IIT Annual Academic Report CampaignCourse 2022 - 2023 - English Version
The information available of Dr.D.Francisco Javier Renedo Anglada since September 01, 2022 to August 31, 2023 is showed below. This information will be used to develop the IIT Annual Academic Report and the Comillas Annual Report, so it is very important that it is correct and complete. All fields displayed in each reference must have information, unless otherwise stated (eg "Not Applicable"). Please, complete it. Also make sure the information is displayed in the correct section. If you find any errors or missing information, please send an email by clicking here indicating the section and incorrect or missing information. To send comments/suggestions/bugs... on the website, please click here. To view the Spanish Version, click here. To view the Full Version of the report, click here.
[Expand all | Collapse all] Chapter 1. Organizational structure [ | ]- 1.1 Management
- 1.2 Council
- 1.3 Area coordinators
- 1.4 Scientific advisory board
- 1.5 Academic staff
- 1.6 Associated academic staff
- 1.7 Pre- and postdoctoral fellows
- 1.8 Areas of Research
- 1.8.1 MAC Coordinator
- 1.8.2 REDES Coordinator
- 1.8.3 RYE Coordinator
- 1.8.4 SADSE Coordinator
- 1.8.5 PCI Coordinator
- 1.8.6 ASF Coordinator
- 1.8.7 ASI Coordinator
- 1.8.8 BIO Coordinator
- 1.8.9 SMS Coordinator
- 1.9 Services staff
- 1.9.1 Systems Administrator Staff
- 1.9.2 Administrative Staff
Chapter 2. Research [ | ]- 2.1 Research Projects
- 2.1.1 Research and develop projects
- 2.1.1.1 Private funding
- 2.1.1.2 Public funding
* | Abbreviated name: | PROMINT-CAM | | Project title: | Programa Microrredes Inteligentes Comunidad de Madrid | | Funding entity: | Comunidad de Madrid, Fondo Social Europeo, Fondo Europeo de Desarrollo Regional | | Start date: | January 2019 | | End date: | April 2023 | | Researcher(s): | Aurelio García Cerrada, David Domínguez Barbero, Ramón Rodríguez Pecharromán, Carlos Rodríguez-Morcillo García, Pablo Frías Marín, Jaime Boal Martín-Larrauri, Javier Matanza Domingo, Álvaro Sánchez Miralles, Lukas Sigrist, Francisco Javier Renedo Anglada, Pablo García González, Asunción Paloma Cucala García, Antonio Fernández Cardador, Luis Rouco Rodríguez, Andrés Tomás Martín, Javier García González | | Description: | PROMINT will investigate several aspects of the deployment of smart micro-grids in urban environments: generation, energy recovery, electric vehicles, peer-to-peer communications and machine learning applied to data collection and analysis. Specific objectives are:
1. Design, simulation, communication architecture evaluation in distributed energy systems working as micro-grids.
2. Study of hybrid AC-DC urban micro-grids.
3. Energy recovery and recycling from urban railway systems in urban micro-grids.
4. Generation management of micro-grids.
5. Machine learning applied to micro-grids, electric vehicles and energy management.
Program of R&D activities among Research Groups of “Comunidad de Madrid” in Technology 2018, funding by Comunidad de Madrid and co-funding by European Social Fund and European Regional Development Fund, 2014-2020. |
| | | | * | Abbreviated name: | IELECTRIX | | Project title: | IELECTRIX - Indian and European Local Energy CommuniTies for Renewable Integration and the Energy Transition (Horizon 2020. Grant agreement No. 824392) | | Funding entity: | European Commission | | Start date: | May 2019 | | End date: | October 2022 | | Researcher(s): | Rafael Cossent Arín, Pablo Frías Marín, Carlos Mateo Domingo, Fernando Emilio Postigo Marcos, Nicolás Mariano Morell Dameto, Mauricio Correa Ramírez, Luca De Rosa, Francisco Javier Renedo Anglada, Lukas Sigrist, Leandro Lind, Leslie Herding, Néstor Rodríguez Pérez | | Description: | An increasing role is foreseen in Europe for local energy communities (LECs) to speed up the grid integration of RES. Today, the enabling role of DSOs in support of LECs is hampered by a lack of flexibility when planning cost-efficient LEC connections to their network at MV level, and by a lack of digitalization of the LV networks to make LEC’s smart prosumers benefit economically when serving the DSO flexibility needs. Four European DSOs (E.ON, ENEDIS, E.DIS, Güssing Stadtwerke) and an Indian DSO (TATA) have joined with IT-based, innovative product and solution providers, and technology and research centers, to demonstrate the combined roles of innovative functionalities serving the MV and LV networks, when implemented in 5 different regulatory regimes (Austria, France, Hungary, Germany, India- state of Delhi-).
The joint work of DSOS aims at accelerating scaling up and replication tested by HEDNO (Greece) and E.ON (Sweden). Dissemination towards players of the energy value chain recommends business models, possible regulatory adjustments and deployment roadmaps of the most promising use cases, in support of the implementation of the Clean Energy Package.
