HORIZON2020
MIRACLE

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Call: H2020-FETOPEN-2018-2019-2020-0
Type: RIA Research and Innovation action
Project information: MIRACLE
https://cordis.europa.eu/project/id/964450
Start date:  1 February 2021
End date:   31 January 2025

Overall budget / EU contribution:
€ 3 192 466,25 / € 3 192 466,25
€ 3 192 466,25
Coordinated by: CSIC / SPAIN

MIRACLE CONCRETE News

PHOTOKRETE at Bilbao Summer Course on Sustainable Innovation

PHOTOKRETE at Bilbao Summer Course on Sustainable Innovation

The PHOTOKRETE team, supported by Impulsa-T CSIC, made a significant impact at the recent summer course “Sustainable Innovation Entrepreneurship: Challenges and Opportunities” in Bilbao. Dr. Jorge S. Dolado, IP of the MIRACLE project and scientific coordinator of PHOTOKRETE, participated in a panel discussion on promoting sustainable entrepreneurship. He introduced the groundbreaking concept of radiative cooling concrete and emphasized its potential to address urgent global energy challenges.

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2nd MIRACLE Workshop at KU Leuven – 16/17 September 2024

2nd MIRACLE Workshop at KU Leuven – 16/17 September 2024

We're thrilled to share the details of the upcoming 2nd MIRACLE Workshop, organized by the MIRACLE Consortium, which will take place on the 16th and 17th of September at the KU Leuven in Belgium. This workshop promises to be an exciting event, bringing together...

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MIRACLE Project Leader Presents at ANEFHOP Assembly

MIRACLE Project Leader Presents at ANEFHOP Assembly

On Thursday, March 7, 2024, the National Spanish Association of Ready-Mixed Concrete Manufacturers (ANEFHOP) held its Euskadi Assembly in Donostia. NEFHOP is the leading national trade association representing the interests of ready-mixed concrete manufacturers in...

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COOLCRETE Project for Boosting Technology Readiness Levels

COOLCRETE Project for Boosting Technology Readiness Levels

European Innovation Council (EIC) Work Programme 2023 funded by the European Union's Horizon Europe Framework Programme for Research and Innovation. Funded by the European Commission's HORIZON-EIC-2023-BOOSTER-IBA-01-01 grant and driven by a collaborative effort...

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Green Concrete: Ally for Sustainability

Green Concrete: Ally for Sustainability

Jorge Sanchez Dolado, work package leader for WP1 and WP6 on the MIRACLE concrete project, recently gave a talk at Tabakalera in San Sebastian, Spain titled "Green Concrete: Cementing a Sustainable Future". Sanchez Dolado discussed innovative solutions to reduce the...

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Advancing Thermal Energy Storage at the Eurotherm 2023 Seminar

Advancing Thermal Energy Storage at the Eurotherm 2023 Seminar

The Eurotherm 2023 Seminar on "Innovative Solutions for Thermal Energy Storage Deployment" was held on May 24-26, 2023 at the University of Lleida in Spain. This brought together over 200 researchers working on thermal energy storage from academia and industry across...

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MIRACLE Training Course Successfully Concludes in Germany

MIRACLE Training Course Successfully Concludes in Germany

The Institute of Construction and Building Materials (WiB) at Technische Universität Darmstadt recently hosted an innovative training course as part of the H2020 MIRACLE project, funded by the EU-H2020/FET Open program. The MIRACLE Training Course, which took place...

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Spotlight Event on November 30th

Spotlight Event on November 30th

Do you want to know about the Photonic Meta Concrete we are developing in MIRACLE project to fight global warming and save energy in building? Join us for a panel discussion between European Innovation Council and SMEs Executive Agency (EISMEA) and EIT Climate-KIC and...

