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Insegnamento
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CFU
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SSD
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Ore Lezione
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Ore Eserc.
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Ore Lab
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Ore Studio
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Attività
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Lingua
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1056005 -
ELECTRICAL MARKETS AND PROJECT MANAGEMENT FOR CONVENTIONAL AND RENEWABLE ENERGY APPLICATION
(obiettivi)
ELECTRICAL MARKETS
In this subject students will identify the main agents involved in the European electrical and gas markets understanding the role of each one in the whole market operation. Also the operation of the spot and future markets will be treated.
PROJECT MANAGEMENT FOR CONVENTIONAL RENEWABLE ENERGY APPLICATION
Students will be able to assess and to compare different offers and develop an efficient management of power systems projects.
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PROJECT MANAGEMENT FOR CONVENTIONAL AND RENEWABLE ENERGY APPLICATION
(obiettivi)
ELECTRICAL MARKETS
In this subject students will identify the main agents involved in the European electrical and gas markets understanding the role of each one in the whole market operation. Also the operation of the spot and future markets will be treated.
PROJECT MANAGEMENT FOR CONVENTIONAL RENEWABLE ENERGY APPLICATION
Students will be able to assess and to compare different offers and develop an efficient management of power systems projects.
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Fernandez Ceferino
( programma)
ELECTRICAL MARKETS
These are the expected learning outcomes in term of the syllabus of the curricular unit:
• Knowledge of the relationships between different electrical markets, as well as the regulation of activities
involved in the management of primary energies. [SL15]
• Ability to understand, analyze and discuss the main macroeconomic variables involved in the energetic
sector. [SL16]
• Ability to identify and classify the main aspects and business strategies related to investments, financing,
risk management and fiscal policy in the energetic markets.
PROJECT MANAGEMENT FOR CONVENTIONAL AND RENEWABLE ENERGY APPLICATION
Project design and management in the scope of the master's topics[BL1]
• Writing, communicating and presenting scientific documents to specialists, within the scope of the contents of the Master Degree (electric power systems, hybrid and electrical vehicles and renewable energies). [BL2]
• Knowledge and analysis of the energetic structures and technologies necessary, considering multiple aspects as the requirements, expected technical evolution, efficiency, security, sustainable development concerns, environmental and service guaranteeing issues. [SL14]
• Ability to identify and classify the main aspects and business strategies related to investments, financing, risk management and fiscal policy in the energetic markets. [SL17]
• Knowledge of the marketing mechanisms among the elements of the energy markets, particularizing for the electrical energy market. [SL18]
• Ability to develop an appropriate management strategy based on the various offers provided in the electric energy market. [SL19]
• Ability to identify the participant agents in the gas and electric market, and to understand its operation considering different management strategies. [SL20]
• Understanding of the prize generation procedure, identifying the different components of the final energy prize and rate. [SL21]
• Ability to assess the environmental and social implications of the operation of the electrical markets including sustainable development concerns. [SL22]
 ELECTRICAL MARKETS
-"Markets for Power: An Analysis of Electrical Utility Deregulation", Paul L. Joskow, Richard Schmalensee, MIT Press
Books,The MIT Press,edition 1, volume 1, number 0262600188.
-"Market Operations in Electric Power Systems: Forecasting, Scheduling, and Risk Management", Mohammad
-Shahidehpour, Hatim Yamin, Zuyi Li, 2002 John Wiley & Sons, Inc., DOI: 10.1002/047122412X.fmatter_indsub
-S. Stoft, Power Systems Economics: Designing Markets for Electricity, IEEE Press/Wiley, New York. ISBN: 978-0-471-15040-4, 2002.
-S. Hunt, G. Shuttleworth, Competition and Choice in Electricity, Chichester, UK, Jo
PROJECT MANAGEMENT FOR CONVENTIONAL AND RENEWABLE ENERGY APPLICATION
-"Project Management Case Studies". Harold Kerzner, John Wiley and Sons, Inc., 2009, ISBN 978-0-470-27871-0
-"Project management : engineering, technology, and implementation", Shtub, Avraham; Bard, Jonathan F.; Globerson, Shlomo, Englewood. 1994.
-Lev S. Belyaev, Electricity Market Reforms Economics and Policy Challenges, Springer Science+Business Media, 2011.
-Hisham Khatib, Economic evaluatios of Projects in the Electricity Supply Industry, Institution of Engineering and
Technology, 2008.
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4
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ING-IND/33
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40
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-
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Attività formative caratterizzanti
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ENG |
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ELECTRICAL MARKETS
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Fernandez Rodrigo
( programma)
These are the expected learning outcomes in term of the syllabus of the curricular unit:
• Knowledge of the relationships between different electrical markets, as well as the regulation of activities
involved in the management of primary energies. [SL15]
• Ability to understand, analyze and discuss the main macroeconomic variables involved in the energetic
sector. [SL16]
• Ability to identify and classify the main aspects and business strategies related to investments, financing,
risk management and fiscal policy in the energetic markets.
