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Sobre

Sobre

João A. Peças Lopes é Doutorado em Engenharia Eletrotécnica e de Computadores pela FEUP, sendo Professor Catedrático desta Faculdade, onde leciona na graduação e pós graduação em Engenharia Eletrotécnica e de Computadores.

Foi durante 7 anos Director do Programa Doutoral de Sistemas Sustentáveis de Energia e Diretor do Curso de Estudos Avançados em Sistemas Sustentáveis de Energia na FEUP.

É membro do Conselho de Administração do INESC TEC.

É Vice-Presidente da Associação Portuguesa do Veículo Elétrico (APVE).

O Prof. Peças Lopes foi responsável pela participação do INESC TEC em vários projetos financiados pela União Europeia, nomeadamente os seguintes projetos - MICROGRIDS - Large Scale Integration of Micro Generation to Low Voltage Grids e MORE_MICROGRIDS -  Advanced Architectures and Control Concepts for More Microgrids and MERGE - Mobile Energy Resources for Grids of Electricity.

Liderou vários projetos de consultoria associados com a análise de impacto resultante da ligação de grandes volumes de produção eólica na Madeira, Açores, Sal, S. Vicente e S. Tiago, na Republica de Cabo Verde. Foi responsável por vário projetos de consultoria relacionados o impacto nas redes elétricas de Portugal continentes de parques eólicos de grandes dimensões.

Foi responsável pela definição dos requisitos técnicas para ligação de parques eólicos no Brasil, trabalhando como consultor do ONS. Coordenou estudos de consultoria para o Regulador Hungaro relativos à identificação do volume de produção eólica acomodável na rede elétrica local.Coordenou a participação do INESC TEC no projeto InovGrid.

Foi o Presidente do Júri do Concurso Internacional, lançado pelo Governo Português em 2005,  para Atribuição de Pontos de Ligação para Produção Eólica na Rede Elétrica de Portugal, tendo decido pela atribuição de licenças de cerca de 1800 MW.

Foi Membro do Executive Board do Consórcio Europeu EES/UETP e Presidente do Comité de Programa desta Associação de formação avançada.

Foi avaliador da Comissão Europieia e de Organizações de Ciência e Tecnologia em Portugal, França, Italia, Grécia, Finlandia, Dinamarca e Irlanda.

Foi durante mais de 4 anos coordenador da Unidade de Sistemas de Energia do INESC TEC.

É co-editor do Journal SEGAN - Sustainable Energy Grids and Networks.

Os seus principais domínios de interesse estão relacionados com Integração em Larga Escala de Fontes de Energia Renovável em Redes Elétricas (nomeadamente produção eólica), Análise do Comportamento Dinâmico, Microredes, SmartMetering, SmartGrids e Integração de Veículos Elétricos em Redes Elétricas.

Em 2012 recebeu o CIGRE Technical Committee Award a título de reconhecimento pelo sua contribuição excecional no Study Committee C6 – Distribution Systems and Dispersed Generation.

Prof. Peças Lopes é Fellow do IEEE
É membro do Power Systems Dynamic Performance Committee do IEEE PES.

Detalhes

Detalhes

  • Nome

    João Peças Lopes
  • Cargo

    Diretor Associado
  • Desde

    01 março 1989
126
Publicações

2024

A Novel Three-Phase Multiobjective Unified Power Quality Conditioner

Autores
Monteiro, V; Moreira, C; Lopes, JAP; Antunes, CH; Osório, GJ; Cataláo, JPS; Afonso, JL;

Publicação
IEEE TRANSACTIONS ON INDUSTRIAL ELECTRONICS

Abstract
The decarbonization of the economy and the increasing integration of renewable energy sources into the generation mix are bringing new challenges, requiring novel technological solutions in the topic of smart grids, which include smart transformers and energy storage systems. Additionally, power quality is a vital concern for the future smart grids; therefore, the continuous development of power electronics solutions to overcome power quality problems is of the utmost importance. In this context, this article proposes a novel three-phase multiobjective unified power quality conditioner (MO-UPQC), considering interfaces for solar PV panels and for energy storage in batteries. The MO-UPQC is capable of compensating power quality problems in the voltages (at the load side) and in the currents (at the power grid side), while it enables injecting power into the grid (from the PV panels or batteries) or charging the batteries (from the PV panels or from the grid). Experimental results were obtained with a three-phase four-wire laboratory prototype, demonstrating the feasibility and the large range of applications of the proposed MO-UPQC.

2024

VPP Participation in the FCR Cooperation Considering Opportunity Costs

Autores
Ribeiro, FJ; Lopes, JAP; Soares, FJ; Madureira, AG;

Publicação
APPLIED SCIENCES-BASEL

Abstract
Currently, the transmission system operators (TSOs) from Portugal and Spain do not procure a frequency containment reserve (FCR) through market mechanisms. In this context, a virtual power plant (VPP) that aggregates sources, such as wind and solar power and hydrogen electrolyzers (HEs), would benefit from future participation in this ancillary service market. The methodology proposed in this paper allows for quantifying the revenues of a VPP that aggregates wind and solar power and HEs, considering the opportunity costs of these units when reserving power for FCR participation. The results were produced using real data from past FCR market sessions. Using market data from 2022, a VPP that aggregates half of the HEs and is expected to be connected in the country by 2025 will have revenues over EUR 800k, of which EUR 90k will be HEs revenues.

