Elematic’s Post

🌞 ❄ Hot off the press and straight into the future of construction! Today, construction accounts for 50% of energy use, #BIOBUILD is tackling this with innovative bio-based materials and nearly zero-emission buildings (NZEBs). By addressing Europe’s diverse climate zones, BIOBUILD tailors energy-efficient, recyclable solutions for both residential and non-residential buildings. “We can’t apply a one-size-fits-all solution to such a diverse continent. That’s why we’ve developed a detailed classification system that considers everything from Mediterranean villas to Scandinavian offices.“ ASRO - Romanian Standards Association What about environmental benchmarks and using Life Cycle Assessment (LCA)? BIOBUILD ensures its materials are eco-friendly, safe, and energy-efficient by reducing carbon footprints and improving sustainability. Learn how we're paving the way for carbon-neutral cities by 2050! 💡 👉 Read the full article: https://lnkd.in/dyb9aSv2 European Research Executive Agency (REA) Swedish University of Agricultural Sciences (SLU) MOGU SQIM Pervanovo Invest Universitat de Lleida GREiA Research Group Zafer Ure Università degli Studi di Padova University of Antwerp Col·legi d'Arquitectes de Catalunya - COAC Consiglio Nazionale delle Ricerche RTDS Group University of Natural Resources and Life Sciences, Vienna (BOKU)

🌍 Top 5 Sustainable Materials Revolutionizing Construction + The Power of Green Building Certification 🏗️ In today’s construction industry, sustainability is no longer optional—it's a competitive advantage. Here’s a quick look at five innovative materials driving this change: Cross-Laminated Timber (CLT): Strong, lightweight, and carbon-negative. Used in the world’s tallest timber building, Norway’s 18-story Mjøstårnet. Hempcrete: Insulating, breathable, and carbon-absorbing, this material is making waves in eco-friendly projects like The Lime House in the UK. Recycled Steel: Saves up to 75% of energy compared to new steel. The Empire State Building’s renovation showcased its durability and sustainability. Ferrock: Made from recycled materials, it’s five times stronger than concrete and absorbs CO2. Mycelium: A growing trend, literally! This biodegradable material was used in the unique Hy-Fi Tower in NYC. Pairing these materials with Green Building Certification (LEED, BREEAM, etc.) can boost your project’s value by up to 11% and accelerate lease-up rates by 20%. The benefits are clear—reduced operational costs, enhanced marketability, and a positive environmental impact. Let's build a future where sustainability is the foundation, not an afterthought. 🏡💚 #Sustainability #Construction #GreenBuilding #Innovation #LEED #CLT #Hempcrete #Mycelium #RealEstate #ESG

The construction industry is a notorious waste generator. BUT, companies like Backacia France are changing the game when it comes to how we handle all that leftover debris. ♻️ Imagine a platform connecting construction and real estate professionals with a treasure trove of reclaimed building materials. Backacia's digital marketplace facilitates the reuse of surplus stock and professionally deconstructed elements, offering a cost-effective and eco-friendly solution for projects. Here's why Backacia is important: Reduced Environmental Impact: Construction waste is a significant concern. Backacia diverts these materials from landfills, promoting resource conservation and a more sustainable future for our built environment. Cost-Effectiveness: Reusing existing materials can significantly reduce project costs, making sustainable construction strategies more accessible for a wider range of projects. Circular Economy Champions: Backacia fosters a circular economy within the construction industry, minimizing environmental impact and promoting responsible resource management. The architecture industry has a powerful influence on the environment. By supporting companies like Backacia, we can revolutionize how we design, build, and renovate. What are your thoughts on the potential of reclaimed building materials? Let's foster a conversation in the comments – I'd love to hear your experiences and ideas! https://lnkd.in/gRbRsb3A #sustainablearchitecture #constructionwaste #reuse #backacia #circulareconomy #greenbuilding #architecture #designthinking #futureofconstruction #reclaimedmaterials #france #europe

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🌍 SUT & University of Art and Design Linz: Pioneering Sustainable Construction in Mae Sai, Thailand 🌱 At the forefront of sustainability and innovation, Suranaree University of Technology (SUT), in collaboration with the University of Art and Design Linz, is making waves in sustainable construction. Together, they have developed a groundbreaking bamboo and earthen house project, now featured on the ASEA-UNINET platform, as a model for regenerative and local construction materials. 🏡✨ Key Impact Areas: ✔️ Carbon Reduction Leadership: This project significantly lowers the carbon footprint by using renewable bamboo and earth, offering a practical pathway to greener construction. ✔️ Cross-Border Collaboration: By blending Thai local knowledge and global design innovation, the partnership demonstrates the power of international collaboration. ✔️ Community and Global Sustainability: This initiative supports local economies and aligns with global sustainability goals, showcasing Mae Sai as a beacon of sustainable living. This collaboration is a testament to the impact of academic partnerships in creating solutions that address pressing global challenges. Together, SUT and the University of Art and Design Linz are shaping a future where construction is sustainable, affordable, and rooted in harmony with nature. 🌍💚 👉 Read the full story on ASEA UNINET https://lnkd.in/g3K4p_VW. #Sustainability #GlobalCollaboration #CarbonFootprint #SUTInnovation #UniversityofArtAndDesignLinz #ASEANUNINET #BambooArchitecture #LocalWisdomGlobalImpact