Project design and management in the scope of the master's topics[BL1]
• Writing, communicating and presenting scientific documents to specialists, within the scope of the contents of the Master Degree (electric power systems, hybrid and electrical vehicles and renewable energies). [BL2]
• Knowledge and analysis of the energetic structures and technologies necessary, considering multiple aspects as the requirements, expected technical evolution, efficiency, security, sustainable development concerns, environmental and service guaranteeing issues. [SL14]
• Ability to identify and classify the main aspects and business strategies related to investments, financing, risk management and fiscal policy in the energetic markets. [SL17]
• Knowledge of the marketing mechanisms among the elements of the energy markets, particularizing for the electrical energy market. [SL18]
• Ability to develop an appropriate management strategy based on the various offers provided in the electric energy market. [SL19]
• Ability to identify the participant agents in the gas and electric market, and to understand its operation considering different management strategies. [SL20]
• Understanding of the prize generation procedure, identifying the different components of the final energy prize and rate. [SL21]
• Ability to assess the environmental and social implications of the operation of the electrical markets including sustainable development concerns. [SL22]
-"Markets for Power: An Analysis of Electrical Utility Deregulation", Paul L. Joskow, Richard Schmalensee, MIT Press
Books,The MIT Press,edition 1, volume 1, number 0262600188.
-"Market Operations in Electric Power Systems: Forecasting, Scheduling, and Risk Management", Mohammad
-Shahidehpour, Hatim Yamin, Zuyi Li, 2002 John Wiley & Sons, Inc., DOI: 10.1002/047122412X.fmatter_indsub
-S. Stoft, Power Systems Economics: Designing Markets for Electricity, IEEE Press/Wiley, New York. ISBN: 978-0-471-15040-4, 2002.
-S. Hunt, G. Shuttleworth, Competition and Choice in Electricity, Chichester, UK, Jo
-"Project Management Case Studies". Harold Kerzner, John Wiley and Sons, Inc., 2009, ISBN 978-0-470-27871-0
-"Project management : engineering, technology, and implementation", Shtub, Avraham; Bard, Jonathan F.; Globerson, Shlomo, Englewood. 1994.
-Lev S. Belyaev, Electricity Market Reforms Economics and Policy Challenges, Springer Science+Business Media, 2011.
-Hisham Khatib, Economic evaluatios of Projects in the Electricity Supply Industry, Institution of Engineering and
Technology, 2008.
(Date degli appelli d'esame)
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5
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ING-IND/33
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50
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Attività formative caratterizzanti
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ENG |
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1055939 -
ADVANCED POWER SYSTEMS DESIGN AND ANALYSIS AND ANALYSIS AND SIMULATION OF RAILWAY POWER SYSTEMS
(obiettivi)
This subject is focused on the description of the power systems used specifically for feeding trains and trams, different kind of simplified train models will be studied but focusing specially on the network models and the influence of the different trains and devices on the network variables. The student will learn how to simulate traffic and how to link this traffic simulators with the electrical ones.
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ADVANCED POWER SYSTEMS DESIGN AND ANALYSIS
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GONZALES MORAN CRISTINA
( programma)
AC conventional feeding systems
Bi-voltage feeding systems for AC high speed trains
Simulation of railways systems
Introduction to railway infrastructures
Different kind of trains and their special characteristics
Defining the topology variation in railway transportation systems
DC railway infrastructure for light trains and trams
Contact Lines for Electrical Railways: Planning - Design - Implementation - Maintenance” Friedrich Kießling, Axel
Schmieder, Rainer Puschmann , wiley , 2009
(Date degli appelli d'esame)
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6
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ING-IND/33
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60
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Attività formative caratterizzanti
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ENG |
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ANALYSIS AND SIMULATION OF RAILWAY POWER SYSTEMS
(obiettivi)
This subject is focused on the description of the power systems used specifically for feeding trains and trams, different kind of simplified train models will be studied but focusing specially on the network models and the influence of the different trains and devices on the network variables. The student will learn how to simulate traffic and how to link this traffic simulators with the electrical ones.
