Technical Committee
Sessions: EDPG, EMC, ETC
Click on a session title in the table
below to be connected to a description of the session from the printed program and
links for each available presentation. (Sessions
marked with *SG* indicate there were Smart Grid related papers in the session.)
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Session Name |
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Electric Machinery
Committee |
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Mon PM |
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Characteristics and Control Strategies of Magnetic
Bearing Machines and Brushless Machines |
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Wed AM |
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Emerging Technologies
Coordinating Committee |
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Tues AM |
*SG* |
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Wed AM |
*SG* |
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Energy Development and
Power Generation Committee |
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Mon PM |
*SG* |
Distributed Generation: Operation and Control
Problems - Asian and Australian Experience |
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Mon PM |
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Tues AM |
*SG* |
International Practices in Developments and
Techniques in Smart Grids |
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Tues PM |
*SG* |
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Tues PM |
*SG* |
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Wed AM |
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Wed AM |
*SG* |
International Practices for Alternative Energy in
Developing Countries |
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Wed PM |
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International Practices in Demand Side Management:
Practices and Barriers |
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Thur AM |
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Thur PM |
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International Practices in Biomass - Theory, Case
Studies and Plant Overall Performance |
Characteristics and Control Strategies of Magnetic
Bearing Machines and Brushless Machines
Sponsored by: Electric Machinery
Committee
Chair: N. Stranges,
G.E. LM & Generator Development
The concept of
bearingless and brushless machines is fascinating. It provides yet more
reliability for machines thought to be stagnant in their ongoing design
improvements. They will also allow
machines to be placed in environments where access for maintenance is very
difficult or prohibited. This panel will
discuss some elements of their design. How are these features achieved and
controlled? What predictive methods are
used to estimate forces for suspension and stability? Does this technology hold
promise for applications in the future?
PRESENTATIONS
AND PANELISTS:
• 09GM0804, A Novel Design of a Thrust Magnetic
Bearing with a Cylindrical-Shaped Rotor
J. ASAMA, Tokyo University
of Science
N. MIYAMOTO, Tokyo
University of Science
T. ENOMOTO, Tokyo
University of Science
M. AMADA, Tokyo University
of Science
A. CHIBA, Tokyo University
of Science
T. FUKAO, Tokyo University
of Science
A. ABDEL-KHALIK,
Strathclyde University
M. MASOUD, Strathclyde
University
A. MOHAMADEIN, Alexandria
University
B. WILLIAMS, Strathclyde
University
M. AHMED, Alexandria
University
• 09GM0599, A Magnetic Suspension Control
Strategy by 3-Phase Inverters in Bearingless Brushless DC Motors
M. OOSHIMA, Tokyo
University of Science, Suwa College
• 09GM0795, Rotational Characteristics of
Bearingless Motor with Passive Magnetic Bearings
T. ASAMI, Tokyo University
of Science
Y. NAKANO, Tokyo University
of Science
J. ASAMA, Tokyo University
of Science
A. CHIBA, Tokyo University
of Science
T. FUKAO, Tokyo University
of Science
A. NAKAJIMA, Shinshu
University
Parameter Measurement, Controller Development and EMTP
Solutions for Permanent Magnet and Synchronous Machines
Sponsored by: Electric Machinery
Committee
Chair: A. Masrur,
United States Army
Parameter
measurement and EMTP predictions for the design of machines is a challenging
task. This panel will explore the modeling predictions of machine inductances,
reactances, torque cogging and power system transients. It shall also look at the development and
performance testing of an Interior Permanent Magnet Machine (IPM). Are the models more accurate? Is there
agreement between predictions and measured results? How well does the IPM controller respond?
