Summary
This research proposal pioneers energy-efficient residential structures through strategic integration of Phase-Change Materials (PCMs) into building walls. Focused on Portugal and the EU, the study targets substantial energy savings, initially estimated at under 18% based on pilot studies.
Lightweight residential constructions emerge as pivotal, aligning seamlessly with Portugal's climate. Their swift integration allows for efficient temperature regulation, yielding substantial energy conservation. Economic viability, construction flexibility, and swift integration underscore the appeal of lightweight constructions for PCM adoption, addressing new projects and retrofits, aligning with regulatory and economic considerations.
Empirical validation of meticulous simulation models forms the bedrock, ensuring practical applicability. Building energy modeling, integral to this research, plays a pivotal role in gauging real-world impact.
This research proposal aligns global concerns: energy efficiency and sustainability. PCM integration, pivotal in sustainable building practices, offers an innovative solution. Exploration of PCM integration challenges further extends impact.
In conclusion, this blueprint pioneers PCM integration, charting a course towards energy efficiency and sustainability. Attuned to Portugal's climate, it holds promise for wider global application. Validation experiments provide concrete evidence of potential energy savings and advancements in thermal performance, substantiating the proposal's potential impact.
Lightweight residential constructions emerge as pivotal, aligning seamlessly with Portugal's climate. Their swift integration allows for efficient temperature regulation, yielding substantial energy conservation. Economic viability, construction flexibility, and swift integration underscore the appeal of lightweight constructions for PCM adoption, addressing new projects and retrofits, aligning with regulatory and economic considerations.
Empirical validation of meticulous simulation models forms the bedrock, ensuring practical applicability. Building energy modeling, integral to this research, plays a pivotal role in gauging real-world impact.
This research proposal aligns global concerns: energy efficiency and sustainability. PCM integration, pivotal in sustainable building practices, offers an innovative solution. Exploration of PCM integration challenges further extends impact.
In conclusion, this blueprint pioneers PCM integration, charting a course towards energy efficiency and sustainability. Attuned to Portugal's climate, it holds promise for wider global application. Validation experiments provide concrete evidence of potential energy savings and advancements in thermal performance, substantiating the proposal's potential impact.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/101180663 |
| Start date: | 01-11-2024 |
| End date: | 31-10-2026 |
| Total budget - Public funding: | - 172 618,00 Euro |
Cordis data
Original description
This research proposal pioneers energy-efficient residential structures through strategic integration of Phase-Change Materials (PCMs) into building walls. Focused on Portugal and the EU, the study targets substantial energy savings, initially estimated at under 18% based on pilot studies.Lightweight residential constructions emerge as pivotal, aligning seamlessly with Portugal's climate. Their swift integration allows for efficient temperature regulation, yielding substantial energy conservation. Economic viability, construction flexibility, and swift integration underscore the appeal of lightweight constructions for PCM adoption, addressing new projects and retrofits, aligning with regulatory and economic considerations.
Empirical validation of meticulous simulation models forms the bedrock, ensuring practical applicability. Building energy modeling, integral to this research, plays a pivotal role in gauging real-world impact.
This research proposal aligns global concerns: energy efficiency and sustainability. PCM integration, pivotal in sustainable building practices, offers an innovative solution. Exploration of PCM integration challenges further extends impact.
In conclusion, this blueprint pioneers PCM integration, charting a course towards energy efficiency and sustainability. Attuned to Portugal's climate, it holds promise for wider global application. Validation experiments provide concrete evidence of potential energy savings and advancements in thermal performance, substantiating the proposal's potential impact.
Status
SIGNEDCall topic
HORIZON-WIDERA-2023-TALENTS-02-01Update Date
22-11-2024
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