Exciting news from the world of sustainable construction! A building project in the Netherlands is showcasing the future of eco-friendly housing. Key highlights: • 20 flex homes built using 90% biobased materials • Innovative Wavin Ventiza air distribution system produced with biobased PVC that results to a 75% CO2 reduction. • Circular design principles for easy disassembly and reuse. This project demonstrates how modular, sustainable homes can be efficiently constructed using renewable resources. It's an interesting example of the construction industry's shift towards sustainability and circularity. "This is just the beginning of a long-term partnership with the same partners across the entire chain," says Chris van Vilsteren of Loohuis Assies. Are you ready to embrace the future of sustainable construction? Let's connect and discuss how we can work together to create a greener built environment! You can read the full story here: https://lnkd.in/eUX_2q53 #SustainableConstruction #Biobased #CircularEconomy #GreenBuilding #Innovation

🌳 Why Build with Timber? 🌳 Timber is not just a building material; it’s a game-changer in the fight against climate change. Unlike concrete and steel, which are energy-intensive, timber stores carbon instead of emitting it. It’s the go-to choice for architects and designers who want to create healthier, more sustainable spaces whilst reducing their carbon footprint. 💚 Certified, sustainable timber is at the forefront of bio-based construction and the circular economy—building the future with renewable, responsibly sourced materials. Discover why specifying sustainable timber is crucial to achieving net zero carbon targets! 🔎 What Will You Learn? • Innovations in mass timber and offsite manufacturing • Why timber buildings benefit health and wellbeing • Timber’s role in a circular economy • Timber as an alternative to carbon-intensive materials • Principles of bio-based construction • Applications for advanced engineered timber products • Why specifying certified timber matters • The timber construction revolution—what’s next? 🗣 Meet the Speaker The webinar will be presented by Dr Pablo van der Lugt , a pioneering thought leader in bio-based construction. As a senior sustainability consultant and lecturer at Delft University of Technology, Dr Pablo van der Lugt will share his expertise on how timber has evolved from a traditional material into a high-performance, engineered solution that’s shaping the future of construction. 📅 Don’t Miss Out! 🔗Register now -https://lnkd.in/ez9fdmAC #TimberConstruction #SustainableBuilding #NetZero #BioBasedBuilding #CPDWebinar #Architecture #ConstructionInnovation

🔄 Do Century-Old Timber Beams Perform as Well as New Ones? 🪵As the demand for timber products surges, Norwegian scientists are exploring the potential of reusing century-old beams to drive a fully circular economy in construction. 🔎 What You Need to Know: 1️⃣ Addressing Timber Supply Gaps: With projections indicating a 49% increase in timber demand over the next 25 years, reusing and upcycling old beams can provide a sustainable solution. Norway’s standards agency, Standard Norge, is developing new guidelines (NS 3691-3) to assess the strength of recyclable timber beams, paving the way for their incorporation into new projects. 2️⃣ Scientific Research: SINTEF, a leading research institution in Norway, is testing century-old beams to determine their structural integrity. Senior Adviser Sigurd Eide notes that many of these beams exhibit strength properties equivalent to new materials, providing a promising avenue for sustainable construction. 3️⃣ Detailed Evaluation Process: The research thoroughly assesses the beams' physical characteristics, including moisture content, annual ring closeness, and grain orientation. This meticulous evaluation ensures that only the strongest beams are selected for reuse, maximising their potential in future construction projects. 🔗 Read more about the potential of century-old timber beams and their role in sustainable construction: https://lnkd.in/gUm8g-UF 🗣️ #questionforgroup: How can the construction industry further embrace the reuse of materials to enhance sustainability? What challenges do you foresee in implementing these practices on a larger scale? WoodSolutions #circulareconomy #sustainableconstruction #recycledtimber #norway #woodcentral #woodcentralau1 #construction #architecture #netzero #recycling #wood #theultimaterenewable #woodsolutions

At Stockholmshem we are now only using climate-enhanced concrete in ALL new construction where we decide to use concrete. Impact's about 10% in each project. We are stepping up the pace of our climate work. We've already applied this concrete for several real-estate building's projects in Stockholm, capital of Sweden, for example Persikan, Örtuglandet and Utombordaren, totaling more than 50 000 sq m of building surface. This has led to a savings of around 1,350 tonnes of carbon dioxide compared to traditional concrete. Concrete is the single biggest climate emittor in many new construction projects. We are now switching to climate-enhanced concrete as a further step in our goal to halve our climate footprint. - As one of Sweden's largest housing companies, we are an important social actor with the opportunity to influence. Increased demand for climate-improved concrete can lead to shifts at all levels and suppliers moving towards a more sustainable supply,’ says Anna Bengtsson, Sustainability Manager Stockholmshem.

The concept of bioreceptive concrete pioneered by Dutch startup @gorespyre is indeed an innovative approach to urban green spaces. Auke Bleij and his team have developed a type of concrete that supports the growth of moss without harming the underlying structure. This moss has rhizoids instead of roots, which means it adheres to the concrete but does not penetrate it, making it non-invasive and ideal for urban environments. The moss not only beautifies concrete structures but also provides significant environmental benefits. It converts CO2 into oxygen, absorbs pollutants from air and water, and helps to cool buildings through evapotranspiration. Additionally, moss-covered surfaces require minimal maintenance and are graffiti-resistant, which can be a big advantage for maintenance managers. This solution can be applied to existing structures as well as in new builds, allowing cities to integrate more green spaces into their infrastructure.