PRESENTATIONS
AND PANELISTS:
• 09GM0474,
A Voltage-Behind-Reactance Induction Machine Model for the EMTP-Type Solution [Transaction Number:
TPWRS-00699-2007]
J. JATSKEVICH, University
of British Columbia
L. WANG, University of
British Columbia
• 09GM0736, The Development and Testing of a
Scalar Double-Loop Controller for a 3 Phase WM Inverter-Fed IPM Motor
S. SALEH, Memorial
University of Newfoundland
M. RAHMAN, Memorial
University of Newfoundland
• 09GM0747, A Simple Method for Measuring
Cogging Torque in Permanent Magnet Machines
Z. ZHU, University of
Sheffield
• 09GM0821, Effect of Quadrature Axis Reactance
of Large Cylindrical Synchronous Machine on Operation
D. HIRAMATSU, Toshiba
Y. UEMURA, Toshiba
J. OKUMOTO, Toshiba
H. HOSAKA, Toshiba
S. UEMOTO, Toshiba
T. IMAI, Toshiba
M. KAKIUCHI, Toshiba
K. NAGKURA, Toshiba
M. FUJITA, Toshiba
T. OTAKA, Toshiba
K. NAGASAKA, Tokyo
University of Agriculture and Technology
• 09GM0920, Measurement of Parameters for
Interior Permanent Magnet Motors
P. ZHOU, Ansoft Corporation
D. LIN, Ansoft Corporation
M. RAHMAN, University of
New South Wales
Sponsored by: Emerging
Technologies Coordinating Committee
Chair: B. Djokic,
National Research Council of Canada
PRESENTATIONS
AND PANELISTS:
• 09GM0092, Real-Time Particle Swarm
Optimization Based Current Harmonic Cancellation
W. LIU, Florida State
University
I. CHUNG, Florida State
University
S. LENG, Florida State
University
D. CARTES, Florida State
University
• 09GM0497, A General Modular Design
Methodology for Flexible Smart Grid Inverters
E. ORTJOHANN, FH-Soest
M. LINGEMANN, FH-Soest
W. SINSUKTHAVORN, FH-Soest
A. MOHD, FH-Soest
A. SCHMELTER, FH-Soest
N. HAMSIC, FH-Soest
D. MORTON, The University
of Bolton
• 09GM0785, Thermo-Electric Co-Simulation on
Geographically Distributed Real-Time Simulators
M. FARUQUE, University of
Alberta
M. SLODERBECK, Florida
State University
M. STEURER, Florida State
University
V. DINAVAHI, University of
Alberta
• 09GM1365, A New Control Strategy for
Stand-alone Fuel Cell-battery Hybrid Power Supply System
V. ZHEGLOV, TTU
W. GAO, Tennessee Tech
University
E. MULJADI, NREL
G. WANG, TTU
• 09GM1447, Emitter Turn-off (ETO) Thyristor,
ETO Light Converter and Their Grid Applications
A. HUANG, North Carolina
State University
Y. LIU, North Carolina
State University
Q. CHEN, North Carolina
State University
J. LI, North Carolina State
University
W. SONG, North Carolina
State University
• 09GM1475, Testing of a Controller for an ETO
Based STATCOM Through Controller Hardware in the Loop Simulation
J. LANGSTON, Florida State
University Center for Advanced Power Systems
L. QI, Florida State
University Center for Advanced Power Systems
M. STEURER, Florida State
University Center for Advanced Power Systems
M. SLODERBECK, Florida
State University Center for Advanced Power Systems
Y. LIU, North Carolina
State University NSF FREEDM Systems Center
Z. XI, North Carolina State
University NSF FREEDM Systems Center
S. MUNDKUR, North Carolina
State University NSF FREEDM Systems Center
Z. LIANG, North Carolina
State University NSF FREEDM Systems Center
A. HUANG, North Carolina
State University NSF FREEDM Systems Center
S. BHATTACHARYA, North
Carolina State University NSF FREEDM Systems Center
W. LITZENBERGER, Bonneville
Power Administration
L. ANDERSON, Bonneville
Power Administration
P. SORENSEN, Riso National
Laboratory
A. SUNDARAM, Electric Power
Research Institute
*SG* ETCC Late
Breaking News Session
Sponsored by: Emerging
Technologies Coordinating Committee
Chairs: M. Kezunovic,
Texas A&M University
M. Begovic, Georgia
Institute of Technology
The Emerging
Technologies forum for brief (20 minute) presentations about recent developments
of interest for PES members, such as smart grid technologies, large scale
energy storage, etc. Prospective presenters should contact the session chairs
via e-mail at least two weeks before the meeting to inquire about availability
of the presentation slots.