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ARBOLEYA PABLO
( programma)
Introduction to railway infrastructures
Different kind of trains and their special characteristics
Defining the topology variation in railway transportation systems
DC railway infrastructure for light trains and trams
AC conventional feeding systems
Bi-voltage feeding systems for AC high speed trains
Simulation of railways systems
Contact Lines for Electrical Railways: Planning - Design - Implementation - Maintenance” Friedrich Kießling, Axel
Schmieder, Rainer Puschmann , wiley , 2009
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3
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ING-IND/33
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30
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Attività formative caratterizzanti
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ENG |
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1055937 -
ECONOMICAL AND FINANCIAL ANALYSIS AND ELECTRICAL ENERGY AND COOPERATION FOR DEVELOPMENT
(obiettivi)
ECONOMICAL AND FINANCIAL ANALYSIS
This subject will give an overview of the macroeconomic context in the electricity sector, aiming to define the structure of the energy market. The value chain of the different energy Business and the main aspects relative to investments, financing, management of risks and tax system on the energetic markets will be analyzed.
ELECTRICAL ENERGY AND COOPERATION FOR DEVELOP
Students will be able to acquire a supportive and global vision of the reality, complementing the conventional technical learning with ethical principles that should guide their professional exercise, what includes abilities as the following:
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ELECTRICAL ENERGY AND COOPERATION FOR DEVELOPMENT
(obiettivi)
ECONOMICAL AND FINANCIAL ANALYSIS
This subject will give an overview of the macroeconomic context in the electricity sector, aiming to define the structure of the energy market. The value chain of the different energy Business and the main aspects relative to investments, financing, management of risks and tax system on the energetic markets will be analyzed.
ELECTRICAL ENERGY AND COOPERATION FOR DEVELOP
Students will be able to acquire a supportive and global vision of the reality, complementing the conventional technical learning with ethical principles that should guide their professional exercise, what includes abilities as the following:
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COQUE JORGE
( programma)
These are the expected learning outcomes in term of the syllabus of the curricular unit:
• Project design and management in the scope of the master's topics[BL1]
• Writing, communicating and presenting scientific documents to specialists, within the scope of the contents of the
Master Degree (electric power systems, hybrid and electrical vehicles and renewable energies). [BL2]
• Critical sense, respect for the diversity and social focus of the professional activity related to the management of the
energy. [SL24]
• Comprehension of the links between development and energy sector technologies and businesses. [SL25]
• Analysis of concrete cases of basic need dissatisfaction and design of solutions based on electric power
management systems. [SL26]
Mulder, K. (Editor) 2006. "Sustainable Development for Engineers: A handbook and Field Guide", Greenleaf Publishers.
-http://www.ewb-international.org/
-S. Stoft, Power Systems Economics: Designing Markets for Electricity, IEEE Press/Wiley, New York. ISBN: 978-
0-471-15040-4, 2002.
-Caroline Varley, Caroline Varley, Gudrun Lammers, Electricity Market Reform (Energy Market Reform), Organisation for
Economic Co-Operation and Development, International Energy Agency.
(Date degli appelli d'esame)
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3
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SECS-P/06
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30
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Attività formative affini ed integrative
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ENG |
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ECONOMICAL AND FINANCIAL ANALYSIS
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PIRES CELMA
( programma)
ECONOMICAL AND FINANCIAL ANALYSIS
These are the expected learning outcomes in term of the syllabus of the curricular unit:
• Knowledge of the relationships between different electrical markets, as well as the regulation of activities
involved in the management of primary energies.
• Ability to understand, analyze and discuss the main macroeconomic variables involved in the energetic
sector.
• Ability to identify and classify the main aspects and business strategies related to investments, financing,
risk management and fiscal policy in the energetic markets.
• Ability to identify the participant agents in the gas and electric market, and to understand its operation
considering different management strategies.
• Understanding of the prize generation procedure, identifying the different components of the final energy
prize and rate.
ELECTRICAL ENERGY AND COOPERATION FOR DEVELOPMENT
These are the expected learning outcomes in term of the syllabus of the curricular unit:
• Project design and management in the scope of the master's topics.
• Writing, communicating and presenting scientific documents to specialists, within the scope of the contents of the
Master Degree (electric power systems, hybrid and electrical vehicles and renewable energies).
• Critical sense, respect for the diversity and social focus of the professional activity related to the management of the
energy.
• Comprehension of the links between development and energy sector technologies and businesses.
• Analysis of concrete cases of basic need dissatisfaction and design of solutions based on electric power
management systems.
ECONOMICAL AND FINANCIAL ANALYSIS
-Bjorgan, R.; Chen-Ching Liu; Lawarree, J.; , "Financial risk management in a competitive electricity market," Power Systems, IEEE Transactions on , vol.14, no.4, pp.1285-1291, Nov 1999 doi: 10.1109/59.801886
-"Business analysis & valuation: using financial statements", Krishna G. Palepu, Paul M. Healy. Thomson
Corparation, ISBN: 978-0-324-30292-9
ELECTRICAL ENERGY AND COOPERATION FOR DEVELOPMENT
-Mulder, K. (Editor) 2006. "Sustainable Development for Engineers: A handbook and Field Guide", Greenleaf Publishers.
