V.M. Maestre scite author profile

The unsustainable and continuous growth of anthropogenic emissions of greenhouse gases (GHG) has pushed governments, private companies and stakeholders to adopt measures and policies to fight against climate change. Within this framework, increasing the contribution of renewable energy sources (RES) to final consumed energy plays a key role in the planned energy transition. Regarding the residential sector in Europe, 92% of GHG emissions comes from 75% of the building stock that is over 25 years old, and highly inefficient. Thus, this sector must raise RES penetration from the current 36% to 77% by 2050 to comply with emissions targets. In this regard, the hybridization of hydrogen-based technologies and RES represents a reliable and versatile solution to facilitate decarbonization of the residential sector. This study provides an overview and analysis of standalone renewable hydrogen-based systems (RHS) focusing on the residential and buildings sector, as well as critical infrastructures like telecom stations, data servers, etc. For detailed evaluation of RHS, several pilot plants and real demonstration plants implemented worldwide are reviewed. To this end, a techno-economic assessment of relevant parameters like self-sufficiency ratio, levelized cost of energy and hydrogen roundtrip efficiency is provided. Moreover, the performance of the different configurations is evaluated by comparing the installed power of each component and their energy contribution to cover the load over a defined period of time. Challenges ahead are identified for the wider deployment of RHS in the residential and buildings sector.

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Transition to a low-carbon building stock. Techno-economic and spatial optimization of renewables‑hydrogen strategies in Spain

Maestre

Ortiz²,

Ortíz³

2022

Journal of Energy Storage

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Design and Implementation of Renewable Hydrogen-Based System for Social Housing Decarbonization

Maestre¹,

Aja²,

Uribe³

2023

ECS Trans.

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The energy transition towards a decarbonized economy requires focused and ambitious policies that must be taken through the agreement of governments, stakeholders, and private companies. The intermittency of renewable energy sources (RES) makes it necessary to implement energy storage systems (ESS) that allow for an uninterrupted supply of low-carbon power. Energy generation and consumption activities are responsible for 75% of global CO2 emissions. Particularly, energy use in commercial and residential buildings is the third major contributor after industry and agricultural activities. In this context, the SUDOE ENERGY PUSH project proposes an innovative pilot plant combining RES and hydrogen technologies for social housing decarbonization and self-sufficiency. The preliminary simulations results in savings up to 7,000 kWh per year of primary energy from the grid, 1,000 kg per year of CO2 emissions while consuming 100% clean electricity and more than 600 € per year in electricity bills

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Decarbonizing the Spanish transportation sector by 2050: Design and techno-economic assessment of the hydrogen generation and supply chain

Maestre

Ortiz

Ortíz

2023

International Journal of Hydrogen Energy

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V.M. Maestre

Challenges and prospects of renewable hydrogen-based strategies for full decarbonization of stationary power applications

The role of hydrogen‐based power systems in the energy transition of the residential sector

Transition to a low-carbon building stock. Techno-economic and spatial optimization of renewables‑hydrogen strategies in Spain

Design and Implementation of Renewable Hydrogen-Based System for Social Housing Decarbonization

Decarbonizing the Spanish transportation sector by 2050: Design and techno-economic assessment of the hydrogen generation and supply chain

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