Austin Ply: BWP & Fire Retardant | Furniture Grade E0 Plywood

From furniture-grade durability to fire retardant capabilities, our Austin plywood range ensures zero emission & long-lasting reliability for your projects.

Being one of the trusted and leading plywood brands in India Greenply offers you zero emission plywood in India to avoid indoor air pollution. Browse the products before you order.

Well-known Ply and Door Material Providers in India?

Along with doors, aesthetically pleasing veneers, PVC, and other materials, Korraply produces zero-emission plywood in India for use in furniture and other applications. If you are searching for a zero-emission furniture designer for your home, contact Korraply now. 

Why Choose Amulya Mica: The Best Laminates in India

Do you want to improve the look of your home's interior? Then you must be aware of which type of laminate is appropriate for your needs.

Here is a full explanation of why you should use Amulya Mica for your interior needs and how you can get the most out of their product?

When it comes to interior decor and furnishings, your choices can significantly impact your space's aesthetics and functionality. Among the multitude of options available, laminates stand out for their versatility, durability, and aesthetic appeal. And in the vast world of laminates, Amulya Mica is a name that resonates with trust, quality, and innovation.

Decades of Excellence

Starting its journey in 1998, the Amulya Group has grown exponentially over two decades. Today, it stands as a multifaceted entity offering a broad range of interior products, including High-Pressure Decorative Laminates, Plywood, PVC & WPC Panels & doors, and much more. From its early days of being a single-product company, it has now transformed into a beacon of multiproduct excellence, with its operations rooted in the industrious town of Gandhidham, Gujarat.

Innovative & Trendy

A distinguishing factor of Amulya Mica is its penchant for innovation. They offer a vast laminate design catalog, ensuring that customers always get the latest trends. Whether it's the chic frosty white laminate or the diverse Digital laminate, Amulya Mica’s offerings are always in sync with global trends. This synchronicity is possible due to a dedicated team of architects, interior designers, and product developers.

Quality You Can Trust

The journey from raw material to a finished product at Amulya Mica is rigorous. Each product, whether it's their laminate boards or laminates for doors, goes through stringent quality checks. This dedication ensures that customers get nothing short of the best laminate brand quality.

Sustainability: A Priority

In today's age, where environmental concerns are paramount, Amulya Mica Group stands as a pillar of sustainability. Their commitment extends from ensuring zero emissions in their processes to planting a staggering 100,000 trees. Further enhancing their green credentials, they harness solar power in manufacturing and have plans to incorporate wind energy soon.

International Recognition & Accolades

Amulya Mica's relentless pursuit of excellence has been recognized worldwide. Having achieved a star export house status from the Ministry of Commerce and the coveted GREENGUARD certificate from the Singapore Green Labeling Scheme, their dedication to quality and sustainability is evident.

Diverse Collections

Their 1mm collection, inspired by various global locales, offers a rich tapestry of designs, while the 1.25 mm Imperial Premium Laminates serve as an excellent alternative to natural veneer, and that too, at just 1/3rd of the price. And for those looking for flexibility, Amulya Mica's PVC laminates can be bent up to 135 degrees, ensuring easy installation.

When you opt for Amulya Mica laminates, you're not just choosing a product; you're selecting a range of benefits. From being scratch and impact-resistant to low toxicity and low emission, their laminates guarantee longevity and safety. Additionally, features like heat resistance, termite proofing, and a solid 10-year warranty further solidify their position as a market leader.

In the ever-evolving landscape of interior decor, Amulya Mica remains a constant source of trust, quality, and innovation. So, the next time you ponder over the laminate sheet price or search for the best laminate brand, remember that with Amulya Mica, you're always making a choice for excellence.

Explore more from their wide range and make an informed choice for your space.

Conclusion: To make your home stand out from the crowd, you must choose laminates properly, and I hope that after reading this guide, you are now aware of a variety of laminates that can take your home texture to the next level.

Stay connected with us for such detailed insights and information related to interior design.

Original Article published on:-

Amulya Mica

Plywood for Modular Kitchen Cabinets: Pros and Cons in Bangalore

Introduction

When it comes to designing a modular kitchen in Bangalore, one of the key considerations is the choice of materials for the cabinets. Plywood is a popular choice due to its versatility, durability, and aesthetic appeal. In this article, we will explore the pros and cons of using plywood for modular kitchen cabinets in Bangalore, providing you with valuable insights to make an informed decision for your kitchen renovation project.Visit Uro Veneer World and Buy your Plywood Collections for your House Decor.

Plywood for Modular Kitchen Cabinets: An Overview

Plywood is a type of engineered wood made by gluing together several thin layers or plies of wood veneer. The layers are stacked in alternating directions to improve strength and stability. Plywood offers numerous advantages that make it a preferred choice for modular kitchen cabinets.

Pros of Using Plywood for Modular Kitchen Cabinets

Strength and Durability: Plywood is known for its exceptional strength and durability. The cross-laminated construction enhances its structural integrity, making it resistant to warping, cracking, and splitting.

