%
Hidrelétricas
100.000
15%
66%
50.000
2030
0
2005
17%
2010
2015
2020
Alternatives
Small Hydro
Wind
Sugarcane biomass (cogeneration)
Urban residues
Source: EPE/MME
Electrical Energy Research Center - Cepel
2025
4%
2030
9%
70%
Hydro
Alternatives
Thermal
Imports
June 2010
Hydro Basins Inventory Manual
- Revision 2007
Social and Environmental
Aspects considered since the
first planning process
Inventory Studies Objective:
balance between energy
generation and social and
environmental impacts
(positive and negative) and
multiple uses of water
Electrical Energy Research Center - Cepel
June 2010
Screen for Preliminary
Multi-objective Analysis
Electrical Energy Research Center - Cepel
June 2010
Some Examples of Projects
and Products of CEPEL
• Computer Models Package
for Power System Operation and
Transmission Expansion Planning
• Brazil is the only developing country that has
a state-of-the-art software package for
power systems transmission expansion and
operational planning suitable to face the
challenges posed by the large interconnected
electric grid
Electrical Energy Research Center - Cepel
June 2010
Computer Models Package for Power System
Operation and Transmission Expansion Planning
ANAREDE
Network Analysis
NH2
FLUPOT
Probabilistic Simulation
and Reliability
Optimal Loadflow
BINARY
FormCepel
FILES
SAPRE
PlotCepel
Data Plotting
Report Generation
Database
and MMI
ASCII
FILES
ANATEM
PacDyn
Electromechanical
Transients
Small-signal Stability
Analysis
ANAFAS ANAQUALI
Short Circuits
and Power Quality
Electrical Energy Research Center - Cepel
PLANTAC
Transmission
Planning
June 2010
Madeira Transmission Support:
Hybrid, Continuous and Alternate
R.Branco
160 km
Transmission Line Project
Optimization:
305 km
S.Antônio
30km
Alternativa 2CA1CC – SP
3150MW
Jirau
3300MW
3X
Coletora Porto
Velho
Samuel
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30
32
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41km
150km
Ariquemes
km
165km
Jiparaná
30
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Jiparaná
High Performance Transmission Lines
118km
km
P.Bueno
C.Oeste
+600 kV
160km
Vilhena
32
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500 kV
354km
km
Jauru
230 kV
9
3x
54
1x
km
M
MC
5
33
Cuiabá
Trindade
Ribeirãozinho
km
200
50
31
MW
Itumbiara
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38
Rio Branco
km
5
37
-2
Rio Verde
km
160 km
Rio Araguaia
305 km
m
400 k
S.Antônio
3150MW
Alternativa 2CC600-SP
2 bipolos 3150 MW - 4 x 2312 MCM
30km
Back-to-back 2x400MW
41km
A. Vermelha
5 km
m
320 k
3 x 1500
3300MW
Atibaia
250 km
Ariquemes
150km
A. Vermelha existente
Araraquara
Samuel
Jirau
N. Iguaçu
350 km
Coletora Porto
Velho
Jiparaná
165km
500 kV
500 kV
160km
345 kV
440 kV
440 kV
Jauru
Cuiabá
50
31
335
k
MW
m
Ribeirãozinho
360
k
5
37
-2
m
Trindade
242k
m
200k
m
km
Electrical Energy Research Center - Cepel
230 kV
2x
Power Flow
Dynamics
Short-Circuit
Harmonics
Transmission Line Projects
Vilhena
138 kV
354km
System Studies:
+600 kV
Pimenta Bueno
118km
Rio Verde
Itumbiara
Atibaia
350 km
Araraquara
500 kV
3 x 1250
345 kV
440 kV
N. Iguaçu
250 km
440 kV
138 kV
June 2010
Some Examples of Projects
and Innovations of CEPEL
• SAGE – Open System for Energy Management
(Scada/EMS)
• Electric Security in Real-Time
• based on National Technology
Electrical Energy Research Center - Cepel
June 2010
SAGE Project
Initial Motivation
Former Generations of Control Centers
Closed systems, strongly dependent on the manufacturer Hardware & Software
Low modularity – difficulties to integrate new functions and
own applications
Highly specialized maintenance team
Life time: 5-7 years
SAGE -> State of the art Technology
Portability – Modularity - Interconnectivity
EVERGREEN Concept – Continuous Update for EMS
Capacity and Resources
Electrical Energy Research Center - Cepel
June 2010
SAGE in Brasil (2009)
Associate
Operator
Petrobras
Intesa
Rio Amazonas Energia
CERAN
Utility
TBE
Transmission
NTE
Independent Producer
More than 350 systems
installed in Brazil
Elektro
ECTE
Norte Fluminense
Enercam
BAESA
Electrical Energy Research Center - Cepel
June 2010
Some Examples of Projects
and Innovations of CEPEL
• LPNE – New Concepts for Optimization
Designing of Transmission Lines
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Higher Transmission Capacity
Maximizing the Use of Transmission Corridors
Reduced Environmental Impacts