2024

A novel TSO settlement scheme for the Frequency Containment Reserve Cooperation in Europe's integrated electricity market

Autores
Ribeiro, FJ; Lopes, JAP; Soares, FJ; Madureira, AG;

Publicação
UTILITIES POLICY

Abstract
Frequency Containment Reserve (FCR) Cooperation is a European effort to integrate several countries in an integrated international electricity market platform for FCR procurement. In this market, Balancing Service Providers (BSPs) are on the supply side and Transmission System Operators (TSOs) on the demand side. This paper proposes a novel settlement scheme for sharing costs among TSOs; it proposes no changes to existing market clearing rules or to the existing settlement of the BSPs' revenues. It is shown that the current TSO settlement scheme is an inequitable mechanism that originates negative costs for some TSOs in specific conditions, which are extensively discussed. The proposed TSO settlement scheme overcomes these inequities. In the proposed scheme, TSOs begin paying the local BSPs for the cleared bids needed locally, and the remaining imports are calculated in a subsequent step. Doing so avoids using the so-called import/export costs, which are demonstrated to be the source of the inequities in the current scheme. It is shown that if the proposed pricing scheme had been adopted from July 2019 to December 2022, all TSOs would have been affected. Specifically, the most negatively impacted TSO would have its accumulated costs increased by 16% and the most positively impacted TSO would have its accumulated cost decreased by 32%. The inequities of the current mechanism amount to more than 50 Me or 7.4% of the total accumulated costs. Although the proposed mechanism is tested here under the FCR Cooperation, it can be applied to other markets where the rules allow different local settlement prices.

2024

Day-ahead optimal scheduling considering thermal and electrical energy management in smart homes with photovoltaic-thermal systems

Autores
Fiorotti, R; Fardin, JF; Rocha, HRO; Rua, D; Lopes, JAP;

Publicação
APPLIED ENERGY

Abstract
The environmental impact on the energy sector has become a significant concern, necessitating the implementation of Home Energy Management Systems (HEMS) to enhance the energy efficiency of buildings, reduce costs and greenhouse gas emissions, and ensure user comfort. This paper presents a novel approach to provide optimal day-ahead energy management plans in smart homes with Photovoltaic/Thermal (PVT) systems, aiming to achieve a balance between energy cost and user comfort. This multi-objective problem employs the Non-dominated Sorting Genetic Algorithm III as the optimization algorithm and the Nonlinear Auto-regressive with External Input to forecast the day-ahead meteorological variables, which serve as inputs to predict the PVT electrical and heat production in the thermal resistance model. The HEMS benefits from the time-of-use tariff due to the flexibility provided by the energy storage from a battery bank and a boiler. Furthermore, it performs a load scheduling for 10 controllable loads based on three feature parameters to characterize occupant behavior. A study case analysis revealed a cost reduction of approximately 66% in the solution close to the knee of the Pareto curve (S3 solution). The environmental impact on the energy sector has become a The PVT heat production was sufficient to meet the thermal demand of the showers. The proposed hybrid battery management model effectively eliminated the export of electricity to the grid, reducing consumption during peak periods and the maximum peak demand.

2024

COMBINING BATTERIES AND SYNCHRONOUS CONDENSERS: THE CASE STUDY OF MADEIRA ISLAND

Autores
Fernandes, F; Lopes, JP; Moreira, C;

Publicação
IET Conference Proceedings

Abstract
This paper investigates the stability of a converter-dominated islanded power system when the island’s battery energy storage converters are operated in different control modes (Grid Forming and Grid Following) and combined with different volumes of synchronous compensation. The study is conducted in a realistic simulation model of the future Madeira island, where no thermal generation is present, and the share of converter-based Renewable Energy Sources is large (75 to 80 % of instantaneous penetration). The impact of the different combinations of synchronous condensers and BESS converter control modes on the system stability is evaluated using a stability index-based approach that accounts for multiple operation scenarios. In this procedure, the system’s dynamic response to the reference disturbances (short-circuits in the Transmission and Distribution Network) is obtained via RMS dynamic simulation and is then analyzed to extract two stability indices (Nadir and Rocof). Such indices are computed for the synchronous generator speed and the grid electrical frequency (measured in different points using a PLL) and are later used as the basis for discussion and conclusion drawing. © Energynautics GmbH.

Teses
supervisionadas

2024

Black Start Capability of Offshore Wind Farms

Autor
Prashanth Hebbal Prakash

Instituição
UP-FEUP

2024

Ancillary services provision abilities of hydrogen electrolyzers

Autor
Abdelrahman Muneer Mohammed Abdelrahman Elhawash

Instituição
UP-FEUP

2024

Spatial Distribution of Grid Forming Converters in Power Systens with High Renewable Penetration

Autor
Francisco de Sousa Fernandes

Instituição
UP-FEUP

2023

Network-Secure Participation of Aggregators of Multi-Energy Systems in Multi-Energy Markets

Autor
António Manuel Freitas Coelho

Instituição
UP-FEUP

2023

Modeling energy sector integration using green hydrogen to define public policies and new regulatory support schemes to accelerate energy transition

Autor
Bruno Henrique Martins Santos

Instituição
UP-FEUP