PRESENTATIONS
AND PANELISTS:
• NERC Reliability Initiatives and Smart Grid
R. W. CUMMINGS, North
American Electric Reliability Corporation
• NIST Interoperability Framework Initiative
J. FITZPATRICK, National
Institute of Standards and Technology
• Realizing the Smart Grid – A Solutions Provider's
Perspective
D. G. HART, Elster
M. KEZUNOVIC, Test
Laboratories International, Inc.
C. ROOT, National Grid
*SG*
Distributed Generation: Operation and Control Problems – Asian and
Australian Experience
Sponsored by: Energy Development
and Power Generation Committee
Chair: N. Voropai,
Energy Systems Institute
Many countries
have already accumulated wealth of experience in using distributed generation.
The main economic and legislative problems are successfully solved in terms of
the national specific features. However,
many technical characteristic properties of integrating distributed generation
into electric power systems, control of distributed generators in normal and
fault conditions remain topical. These
problems are as follows:
·
Communications
and control infrastructure for distributed power grid control,
·
Demand
side management and customer choice in distributed power grids,
·
Information
technologies for distribution generation automation,
·
Internet
tools for improved controls and operation of distributed power systems,
·
Protection
algorithms for islanding and security.
The task of
the Panel Session is to discuss the experience of Asian countries and Australia
in solving the mentioned problems of using distributed generation.
PRESENTATIONS
AND PANELISTS:
• 09GM1097, Operation and Control Problems of
Power Systems with Distributed Generation
N. VOROPAI, Energy Systems
Institute
D. EFIMOV, Energy Systems
Institute
• 09GM0698,
Development of Distributed Generation in China
M. WANG, University of Hong
Kong
J. ZHONG, University of
Hong Kong
• 09GM1404,
Distributed Generation in Japan
T. SHINJI, Tokyo Gas
A. YOKOYAMA, The University
of Tokyo
Y. HAYASHI, Fukui
University
• 09GM0660, The Design Experience of a CCP
MicroGrid in China
C. WANG, Tianjin University
L. GUO, Tianjin University
S. WANG, Tianjin University
B. WANG, China Southern
Power Grid
X. WU, China Southern Power
Grid
Y. HU, China Southern Power
Grid
• 09GM1014,
Research and Development of Grid Integration of Distributed Generation in Japan
H. KOBAYASHI, CRIEPI
I. KURIHARA, CRIEPI
• 09GM0560, Study on a New Power Control of
Distributed Generation in an Isolated Microgrid
J. ARAI, Kogakuin
University
S. YAMAZAKI, Kogakuin
University
M. ISHIKAWA, Kogakuin
University
T. ITO, Tokyo Gas Co., Ltd.
• 09GM1321, Research and Development of
Distributed Generation in China
M. DING, Hefei University
of Technology
Y. XUE, Nanjing Automation
Research Institute
M. MAO, Hefei University of
Technology
L. CHANG, University of New
Brunswick, Fredericton
• 09GM1288, Experience and Prospect of Wind
Power Generation in Korea: Jeju Island Case
S. MOON, SNU
J. PARK, SNU
G. PYO, SNU
• 09GM0661, Distributed Generation - Basic
Policy, Perspective Planning, and Achievement So Far in India
S. MUKHOPADHYAY, IILM
Academy
B. SINGH, Indian Institute
of Technology Delhi
Energy Developments in South East Europe
Sponsored by: Energy Development
and Power Generation Committee
Chair: N. Iliadis,
Energy Consultant, Athens, Greece
The SEE energy
market in the last 10 years has gained significant importance due to:
transportation of fuels from Middle east and Russia to Central Europe,
synchronization with the UCTE network, investment opportunities in energy
projects, political stabilization and economic growth in the area, introduction
of most of SEE countries in the EU and governmental decision to act as an
energy hub. Investments are taking place in both fields of energy and
electricity. Infrastructure projects for gas, oil and electricity are studied
and developed in the SEE countries. The focus is on all development for
electricity and gas projects.