More than 4,000 km of Transmission Lines in
Operation
Electrical Energy Research Center - Cepel
June 2010
LPNE PROJECT
Transmission Line Optimization
Developed Technology Summary
ELECTRIC
PROJECT
ENVIRONMENTAL
IMPACTS
ELECTRIC
EQUIPMENT
GROUNDING
Electrical Energy Research Center - Cepel
TOWERS AND
FOUNDATIONS
June 2010
LPNE PROJECT
Transmission Line Optimization
Typical Results from Studies
Electrical Energy Research Center - Cepel
June 2010
LPNE PROJECT
Transmission Line Optimization
Laboratories Structure
CHESF 500 kV
expanded bundle
visual corona
CHESF
500
kV
test at CEPEL’s
CHESF 500 kV expanded
bundle
expanded
bundle
Laboratory
testing at CEPEL’s
High Voltage
230 kV HSIL CHESF Line
Prototype
testing
at CEPEL’s
Laboratory
HSIL (EXB) Banabuiú-Fortaleza
at CEPEL’s High Voltage Laboratory
Laboratory
CHESF - Line:High
2 x 230Voltage
kV
Electrical Energy Research Center - Cepel
June 2010
LPNE PROJECT
Actual Lines
LPNE-FEX 500 kV P.Dutra – Fortaleza - 740 km
Electrical Energy Research Center - Cepel
June 2010
Long Distance Transmission –
LONGDIST
Theoretical and Experimental R&D Project
– Original values:
•
ELETROBRAS
R$ 41.150.000,00
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CTENERG/FINEP
R$ 15.000.000,00
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CEPEL (HH)
R$
5.600.000,00
– Duration: 3 years
– Laboratories Capacity
• AC: up to 1.100 kV
• DC: up to +/- 800 kV
– Investment: 5% of a 500 kV long line cost
Helping the Development of the Amazon Hydropower in a
sustainable way
Electrical Energy Research Center - Cepel
June 2010
Cepel’s Fuel Cell and Hydrogen
Projects
– Metallic Bipolar Plates for PEMFC
– Modeling of Residential Stationary PEMFC
Cogeneration System
– Ethanol Reforming for Hydrogen Production
– Economic Feasibility of Electricity Supply for
Off-Grid Residences in Remote Areas
– Components for SOFC Fuel Cell
Electrical Energy Research Center - Cepel
June 2010
Brazilian Wind Atlas
(Cepel, 2001)
wind
potential
Electrical Energy Research Center - Cepel
June 2010
New Brazilian Dynamic Wind Atlas
– Project under development by CEPEL under contract
with the Ministry of Science and Technology;
– Platform: ETA mesoscale model and GIS system;
– High quality input data (Roughness, Orography, etc.);
– Horizontal resolution: 1km x 1km for the best sites in
Brazil;
– Wind data height: 80, 100 and 150 m.
– Forecast reports for the best areas in Brazil;
– Maps: GIS tools for web.
Electrical Energy Research Center - Cepel
June 2010
Evaluation of Brazil’s solar energy
resources
Brazilian Solar Atlas
– Surface Data Base
(UFPE, 2001)
Brazilian Atlas
of Solar Energy
– (INPE, 2006)
Electrical Energy Research Center - Cepel
June 2010
Solar Energy in Brazil
– Photovoltaic
• Costs are still high
• Opportunity for stand-alone systems for isolated areas
• Governmental working group is currently conceiving a solar
photovoltaic program
• Brazil is the greatest world silicon exporter, but has no
photovoltaic components manufacturer
– Solar thermal – low temperature (water heating)
• Consolidated industry (more than 15 manufactures)
• Significant market share (replaces electric showers)
– Solar thermal – high temperature (CSP)
• Costs are still high
• There is room for applications at specific regions, such as the
Northeast Region
• Studies are under way to support the development of the basic
project of a solar thermal power plant in the Northeast Region
Electrical Energy Research Center - Cepel
June 2010
Final Remarks
 The Brazilian energy policy aims at to assure at least the
current level of participation of renewable energy in our
Energy and Electricity Matrices, while considering its
sustainable development, reasonable prices, energy efficiency
and security as well as access to all population
 Diversification of our electricity matrix is desirable. However
we have to consider (and foster) the stage of development of
new renewables and associated costs
 Hydropower will still have a major role in our system over the
next decades
 Brazil intends to develop its supply resources, including those
in the Amazonian Region, but in a very strict sustainable way,
i.e., taking into account the social, environmental and
economic dimensions
Electrical Energy Research Center - Cepel
June 2010
Thank you !
[email protected]
Electrical Energy Research Center - Cepel
June 2010