Campaña de la Memoria Académica Anual del IITCurso 2023 - 2024 - Versión en Inglés
A continuación se muestra la información disponible de Dr.D.Carlos David Zuluaga Ríos en el peridodo de tiempo desde el 1 de septiembre de 2023 hasta el 31 de agosto de 2024. Esta información se va a emplear para elaborar la Memoria Académica Anual del IIT, la Memoria de Investigación de Comillas y tu Curriculum Vitae, por lo que es muy importante que sea correcta y esté completa. Todos los campos que se muestran en cada referencia deben tener información, a menos que se indique lo contrario (p.ej. "No aplica"). Por favor, complétala. Comprueba también que la información se muestra en el apartado correcto. Si detectas cualquier error o falta de información, por favor, envía un email pinchando aquí indicando el apartado y la información errónea o faltante. Para enviar comentarios/sugerencias/errores... sobre esta página web, por favor haz clic aquí. Para ver la Versión en Español, haz clic aquí. Para ver la Versión Completa de la memoria, haz clic aquí.
[Expandir todo | Contraer todo] 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
* | Name: | Carlos David Zuluaga Ríos | | Degree: | B.Sc and M.Sc in Electrical Engineering. Universidad Tecnológica de Pereira(Colombia).
Ph.D. in Electrical Engineering. Universidad Tecnológica de Pereira(Colombia). | | | |
- 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: | OPEMRES_MTHVDC | | Project title: | Improvement of tools for the analysis of AC/DC hybrid power systems with massive penetration of renewable energy sources and test-case scenarios (TED2021-130610B-C22) | | Funding entity: | MICIU/AEI /10.13039/501100011033 y por la Unión Europea NextGenerationEU/PRTR | | Start date: | December 2022 | | End date: | November 2024 | | Researcher(s): | Aurelio García Cerrada, Andrés Tomás Martín, Francisco Miguel Echavarren Cerezo, Fidel Fernández Bernal, Luis Rouco Rodríguez, Enrique Lobato Miguélez, Ignacio Egido Cortés, Javier García Aguilar, Carlos David Zuluaga Ríos | | Description: | Meshed DC grids have been possible for many years but the fantastic development of Voltage Source Converter (VSC) technology has made them practical, now. A hybrid DC-AC grid can make power systems more flexible than conventional AC systems although the specific advantages would strongly depend on the size of the power converters and energy reserves available. More specifically: DC/AC converter stations can support the voltage control in the AC system reducing the risk of voltage instability in the AC grid; DC/AC converter stations can support the AC system with additional damping in case of power oscillations in the AC grid, reducing the risk of angle instability due to poor damping in the AC grid; a DC grid can quickly supply additional power in a controlled manner to an area of the AC grid in case of emergency by extracting it from another area or from internal storage elements, reducing the risk of frequency instability. Noticeably, a DC grid can connect asynchronous AC grids to make a more efficient use of the spinning reserves in both systems.
The purpose of this subproject is threefold. Firstly, researchers use tools for the analysis and operation of hybrid AC/VSC-based DC system, already developed in previous projects, to investigate all the above advantages and contributions of VSC-based DC grids at system level and, when necessary, extended those tools. Secondly, researchers collaborate with the other subproject to elaborate demonstration cases for the above properties to be tested in a laboratory prototype the other subproject built. The prototype have to be scaled to represent important characteristics of a real power system. Finally, researchers simulate the case studies experimentally verified in characteristic test power systems in the literature (larger size, voltage and power than those of the prototype) to confirm the results obtained. Among others, these simulation cover two specific aspects: (a) the two subprojects collaborate to use similar real-time platforms they are currently equipped with and (b) long term simulation runs are carried out to validate the results from the smart energy management systems investigated by members of the other subproject. A clear understanding of the potential contributions of DC meshed grids to improve the flexibility of AC bulk power systems should help to integrate renewable energy sources (often non-dispatchable) to the generation mix and, consequently, to the decarbonization of the electricity sector, which could then supply clean electricity to many other industrial sectors.
Grant TED2021-130610B-C22 funded by MICIU/AEI/10.13039/501100011033 and by “European Union NextGenerationEU/PRTR”. |
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- 2.1.2 Consultancy and technological support
- 2.1.2.1 Private funding
- 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.P. Yepes, J. Sosapanta Salas, S.D. Saldarriaga-Zuluaga, C.D. Zuluaga-Ríos | | Title: | Análisis dinámico de una microrred DC considerando el modelo de carga ZIP para vehículos eléctricos | | Journal: | TecnoLógicas | | Vol & Num: | vol. 27, nº. 59 | | Pages: | e2932-1-e2932-22 | | ISSN: | 2256-5337 | | Publication date: | April 2024/January 2024 | | | |
- 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
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
* | Lecturer(s): | Carlos David Zuluaga Ríos | | Title: | A vector-based flexible-complexity tool for hybrid AC/DC power system analysis | | Event: | I Jornada de jóvenes investigadores en potencia y energía España | | Funding entity: | IEEE PES España | | Type: | Conference | | | |
- 5.7 Congress, Seminars and Journals Organization
- 5.8 Other Academic Activities Organization
- 5.9 Other Activities
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