This project has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No 824392 |
| | | | * | Abbreviated name: | INERCIA0_BIS | | Project title: | Stability analysis of large power systems with 100% of non-synchronous generators | | Funding entity: | Ministerio de Ciencia e Innovación (MCI) | | Start date: | September 2020 | | End date: | August 2024 | | Researcher(s): | Aurelio García Cerrada, Régulo Enrique Ávila Martínez, Luis Rouco Rodríguez, Francisco Javier Renedo Anglada | | Description: | The future sustainability of the Worlds Energy System (WES) rests on a massive and distributed penetration of renewable energy sources and their substantial increase in the generation mix. This phenomenon is already taking place at an ever-increasing pace (that is bound to speed up in the future) thanks to facilitating technologies such as power electronics. Therefore, conventional synchronous technology will gradually move from its dominant position towards a situation in which coordination with other and newer technologies will be mandatory. In fact, a situation in which the whole electricity demand of certain regions is supplied by electronic converters from renewable energy sources, at least temporarily, is possible or is already occurring. In this new situation there exists the urgent need to rethink current paradigms regarding the control and operation of conventional electric energy systems in order to address future scenarios (lower system inertia, faster dynamics, controller interactions, etc.). The main objective of this project is to provide the in-depth analysis of the control, operation and technology requirements for the newly created breed of electricity networks of low-to-nil conventional generation with increasing numbers of smart components (generators and loads, for example). This type of systems must include (a) alternating current (AC) sub-grids because of the large number of existing AC loads and the necessity of maintaining the compatibility with the conventional grid and (b) direct current (DC) sub-grids where most of the renewable-based generation can be more naturally integrated (see solar energy, for example), energy storage (batteries) can also be easily interfaced and some domestic and industrial loads can be connected (computers and electrical drives, for example). Currently, the operation of hybrid (DC/AC) electric grids is possible thanks to the use of electronic Voltage Source Converters (VSCs, abbreviated). This project will address the following specific topics:
"Modelling, analysis, control, and quality of electrical grids with low-to-nil conventional generation in order to improve their flexibility thanks to the use of power electronics while similar levels of voltage control, quality and reliability of supply to those already achieved with conventional systems can be reached."
This project is supported by the Spanish Government through the 2019 edition of its pre-doctoral contract programme with reference number PRE2019-088084 | | | |
- 2.1.2 Consultancy and technological support
- 2.1.2.1 Private funding
* | Abbreviated name: | BID_Bolivia_Brasil | | Project title: | Study of the electrical interconnection between Bolivia and Brasil | | Funding entity: | Banco Interamericano Desarrollo (BID), Empresa Nacional de Electricidad (ENDE) - Bolivia, Centrales Eléctricas Brasileñas (ELETROBRAS) | | Start date: | June 2019 | | End date: | September 2022 | | Researcher(s): | Luis Olmos Camacho, Andrés Ramos Galán, Michel Rivier Abbad, Jesús María Latorre Canteli, Francisco Miguel Echavarren Cerezo, Francisco Javier Renedo Anglada, Stefanía Gómez Sánchez | | Description: | Technical and economical assessment of the elecrical interconnection between Bolivia and Brasil. | | | |
- 2.1.2.2 Public funding
- 2.1.3 Services and analysis projects
- 2.1.3.1 Private funding
- 2.1.3.2 Public funding
- 2.2 Publications
- 2.2.1 Books
- 2.2.2 Chapters in books
- 2.2.3 Papers in Journals
* | Author(s): | J. Renedo, L. Rouco, A. García-Cerrada, L. Sigrist | | Title: | Transient stability versus damping of electromechanical oscillations in power systems with embedded multi-terminal VSC-HVDC systems | | Journal: | IET Generation Transmission & Distribution | | Vol & Num: | vol. 17, nº. 15 | | Pages: | 3477-3487 | | ISSN: | 1751-8687 | | Publication date: | June 2023/August 2023 | | | | * | Author(s): | M. Robin, J. Renedo, J.C. González-Torres, A. García-Cerrada, A. Benchaib, P. García-González | | Title: | An algorithm for DC segmentation of AC power systems to mitigate electromechanical oscillations | | Journal: | IEEE Access | | Vol & Num: | vol. 11 | | Pages: | 64651-64667 | | ISSN: | 2169-3536 | | Publication date: | June 2023/December 2023 | | | |
- 2.2.4 Papers in Congress
- 2.2.5 IIT Technical Documents
- 2.2.6 Other Publications
- 2.3 Software Products
Chapter 3. Teaching [ | ]- 3.1 Supervised Bachelor Theses at IIT
