| Tipo | Año | Título | Fuente |
|---|---|---|---|
| Capítulo | 2025 | A Stochastic Model Predictive Control Approach in a Hierarchical and Distributed Framework for Energy Communities Using Blockchain Technologies | Green Energy and Technology |
| Capítulo | 2025 | Moisture and Temperature Effects on Masonry Structures: The Civic Tower of Pavia as a Case Study | Towards Low and Positive Energy Buildings. Thermal Comfort, Climate Change, and Energy Efficiency Approaches |
| Capítulo | 2024 | Assessing Indoor Hygrothermal Conditions in Unfavourable Scenarios: Open Windows in a Residential Building in the Coastal Mediterranean Summer Climate | Towards Low and Positive Energy Buildings. Thermal Comfort, Climate Change, and Energy Efficiency Approaches |
| Capítulo | 2024 | Mapping the Energy Performance of Existing Residential Building Stock: The Case of Seville | Towards Low and Positive Energy Buildings. Thermal Comfort, Climate Change, and Energy Efficiency Approaches |
| Capítulo | 2024 | Solar Photovoltaic Integration in Mediterranean Residential Buildings: Towards Sustainable Energy Solutions | Towards Low and Positive Energy Buildings. Thermal Comfort, Climate Change, and Energy Efficiency Approaches |
| Capítulo | 2024 | Sustainable Solutions for Urban Flooding: The Case Study of Alcala de Guadaíra (Andalusia, Spain) | Towards Low and Positive Energy Buildings. Thermal Comfort, Climate Change, and Energy Efficiency Approaches |
| Capítulo | 2024 | The Influence of Global Warming and Tourism Over the Sleeping Thermal Comfort of Dwellings in Granada | Towards Low and Positive Energy Buildings. Thermal Comfort, Climate Change, and Energy Efficiency Approaches |
| Libro | 2024 | Towards Low and Positive Energy Buildings. Thermal Comfort, Climate Change, and Energy Efficiency Approaches | Towards Low and Positive Energy Buildings. Thermal Comfort, Climate Change, and Energy Efficiency Approaches |
| Capítulo | 2022 | Water footprint of the life cycle of buildings: case study in Andalusia, Spain | Advances of footprint family for sustainable energy and industrial systems |
| Capítulo | 2021 | A macroeconomic contribution: extended environmental input–output analysis | The Role of the Electric Vehicle in the Energy Transition |
| Ponencia | 2021 | Deep energy retrofit of residential buildings in the Mediterranean area: the MedZEB approach | Smart and Sustainable Planning for Cities and Regions: Results of SSPCR 2019—Open Access Contributions |
| Capítulo | 2021 | Economic analysis of recharging electric vehicles | The Role of the Electric Vehicle in the Energy Transition |
| Capítulo | 2021 | EV international landscape | The Role of the Electric Vehicle in the Energy Transition |
| Capítulo | 2021 | EV recharging systems: technological review and impact on the electric system | The Role of the Electric Vehicle in the Energy Transition |
| Capítulo | 2021 | Forecast of EV derived electrical demand. The spanish case | The Role of the Electric Vehicle in the Energy Transition |
| Editorial | 2021 | Introduction | Green Energy and Technology |
| Capítulo | 2021 | Success factors in EV deployment: an economic analysis | The Role of the Electric Vehicle in the Energy Transition |
| Artículo | 2020 | Exploring EKCs in Urban Water and Energy Use Patterns and Its Interconnections: A Case Study in Southern Spain | Sustaining Resources for Tomorrow |
| Libro | 2020 | The Role of the Electric Vehicle in the Energy Transition | The Role of the Electric Vehicle in the Energy Transition |
| Capítulo | 2018 | Probabilistic Load-flow using analysis using DPL scripting language | Advanced Smart Grid Functionalities Based on PowerFactory |
| Artículo | 2016 | Life Cycle Analysis as a Decision Criterion for the Implementation of Solar Photovoltaic Panels in as Northeast Brazil Hospital | Energy, Transportation and Global Warming |
| Capítulo | 2013 | Fast response energy storage systems | Power Electronics for Renewable and Distributed Energy Systems |