PRESENTATIONS
AND PANELISTS:
• 09GM0886, Existing SEE Transmission System
and Development
D. BAJS, Energy Institute
Hrvoje Pozar
G. MAJSTROVIC, Energy
Institute Hrvoje Pozar
• 09GM1029, Modeling and Simulation of the
Interconnected SEE and Italy Electricity Markets
S. BRUNO, Politecnico di
Bari,
M. LA SCALA, Politecnico di
Bari
G. GROSS, UIUC
• 09GM0582,
Development of the SEE Electricity Market - Current Obstacles and Way Forward
M. TINOCO, SNC-LAVALIN
T&D
• 09GM0907, Development of Coordinated
Cross-border Congestion Management in the SEE Region
M. PILS, Verbund-APG
• 09GM0948, Trading Opportunities in the SEE
N. ILIADIS, EnerCORD
P. BISKAS, HTSO
• 09GM1410, Status and Development of the
Russian Electricity Market
S. PALAMARCHUK, Energy
Systems Institute
N. VOROPAI, Energy Systems
Institute
*SG*
International Practices in Developments and Techniques in Smart Grids
Sponsored by: Energy Development
and Power Generation Committee
Chair: L. Lai, City
University London
K. P. Wong,
Hong Kong Polytechnic University
Power and
energy are the most important business, political and social issues of the
time. In many countries, electricity
networks are 40 to 50 years. The future
of power grids is expected to involve an increasing level of intelligence and
integration of new information and communication technologies in every aspect
of the electricity system, from demand-side devices to wide-scale distributed
generation to a variety of energy markets.
Smart grids
includes the development of new concepts, system architectures and a regulatory
framework for control, supervision and operation of electricity networks to
transform the grid into an interactive service network between customers and
operators, while maximizing reliability, power quality, efficiency, security
and reducing carbon emission. These
systems should be based on applications of distributed intelligence and
e-trading.
Leading
experts on case studies, techniques, methods and policy applied in smart grids
worldwide will give presentations.
Engineers, managers, policy makers, researchers and lawyers must not
miss the opportunity to attend.
PRESENTATIONS
AND PANELISTS:
• 09GM1224, Intelligent Reconfiguration of
Smart Distribution Network Using Multi-agent Technology
S. CHOUHAN, West Virginia
University
H. WAN, West Virginia
University
H. LAI, West Virginia
University
A. FELIACHI, West Virginia
University
M. CHOUDHRY, West Virginia
University
• 09GM1443, Potentials and Promises of
Computational Intelligence for Smart Grids
G. VENAYAGAMOORTHY,
Missouri University of Science and Technology
• 09GM0669,
An Introduction to Multiobjective Optimisation Methods for Decentralised Power
Planning
A. BERRY, CSIRO
D. CORNFORTH, CSIRO
G. PLATT, CSIRO
• 09GM1112, A Vision of Smart Transmission
Grids
Z. JIANG, University of
Miami
F. LI, The University of
Tennessee
W. QIAO, University of
Nebraska-Lincoln
H. SUN, Tsinghua University
H. WAN, West Virginia
University
J. WANG, Argonne National Laboratory
Y. XIA, Howard University
Z. XU, Technical University
of Denmark
P. ZHANG, Electric Power
Research Institute
P. KULSHRESTHA, North
Carolina State University
L. WANG, North Carolina
State University
M. CHOW, North Carolina
State University
S. LUKIC, North Carolina
State University
S. KONG, CSIRO
D. CORNFORTH, CSIRO
A. BERRY, CSIRO
• 09GM0739,
Exploratory Analysis of Massive Data for Distribution Fault Diagnosis in Smart
Grids
Y. CAI, North Carolina
State University
M. CHOW, North Carolina
State University
• 09GM0927, Towards a Danish Power System with
50% Wind - Smart Grids Activities in Denmark
Z. XU, Technical University
of Denmark
M. GORDON, Technical
University of Denmark
M. LIND, Technical
University of Denmark
J. ØSTERGAARD, Technical
University of Denmark
• 09GM0683,
Applications of Data Mining to Time Series of Electrical Disturbance Data
D. CORNFORTH, CSIRO
• 09GM1585, Smart Metering in Micro-Grid
Applications
P. LEE, Powerpeg NSI
Limited
L. LAI, Powerpeg NSI
Limited
*SG*
Transmission and Pricing for Fast Growing Markets
Sponsored by: Energy Development
and Power Generation Committee
Chair: L. A.