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Kick-off meeting of MIRACLE

Kick-off meeting of MIRACLE

The Kick-off meeting of MIRACLE took place on the 5th of February 2021. Due to the Covid situation, The KoM took place online. Hopefully, we will meet in person soon to take due revenge…Lets start the MIRACLE

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MIRACLE CONCRETE Blog

Sustainable Development Goals and Radiative Cooling Technology

Sustainable Development Goals and Radiative Cooling Technology

The Sustainable Development Goals (SDGs) set by the United Nations aim to address global challenges and ensure a sustainable future for all. Radiative cooling (RC) materials and technology have the potential to significantly contribute to several of these goals by providing energy-efficient and environmentally friendly cooling solutions. RC materials can help reduce energy consumption, lower greenhouse gas emissions, and create more sustainable cities and communities, aligning with key SDGs such as affordable and clean energy, sustainable cities, climate action, and industry and innovation.

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Overcoming the Winter Heating Penalty: A Scalable Solution for All-Season Thermal Regulation

Overcoming the Winter Heating Penalty: A Scalable Solution for All-Season Thermal Regulation

Researchers have developed an innovative dynamic wall design called FinWall that achieves tunable angular emissivity for all-season thermal regulation of buildings. The FinWall features rotatable fins with high emissivity surfaces on top and low emissivity surfaces on the bottom. By adjusting the fin angles, it can switch between a cooling mode in summer and a heating mode in winter, effectively addressing the heating penalty issue associated with conventional radiative cooling walls. Field tests and simulations demonstrate the FinWall’s excellent thermal regulation performance and substantial energy-saving potential across different climates. This scalable design presents a promising solution for sustainable and energy-efficient building envelopes.

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The Cyphochilus Beetle: Nature’s Master of Radiative Cooling

The Cyphochilus Beetle: Nature’s Master of Radiative Cooling

The Cyphochilus beetle, native to Southeast Asia, may hold the key to more energy-efficient cooling of buildings, thanks to its brilliant white shell that reflects sunlight and radiates heat with incredible efficiency. By studying the unique structure of this beetle’s scales, researchers have unlocked new insights into the science of radiative cooling and how it can be harnessed for sustainable temperature regulation.

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The Fascinating History of Radiative Cooling

The Fascinating History of Radiative Cooling

Radiative cooling, a phenomenon that allows objects to dissipate heat into the cold depths of space, has a rich and fascinating history spanning thousands of years. From ancient civilizations to modern-day scientists, humans have long sought to harness the power of the atmospheric window to cool their surroundings without the need for electricity. Ancient Ice Making in Iran and India The earliest known applications of radiative cooling can be traced back to ancient Iran and India, as far back as 400 BCE. In these hot climates, people constructed shallow earthen pits or ceramic trays, filled...

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Nature’s Ingenious Thermal Regulators: Insects and Animals Mastering Radiative Cooling

Nature’s Ingenious Thermal Regulators: Insects and Animals Mastering Radiative Cooling

From the scorching deserts to the dense rainforests, nature has endowed many insects and animals with remarkable abilities to regulate their body temperatures through radiative cooling. This passive and energy-efficient process allows these creatures to dissipate excess heat without relying on external energy sources, enabling them to thrive in even the harshest of environments. Radiative cooling provides a unique opportunity to achieve passive cooling to the vast cold sink of outer space. With its renewable nature and recent materials advances enabling daytime operation, radiative cooling represents an innovative thermal solution with tremendous potential energy savings.

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Ancient Persian Yakhchals: Marvels of Passive Radiative Cooling

Ancient Persian Yakhchals: Marvels of Passive Radiative Cooling

The ancient Persian Yakhchals were ingenious examples of passive radiative cooling technology. These structures consisted of a domed above-ground structure with a deep underground storage chamber below. Water from nearby aqueducts would be channeled into shallow pools adjacent to the Yakhchal at night. Through radiative cooling, where heat is lost as infrared radiation to the cold night sky, the water in these pools would freeze, aided by the arid desert’s low humidity levels.

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