Moisture Resistance: Bangalore's humid climate can pose challenges for kitchen cabinets. However, plywood is naturally resistant to moisture and can withstand the humid conditions, reducing the risk of swelling or damage.

Versatility: Plywood comes in various grades and thicknesses, allowing you to choose the right option based on your kitchen design and budget. It can be easily cut and shaped, making it suitable for customized cabinetry.

Aesthetic Appeal: Plywood has a beautiful natural wood grain pattern, adding a touch of elegance to your modular kitchen. It can be left exposed for a modern look or veneered with other materials for a more polished appearance.

Cost-Effective: Compared to solid wood, plywood is generally more affordable while offering comparable strength and durability. It provides excellent value for money, especially for large-scale kitchen projects.

Environmental Friendliness: Plywood is made from sustainable and renewable resources, reducing the environmental impact. Additionally, many plywood manufacturers follow eco-friendly practices and use low-emission adhesives, making it a greener choice.

Visit Uro Veneer World and Buy your Plywood Collections for your House Decor.

Contact us for more information!!!!

Cons of Using Plywood for Modular Kitchen Cabinets

Formaldehyde Emissions: Some low-quality plywood products may contain formaldehyde, a volatile organic compound (VOC) that can be harmful in high concentrations. It is important to choose plywood with low or zero formaldehyde emissions to ensure a healthier indoor environment.

Vulnerable to Termites: While plywood is generally resistant to moisture, it can still be susceptible to termite infestation if not properly treated. Applying a protective coating or opting for termite-resistant plywood can mitigate this risk.

Slight Variations in Appearance: As plywood is made by layering thin veneers, there may be slight variations in color and grain pattern between sheets. This can be noticeable in cabinets with exposed edges and may require additional finishing techniques for a consistent look.

Visit Uro Veneer World and Buy your Plywood Collections for your House Decor.

Contact us for more information!!!!

Heavier than Particle Board: Plywood is denser and heavier than particle board, which can impact the ease of installation and handling. It may require extra effort during transportation and installation.

Limited Resistance to Extreme Heat: While plywood has good resistance to moisture, it has limited resistance to extreme heat. Direct contact with hot objects or prolonged exposure to high temperatures can cause damage, such as discoloration or delamination.

Regular Maintenance: To maintain the longevity of plywood cabinets, regular maintenance is essential. This includes periodic cleaning, applying protective coatings, and addressing any signs of wear or damage promptly.

Frequently Asked Questions (FAQs)

Q: Can plywood cabinets withstand heavy usage in a busy kitchen?

A: Yes, plywood cabinets are designed to withstand heavy usage and are suitable for busy kitchens. Their strength and durability make them highly resilient to daily wear and tear.

Q: Is plywood resistant to water damage?

A: While plywood has inherent moisture resistance, it is not entirely waterproof. It is crucial to ensure proper sealing and finishing to protect against water damage.

Contact Uro veneer world  for more information!!!!

Q: How can I ensure the plywood used for my cabinets is of good quality?

A: To ensure good quality plywood, look for reputable brands that adhere to industry standards. Check for certifications such as ISI mark or BIS certification, which indicate compliance with quality parameters.

Q: Are there any eco-friendly options for plywood cabinets?

A: Yes, there are eco-friendly options available in the market, such as plywood made from sustainably sourced wood and using low-emission adhesives. Look for products with environmental certifications like FSC or CARB Phase 2 compliant.

Q: Can plywood cabinets be painted or stained?

A: Yes, plywood cabinets can be painted or stained to achieve the desired finish. Proper surface preparation and the use of suitable paints or stains are essential for a lasting and appealing result.

Q: Can I install plywood cabinets myself, or should I hire a professional?

A: While it is possible to install plywood cabinets yourself if you have the necessary skills and experience, it is recommended to hire a professional for precise measurements, fitting, and ensuring a seamless installation.

Visit Uro Veneer World and Buy your Plywood Collections for your House Decor.

Contact us for more information!!!!

Conclusion

Choosing the right material for modular kitchen cabinets is essential for a functional and visually pleasing kitchen. Plywood offers several advantages, including strength, durability, moisture resistance, versatility, and aesthetic appeal. However, it is important to consider factors such as formaldehyde emissions, susceptibility to termites, and maintenance requirements. By weighing the pros and cons, you can make an informed decision and create a beautiful modular kitchen in Bangalore that suits your needs and style.

Visit Uro Veneer World and Buy your Plywood Collections for your House Decor.

Contact us for more information!!!!

Know how to choose Plywood for your interiors: A guide from Mamata Ply and Hardware

Are you moving into a new apartment and looking for the best interior design for your home? Plywood for interiors should be purchased with proper guidance if you are starting from scratch. Rather than spending a lot of money on art, the real way to beautify your home is to master the fundamentals of interior design.

Plywood is made from wood that has been cut into sheets and adhered with an adhesive to form the foundation of your furniture. It elevates the interiors of your home and transforms it into a haven of tranquility.

Is it true that you are searching for the best quality compressed wood for your furniture, however befuddled about what to purchase? Let us discuss some of the considerations you should make when purchasing the same:

Always pick plywood that is branded:

The quality of non-branded plywood is uncertain. Do check for certificates before selecting pressed wood for your insides.