Barroso, PSR, Brazil
Transmission
expansion is a critical issue in fast-growing electricity markets, be the
developing world or the industrialized one. Competition in generation is
conditioned on how transmission facilities expand. The panel will review the
planning structure, pricing and regulation of transmission expansion activities
worldwide. A European case, where the incorporation of large-scale renewables
is turning more complex the technical and regulatory challenges will be
reviewed along with Latin American cases where hydroelectricity and distributed
generation (wind, sugar cane cogeneration and small hydro) are troubling
existing infrastructure. Distinguished panelists involved with transmission
planning and pricing will present the solutions being implemented.
PRESENTATIONS
AND PANELISTS:
• 09GM1153,
Transmission Expansion and Pricing in Colombia: An Appraisal of Current
Practices
H. SALAZAR, Universidad
Tecnologica de Pereira
L. ZULUAGA-LÓPEZ, XM
Compañía de Expertos en Mercados
R. LEÓN, XM Compañía de
Expertos en Mercados
• 09GM0618,
Transmission Tariffs and Planning in the Central American Regional Electricity
Market
M. TINOCO, SNC-LAVALIN
T&D
• 09GM1199,
The New Transmission Arrangements in the UK
R. MORENO, Imperial College
London
C. KONSTANTINIDIS, Imperial
College London
D. PUDJIANTO, Imperial
College London
G. STRBAC, Imperial College
London
• 09GM0958, Transmission Planning - From a
Market Approach to a Centralized One The Chilean Experience
H. RUDNICK, Pontificia
Universidad Catolica de Chile
J. ARANEDA, Transelec
S. MOCARQUER, Systep
F. PORRUA, PSR
R. CHABAR, PSR
L. THOMÉ, PSR
L. BARROSO, PSR
M. PEREIRA, PSR
*SG* Europe:
Integrating Distributed Generation: European Demonstration Projects and
Experiences with Virtual Power Plants
Sponsored by: Energy Development
and Power Generation Committee
Chair: A. Orths,
Energinet.dk
Virtual power
plants, i.e. the combination of several small generation units, storages and
the demand side have to interact in a way that the super-ordinate power system
recognizes this group as “one unit” fulfilling requirements of
traditional power plants. These are
delivery of system services, grid support during voltage and frequency
variations, power quality aspects and island operation capability. Several aspects of this current development
are highlighted, as new SCADA systems additionally considering contractual
market boundaries and new ICT-technology, architecture, processes and services
to manage the future energy supply system from smart generation to smart grids
and smart consumption.
PRESENTATIONS
AND PANELISTS:
• 09GM0667, Renewable Model Region Harz:
Climate Protection and Energy Efficiency by Modern ICT and Innovative Operation
Strategies
K. ROHRIG, ISET
F. SCHLÖGL, ISET
J. HEUER, SIEMENS AG, CT IC
2
• 09GM0931, Towards a Future SCADA
Z. VALE, Institute of
Engineering – Polytechnic of Porto
H. MORAIS, Institute of
Engineering – Polytechnic Institute of Porto
M. SILVA, Institute of
Engineering – Polytechnic Institute of Porto
C. RAMOS, Institute of
Engineering – Polytechnic Institute of Porto
• 09GM0107,
Optimal Operation of a Virtual Power Plant
P. LOMBARDI,
Otto-von-Guericke-University Magdeburg
M. POWALKO,
Otto-von-Guericke-University Magdeburg
K. RUDION,
Otto-von-Guericke-University Magdeburg
• 09GM1138,
Control Aspects and the Design of a Small-Scale Test Virtual Power Plant
A. ISHCHENKO, Eindhoven
University of Technology
W. KLING, Eindhoven
University of Technology
J. MYRZIK, Eindhoven
University of Technology
• 09GM0611, A Novel Approach for Distribution
System Operation Utilization State of the Art Communication Technology
D. WESTERMANN, University
of Technology Ilmenau
P. BRETSCHNEIDER,
Fraunhofer Application Center System Technology
H. RÜTTINGER, Fraunhofer
Application Center System Technology
C. KIENY, IDEA \ G2ELAB \
Grenoble Institute of Technology
B. BERSENEFF, IDEA \ G2ELAB
\ Grenoble Institute of Technology
N. HADJSAID, IDEA \ G2ELAB
\ Grenoble Institute of Technology
Y. BESANGER, IDEA \ G2ELAB
\ Grenoble Institute of Technology
J. MAIRE, EDF R&D
• 09GM0784,
European Test Field: VPP Denmark
A. ORTHS, Energinet.dk
P. ERIKSEN, Energinet.dk
• 09GM1159, Individual Customers’
