Noelia Llantoy scite author profile

The buildings sector is one of the least sustainable activities in the world, accounting for around 40% of the total global energy demand. With the aim to reduce the environmental impact of this sector, the use of renewable energy sources coupled with energy storage systems in buildings has been investigated in recent years. Innovative solutions for cooling, heating, and domestic hot water in buildings can contribute to the buildings’ decarbonization by achieving a reduction of building electrical consumption needed to keep comfortable conditions. However, the environmental impact of a new system is not only related to its electrical consumption from the grid, but also to the environmental load produced in the manufacturing and disposal stages of system components. This study investigates the environmental impact of an innovative system proposed for residential buildings in Mediterranean climate through a life cycle assessment. The results show that, due to the complexity of the system, the manufacturing and disposal stages have a high environmental impact, which is not compensated by the reduction of the impact during the operational stage. A parametric study was also performed to investigate the effect of the design of the storage system on the overall system impact.

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Life Cycle Assessment of an Innovative Hybrid Energy Storage System for Residential Buildings in Continental Climates

Llantoy

Zsembinszki

Palomba

et al. 2021

Applied Sciences

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With the aim of contributing to achieving the decarbonization of the energy sector, the environmental impact of an innovative system to produce heating and domestic hot water for heating demand-dominated climates is assessed is evaluated. The evaluation is conducted using the life cycle assessment (LCA) methodology and the ReCiPe and IPCC GWP indicators for the manufacturing and operation stages, and comparing the system to a reference one. Results show that the innovative system has a lower overall impact than the reference one. Moreover, a parametric study to evaluate the impact of the refrigerant is carried out, showing that the impact of the overall systems is not affected if the amount of refrigerant or the impact of refrigerant is increased.

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Life cycle assessment of the inclusion of phase change materials in lightweight buildings

Vega

Llantoy²,

Chàfer³

et al. 2022

Journal of Energy Storage

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Life cycle assessment of an innovative system for residential buildings in Mediterranean climate

Cabeza¹,

Zsembinszki²,

Llantoy³

et al. 2021

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Noelia Llantoy

A comparative life cycle assessment (LCA) of different insulation materials for buildings in the continental Mediterranean climate

Life Cycle Assessment (LCA) of an Innovative Compact Hybrid Electrical-Thermal Storage System for Residential Buildings in Mediterranean Climate

Life Cycle Assessment of an Innovative Hybrid Energy Storage System for Residential Buildings in Continental Climates

Life cycle assessment of the inclusion of phase change materials in lightweight buildings

Life cycle assessment of an innovative system for residential buildings in Mediterranean climate

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