- 3.1.1 Bachelor's Degree in Engineering for Industrial Technologies
- 3.1.2 Bachelor's Degree in Engineering in Telecommunications Technologies
- 3.2 Postgraduate Teaching
- 3.2.1 Master Courses
- 3.2.1.1 Official Master's Degree in Industrial Engineering (MII)
- 3.2.1.2 Official Master's Degree in Telecommunications Engineering (MIT)
- 3.2.1.3 Official Master's Degree in the Electric Power Industry (MEPI)
- 3.2.1.4 Master in Railway Systems (MSF)
- 3.2.1.5 Master in Project, Construction and Maintenance of High Voltage Electrical Transmission (On-line)
- 3.2.1.6 Master in Fire Protection Engineering (MIPCI)
- 3.2.1.7 MBA in the Global Energy Industry
- 3.2.1.8 Master's Degree in Smart Industry (MIC)
- 3.2.1.9 Master’s Degree in International Industrial Project Management
- 3.2.1.10 Master in Electricity Generation. Promotion, Technology and Operation (MGE) (On-line)
- 3.2.1.11 Master's Degree in Big Data Technologies and Advanced Analytics (MBD)
- 3.2.1.12 Master's Degree in Management Solutions (MCN)
- 3.2.1.13 Master's Degree in Smart Grids (MSG)
- 3.2.1.14 Master in Biomechanics Applied to Damage Assessment; Advanced Physical Therapy Techniques
- 3.2.1.15 Master in Mobility and Safety Engineering (MMS)
- 3.2.1.16 Master in Electrical Technology (MTE)
- 3.2.1.16 Master in smart agricultural industry and sustainability
- 3.2.1.17 Official Master's Degree in Biomechanics and Sports Physiotherapy
- 3.2.2 Master Theses supervised at IIT
- 3.2.2.1 Official Master's Degree in Industrial Engineering (MII)
- 3.2.2.2 Official Master's Degree in Telecommunications Engineering (MIT)
- 3.2.2.3 Official Master's Degree in the Electric Power Industry (MEPI)
- 3.2.2.4 Erasmus Mundus International Master in Economics and Management of Network Industries (EMIN)
- 3.2.2.5 Master in Railway Systems (MSF)
- 3.2.2.6 MBA in the Global Energy Industry
- 3.2.2.7 Master in Fire Protection Engineering (MIPCI)
- 3.2.2.8 Master's Degree in Smart Industry (MIC)
- 3.2.2.9 Master’s Degree in International Industrial Project Management
- 3.2.2.10 Master's Degree in Big Data Technologies and Advanced Analytics (MBD)
- 3.2.2.11 Master in Electricity Generation. Promotion, Technology and Operation (MGE) (On-line)
- 3.2.2.12 Master's Degree in Management Solutions (MCN)
- 3.2.2.13 Master in Project, Construction and Maintenance of High Voltage Electrical Transmission (On-line)
- 3.2.2.15 Official Master's Degree in Engineering Research (MIMSI)
- 3.2.2.16 Master's Degree in Smart Grids (MSG)
- 3.2.2.17 Master in Biomechanics Applied to Damage Assessment; Advanced Physical Therapy Techniques
- 3.2.2.18 Master in Mobility and Safety Engineering (MMS)
- 3.2.2.19 Master in Electrical Technology (MTE)
- 3.2.2.20 Official Master's Degree in Biomechanics and Sports Physiotherapy
- 3.2.2.21 Master in Environment and Energy Transition
- 3.3 Other Academic Activities
- 3.3.1 External Master Courses
- 3.3.2 Supervised Master Theses in other Universities
- 3.3.3 Developed Master Theses in other Universities
Chapter 4. Doctorate [ | ]- 4.1 ICAI Engineers' Association PhD Scholarship
- 4.2 Training complements
- 4.3 Training activities
- 4.4 Doctoral Theses
- 4.4.1 Comillas Submitted Theses
- 4.4.2 Submitted Theses in other Universities
- 4.4.3 Comillas Ongoing Theses
* | Title: | DC segmentation of power system | | Author: | Mathieu Guillaume Robin | | Supervisor(s): | Francisco Javier Renedo Anglada and Aurelio García Cerrada | | | |
Chapter 5. Other Activities [ | ]- 5.1 EES-UETP
- 5.2 International Exchanges
- 5.3 Visiting professors
- 5.4 Visiting students
- 5.5 Courses offered and coordinated to external companies and institutions
- 5.6 Conferences, Seminars, Roundtables and Workshops Contributions
- 5.7 Congress, Seminars and Journals Organization
- 5.8 Other Academic Activities Organization
- 5.9 Other Activities
* | Researcher(s): | Francisco Javier Renedo Anglada | | Activity type: | Relevant position | | Description: | Member | | Organizer: | Institute of Electrical and Electronics Engineers Inc. - IEEE | | City: | Piscataway | | Country: | United States of America | | Date: | November 2018- Today | | | | * | Researcher(s): | Francisco Javier Renedo Anglada | | Activity type: | Relevant position | | Description: | Member of Working Group C4B4.52 «Guidelines for sub-synchronous oscillation studies in power electronics dominated power systems» | | Organizer: | International Council on Large Electric Systems (CIGRE) | | City: | Paris | | Country: | France | | Date: | January 2019- Today | | | | * | Researcher(s): | Francisco Javier Renedo Anglada | | Activity type: | Journal/document reviewer | | Description: | IEEE Transactions on Power Systems | | Organizer: | Institute of Electrical and Electronics Engineers Inc. - IEEE | | City: | Piscataway | | Country: | United States of America | | Date: | March 2017- Today | | | |
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