Influence on the Operation of Virtual Power Plants
B. BUCHHOLZ, MVV Energie
D. NESTLE, ISET e.V.
A. KIESSLING, MVV Energie
• E-Energy
– The German Program to Manage Future Power
L. KARG, B.A.U.M. Consult
GmbH, Germany
Africa’s Economic Renaissance Gathers Momentum
Sponsored by: Energy Development
and Power Generation Committee
Chair: P. Naidoo,
Western Power Corridor, Africa
With primary
energy source from the Congo River, power system expansion plans for
Continental Africa gathers momentum. The river is the world’s number two
in capacity and capability and can deliver continuously 100,000s MW; virtually
limitless given innovative methods of harnessing the energy flow of the
river. Given large scale power
production virtually in one space geographically; large scale and innovative
power transmission designs are being prepared to evacuate the bulk power.
The Panel will
discuss this. This project will evolve to become the world’s biggest
engineering assignment and it has all the complexities of global business,
local and regional politics, local, regional and international financing, and
project and country risks. Amongst all
the thorns, simple and innovative engineering solutions continue to pave the
way forward and contribute to the development of the project.
With a general
background, new and innovative engineering solutions are prepared for panel
discussion and expert contributions.
Covered will be bulk hydro power generation without any damming of the
river; world class environmental care and strategic assessments; HVAC and HVDC
transmission technology including EHVDC at 800 kV and 1200 kV; HVAC versus HVDC
choices; Power System Performance Management including self healing for
transient disturbances and Power System Control and Operations on a wide area
scale such as Continental Africa.
The power
scheme being developed will eventually overlap with Europe and the Middle East
to create the World’s next generation power system with energy trading
that will go beyond the present state of the art.
PRESENTATIONS
AND PANELISTS:
• 09GM0847, Power Supply Challenges in Southern
Africa
L. MUSABA, Southern African
Power Pool
P. NAIDOO, Eskom
• 09GM0891, Proposed Principles for the
Evaluation and Funding of DSM Projects
D. PILLAY, Eskom
H. CLAASSEN, Eskom
• 09GM1103, New Strategies for Harvesting Large
Scale Bulk Energy from the Congo River without a Conventional Dam
P. NAIDOO, Eskom
• 09GM1424, A Micro Hydro Power Generation
System for Sustainable Microgrid Development in Rural Electrification of Africa
L. WANG, National Cheng
Kung University
D. LEE, National Cheng Kung
University
L. CHEN, National Cheng
Kung University
J. YU, National Cheng Kung
University
S. JAN, National Cheng Kung
University
S. CHEN, National Cheng
Kung University
W. LEE, UT Arlington
M. TSAI, Council of
Agriculture, Taiwan
W. LIN, Council of
Agriculture, Taiwan
Y. LI, Council of
Agriculture, Taiwan
B. BLYDEN, BBRM GRP
• 09GM1114, Preserving Low Cost Electricity
while Improving the Riverine Environment; Part Two-Model Results
P. PRECKEL, Purdue
University
F. SPARROW, Purdue
University
B. BOWEN, Purdue University
Z. YU, Purdue University
D. GOTHAM, Purdue
University
*SG*
International Practices for Alternative Energy in Developing Countries
Sponsored by: Energy Development
and Power Generation Committee
Chair: L. Lai, City
University London
The growth in
energy usage is largest in developing countries and the reduction of greenhouse
emission is a top priority. The
importance of this invited panel cannot be described by words. Development in power conversion techniques,
methods, policy and practices which enable safe, quick-response, and
high-quality and efficient generation of power from distributed energy sources
will be considered. The panel will cover
international practices and challenges in producing alternative energy together
with the realistic prospects for widespread deployment of cost effective, green
and emerging technologies. Some of the
key persons in the industry will participate with technical presentations.