-http://www.ewb-international.org/
-S. Stoft, Power Systems Economics: Designing Markets for Electricity, IEEE Press/Wiley, New York. ISBN: 978-
0-471-15040-4, 2002.
-Caroline Varley, Caroline Varley, Gudrun Lammers, Electricity Market Reform (Energy Market Reform), Organisation for
Economic Co-Operation and Development, International Energy Agency.
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3
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SECS-P/06
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30
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Attività formative affini ed integrative
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ENG |
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1055922 -
APPLIED SIMULATION TO POWER SYSTEMS AND CONTROL OF POWER CONVERTERS FOR FACTS AND HVDC APPLICATIONS
(obiettivi)
APPLIED SIMULATION TO POWER SYSTEMS
The design and operation of today power systems heavily relies on the use of simulation tools, both for planning the initial infrastructure when designing a new power system network but also to test the effects on changes on the network, propagation of faults and modifications in the topology in order to include new distributed generation mills or new loads. New simulation tools allow the integration of power electronics devices in the power network, including a seamlessly integration from the power systems level to the device level. For this reason, learning on how to use these tools in a combined way is a fundamental skill that students in the field of the power systems must acquire.
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APPLIED SIMULATION TO POWER SYSTEMS
(obiettivi)
APPLIED SIMULATION TO POWER SYSTEMS
The design and operation of today power systems heavily relies on the use of simulation tools, both for planning the initial infrastructure when designing a new power system network but also to test the effects on changes on the network, propagation of faults and modifications in the topology in order to include new distributed generation mills or new loads. New simulation tools allow the integration of power electronics devices in the power network, including a seamlessly integration from the power systems level to the device level. For this reason, learning on how to use these tools in a combined way is a fundamental skill that students in the field of the power systems must acquire.
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Gonzales Joaquin
( programma)
Coursework, reports and written examination at the end of the semester.
For this subject, the assessment methodologies are described ahead:
-Assessment of the proposed works/projects. It is a mandatory test.
-Simulations developed by the student, considered as a simulated task performance test. It is a mandatory test.
-Individual written test, which will be done at the end of the semester. Taking the final exam is mandatory, and a minimum score of 4/10 must be achieved.
-oral tests on the topics developed by the students.
-attendance to the presential hours (a minimum of 80% is required).
-http://www.mathworks.es/help/toolbox/simulink/
-Yao Guonian; Huang Haiying; Sun Hao; Wei Junhu; Sun Guoji; , "The whole vehicle system dynamics modeling and
simulation for transportation vehicle," Mechanic Automation and Control Engineering (MACE), 2010 International
Conference on , vol., no., pp.698-701, 26-28 June 2010 doi: 10.1109/MACE.2010.5536044
(Date degli appelli d'esame)
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3
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ING-IND/33
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30
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Attività formative caratterizzanti
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ENG |
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CONTROL OF POWER CONVERTERS FOR FACTS AND HVDC APPLICATIONS
(obiettivi)
APPLIED SIMULATION TO POWER SYSTEMS
The design and operation of today power systems heavily relies on the use of simulation tools, both for planning the initial infrastructure when designing a new power system network but also to test the effects on changes on the network, propagation of faults and modifications in the topology in order to include new distributed generation mills or new loads. New simulation tools allow the integration of power electronics devices in the power network, including a seamlessly integration from the power systems level to the device level. For this reason, learning on how to use these tools in a combined way is a fundamental skill that students in the field of the power systems must acquire.
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GARCIA FERNANDEZ PABLO
( programma)
Evidence of the syllabus coherence with the curricular unit’s intended learning outcomes:
to know which are the main power electronic topologies for this kind of applications.
To know the controls applied in each of the cases depending on the topology and the application
To be able to implement a comprehensive low level transient model including the topology and the control of each device. To be able to include in the controls the coordination strategy among different devices installed in the same network.
APPLIED SIMULATION TO POWER SYSTEMS
-http://www.mathworks.es/help/toolbox/simulink/
-Yao Guonian; Huang Haiying; Sun Hao; Wei Junhu; Sun Guoji; , "The whole vehicle system dynamics modeling and
simulation for transportation vehicle," Mechanic Automation and Control Engineering (MACE), 2010 International
Conference on , vol., no., pp.698-701, 26-28 June 2010 doi: 10.1109/MACE.2010.5536044
CONTROL OF POWER CONVERTERS FOR FACTS AND HVDC APPLICATIONS
Facts Controllers in Power Transmission and Distribution”, K.R. Padiyar, New Age International Publishers, 2007.
“Flexible AC transmisión Systems (Modeling and Control)”, Zhang, Rehtanz and Pal, Springer, 2006.
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Attività formative caratterizzanti
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ENG |