PRESENTATIONS
AND PANELISTS:
• 09GM1018, Biomass Power Generation
Development in Thailand
C. CHOMPOO-INWAI, King
Mongkut’s Institute of Technology Ladkrabang
M. LEELAJINDAKRAIRERK, King
Mongkut’s Institute of Technology Ladkrabang
S. BANJONGJIT, King Mongkut’s
Institute of Technology Ladkrabang
P. FUANGFOO, Provincial
Electricity Authority
W. LEE, University of Texas
at Arlington
• 09GM0915, Detection of Voltage Variations due
to Distributed Energy Resources
N. TSE, City University of
Hong Kong
L. ZHOU, City University
London
• 09GM0925, A Practical Approach of Smart
Metering in Remote Monitoring of Renewable Energy Applications
P. LEE, Powerpeg NSI
Limited
L. LAI, Energy Systems
Group
• 09GM0496, A Novel Newton Current Equation
Method on Power Flow Analysis in Microgrid
Y. ZHANG, Southeast
University
Y. LU, Southeast University
• 09GM0831, Analysis of Regulating Wind Power
for Power Systems
J. ZHU, AREVA T&D Inc.
K. CHEUNG, AREVA T&D
Inc.
• 09GM1091,
Renewable Energy Generation in India: Present Scenario and Future Prospects
S. SINGH, Indian Institute
of Technology Kanpur
B. SINGH, Indian Institute
of Technology Kanpur
J. ØSTERGAARD, Technical
University of Denmark
• 09GM0706,
A Novel Wind Energy System
T. CHAN, The Hong Kong
Polytechnic University
L. LAI, City University
London
• 09GM0057, Australian Electricity Market Power
Analysis Under Potential Emission Trading Scheme
X. ZHOU, University of
Queensland
Z. DONG, The Hong Kong
Polytechnic University
A. LIEBMAN, University of
Queensland
G. JAMES, CSIRO
• 09GM0938, Wind Energy Development in China
(WED)-The Danish-Chinese Collaboration Project
Z. XU, Technical University
of Denmark
H. ROSENBERG, BALSLEV A/S
P. EJNAR SØRENSEN,
Technical University of Denmark
H. ABILDGAARD,
Energinet.dk, Tonne Kjærsvej
O. HOLMSTRØM, DONG Energy
Y. CHI, China Electric
Power Research Institute
Y. LI, China Electric Power
Research Institute
W. SHI, China Electric
Power Research Institute
Z. WANG, China Electric
Power Research Institute
W. WANG, China Electric
Power Research Institute
• 09GM0962, Acquiring Knowledge and Information
on Alternative Energy from the World Wide Web
C. FUNG, Murdoch University
W. THANADECHTEEMAPAT,
Murdoch University
D. HARRIES, Murdoch
University
• 09GM0973, Interface of a Fuel Cell
Distributed Generator with Distribution System Network
T. CHOI, Korea Electric
Power Corporation
K. LEE, Baylor University
International Practices in Demand Side Management:
Practices and Barriers
Sponsored by: Energy Development
and Power Generation Committee
Chair: R. A.
El-Keib, The Petroleum Institute, UAE
Demand Side
Management (DSM) measures takes advantage of opportunities to increase the efficiency
of energy service delivery; these opportunities are not being fully taken
advantage of in many countries worldwide. Numerous studies in many countries
worldwide have found that cost-effective DSM programs can reduce electricity
use and peak demand by 20-40%. Without DSM programs, these energy and peak
demand savings would not occur or would materialize only after significant
delay, and in any case could not be relied upon, forcing utilities to construct
expensive back-up capacity and causing higher rates. To make use of DSM
measures requires special programs that help overcome various barriers that
prevent many cost-effective DSM measures from being adopted. Such barriers exist even in countries with
fully developed market economies.
The panel will
review practices and challenging barriers with regard to different aspects of
DSM programs including planning, implementation, and evaluation in different
electricity market environments around the globe. Distinguished panelists from Canada, Denmark,
India, New Zealand, South Africa, South Korea, and the United States of America
who are actively involved in Demand Side Management and energy efficiency
projects will address the issues and share their experience with implemented
solutions.
PRESENTATIONS
AND PANELISTS:
• 09GM0003, Roadmap for Demand Response in the
Korean Electricity Market
J. KIM, Kyungwon University
T. HAHN, Illinois Institute
of Technology
K. YANG, ADICA Consulting
LLC.
• 09GM0663, Danish DSM Activities –
Current Results and Possible Developments
M. TOGEBY, Ea Energy
Analyses
• 09GM0083,
Demand Side Management in Support for the Grid
R. STEWART, Transpower New
Zealand Limited
• 09GM0359, Creating a Culture of Conservation
in Ontario: Approaches, Challenges and Opportunities
S. NORRIE, OPA
P. LOVE, Conservation
Bureau, Ontario Power Authority
• 09GM1089, Demand Side Management Road Map for
India
S. KUMAR, Bureau of Energy
Efficiency
Europe: Improving Transmission Capacity of Power
Systems with a High Level of Distributed and Renewable Generation - Dynamic
Protection and Security
Sponsored by: Energy Development
and Power Generation Committee
Chair: R. Krebs,
Siemens AG, Energy, Germany
Power
Generation and load must be balanced in electrical power systems. The balance
is disturbed by stochastic (freedom of consumers) and increasing installation
of stochastic renewable generation. This
leads to higher system dynamics in normal operation, changing system structures
and higher requirements on system protection.
New methods for assessment of the dynamic state of the power system for
possible contingencies, as well as for the quality and usability of the
existing protection scheme, must be defined.
Distinguished panelists from Universities, Utilities, Consulting and
Manufacturing Companies will present newest developments in the area of Dynamic
Network Protection and Protection Security Assessment.
PRESENTATIONS
AND PANELISTS:
• 09GM0542,
Protection Coordination - An Important Task for Network Security
J. JAEGER, University of
Erlangen
R. LUBIATOWSKI, University
of Erlangen
R. KREBS, Siemens AG
G. ZIEGLER, Siemens AG
• 09GM0895, Defense Plan Against Major
Disturbances of the Romanian EPS
F. BALASIU, C.N.
Transelectrica S A
F. LAZAR, C.N.
Transelectrica.
R. BALAURESCU, C.N.
Transelectrica S A
• 09GM0871, Selected Problems of Protective
Relaying for Distribution Network with Distributed Generation
W. ROJEWSKI, Wroclaw University
of Technology
Z. STYCZYNSKI,
Otto-von-Guericke University Magdeburg
J. IZYKOWSKI, Wroclaw
University of Technology
• 09GM0827, Dynamic Protection and Security
Assessment for Highly Loaded Power Systems
R. KREBS, Siemens AG,
Energy
E. LERCH, Siemens AG,
Energy
O. RUHLE, Siemens AG,
Energy
• 09GM0849,
Power System Survivability Increase with Intelligent Support Tools
H. DELLWING, IABG
S. GERETSHUBER, IABG
C. SCHWAEGERL, Siemens AG
O. SEIFERT, Siemens AG
• 09GM0362, Small Signal Security
Quantification of Highly Loaded Power Systems
U. KERIN, University of
Ljubljana
E. LERCH, SIEMENS AG,
Germany
G. BIZJAK, University of
Ljubljana
• 09GM0112,
Voltage Stability Analysis as Part on an Online DSA System
C. HEYDE, Otto-von-Guericke
University Magdeburg
Z. STYCZYNSKI,
Otto-von-Guericke University Magdeburg
International Practices in Biomass - Theory, Case
Studies and Plant Overall Performance
Sponsored by: Energy Development
and Power Generation Committee
Chair: N. Iliadis,
Energy Consultant, Athens, Greece
Numerous
countries have implemented various techniques for the utilization of available
types of solid biomass. Beginning from the most conventional solid biomass,
wood and its residues, moving to waste and ending with agricultural and its
residues, research laboratories and companies are investing on the development
of technology. The focus is on the areas
of boilers, for different types of biomass utilization through combustion,
gasification and pyrolisis, heat exchangers according to the biomass used,
turbines and overall power plant design including the feeding technology, the
ash disposal and valorization, the emissions filtering and the operation
planning of the asset.
PRESENTATIONS
AND PANELISTS:
• 09GM0781,
Recent Advances of Sugarcane Biomass Cogeneration in Brazil
S. GRANVILLE, PSR
P. LINO, PSR
F. RALSTON, PSR
L. BARROSO, PSR
M. PEREIRA, PSR
• 09GM0935, Biomass Power as a Firm Utility
Resource: Bigger Not Necessarily Better OR Cheaper
W. CARLSON, Carlson Small
Power Consultants
• 09GM0899, Biomass Development and Potential
in South East Europe
N. ILIADIS, EnerCoRD