Choose plywood of high quality:

Plywood of low quality may be cheaper, but it won't last long or have different features. The best quality compressed wood for furniture merits purchasing as it will keep going for quite a long time. There are many different finishes for plywood. The plywood exhibits fewer flaws as the grade level rises.

Select the Right Plywood:

Plywood can be used in a variety of environments and weather conditions. Mamata Ply and Hardware's plywood can be used for a variety of applications, including kitchen, bedroom, and living room furniture, among others.

Plywood for the Living Room: Mamata Ply and Hardware offers boil water-resistant plywood, which is ideal for the living room. The boiling water-resistant plywood at the top of the list is the best plywood for living room furniture.

Mamata Ply and Hardware, a Reputable Company:

Mamata Ply and Hardware, a leading manufacturer of high-quality plywood, has been around for a long time. It also comes with a money-back guarantee and zero-emission, fire-resistant, boiling-waterproof, anti-termite, and borer-proof plywood. Mamata Ply and Hardware has enhanced the interiors of many customers' homes and raised their standard of living.

An inviting atmosphere can be created with the right interior design. Subsequently, if you are searching for home inside arrangements, you've come to the ideal locations. Order the best furniture from us.

Why architects are shifting towards to build a Carbon Negative building?

The big question is arises about what does make it interest to adopt this technology to build the building.  What does the advantage of using this technology? What is the root cause to use this method to build a building? What is a “Carbon Neutral” Building? I am trying to cover all the details in this article, which are related to Carbon Negative building.

What is the Carbon Negative building and from where this idea came?

As we know, for the last two decades all the environmentalists, scientists, many organizations and individuals people all are giving emphasis to reduce the temperature of the world. Temperature increment is the greatest factor in climate change. What step should be taken to tackle this humongous problem? Unanimous the opinion of all scientists from the globe are the same, and they have reached on this conclusion, carbon is the prime factor to increase the temperature. This is the root cause of global warming.

So how will to tackle this gigantic issues. As a result, all parts of the world started to thing to reduce the emission of carbon, for this purpose, many organizations, individuals, scientists, environment-saving people all are started to create pressure on their government. As well as they started to encourage their government to take some action. As a result, the term "carbon neutral" or “Carbon Negative Building” has emerged for the infrastructure sector.  

The governments of worldwide have started to curtail carbon emissions by introducing new policies and regulations; the holistic purpose of this rule and regulation is to bring down the level of carbon reduction as soon as possible and to keep the temperature at least on the present level.

Carbon Negative building definition means, which related to measuring, reducing and offsetting carbon energy used by either a building or an organization as a whole. When these following things are implemented to build a building then that building comes on the categories to “Carbon Negative building”. These following thing should keep in mind to build a Carbon Neutral building:-

1. Integrating passive design strategies

2. Designing a high-performance building envelope

3. Specifying energy-efficient HVAC systems, lighting, and appliances

4. Installing on-site renewable energy

But the above definition varies from one country to another. There are some rules and regulations regarding “Carbon Negative building”. Anyone can visit their country website like “Department of Energy and Climate Change,” where they can get full details about “carbon neutrality”. I am including some website links of some countries below for more understanding about this.

Rules and Regulation| Bureau of Energy Efficiency of India

https://beeindia.gov.in/content/rules-and-regulations

UK Department of Energy and Climate Change, “Guidance on carbon neutrality”,

https://www.ukgbc.org/wp-content/uploads/2019/04/Net-Zero-Carbon-Buildings-A-framework-definition.pdf

EU Energy Performance of Buildings Directive

https://ec.europa.eu/energy/en/topics/energy-efficiency/energy-performance-of-buildings/energy-performance-buildings-directive

Canada Green Building Council

https://www.cagbc.org/CAGBC/Zero_Carbon/CAGBC/Zero_Carbon/zero_carbon.aspx?hkey=958b46e1-50df-44e0-bca9-e384793d12dc

USA green building council

https://in.usgbc.org/resources/federal-guide-greenbuild-2019

Please go through above mention website for deeper knowledge. So this is one of the reasons architects are going to “carbon Neutral Building” and 2nd most holistic reason is no one wants to keep himself behind to give their contribution to reducing carbon emission.

Recently the Norwegian Architect Snohetta has announced and taken a pledge. He will design only carbon negative Buildings, which means their project will produce more energy compared to consume over the lifetime of the building. Like that “Stirling Prize winner Mikhail Riches” said, her aim is to build a “zero-carbon building” from this year. These are a few names who are committed to building a “Carbon Negative building”.

There is some feature to build a “Carbon Negative building”. How does it effective to minimize carbon emission.

1. Reduce the use of fossil fuel energy during the process of the supply chain and the process of construction.

2. Use sophisticated technology to demolish the building, the process should be used, which reduces fewer greenhouse gases.

3. Build the structure very airtight.

4. keep the structure breathable.

5. A building should be durable, low-maintenance, fire-proof, resilient, and all weather-resistance.

6. Should be used more insulation.

There is plenty of the product are available which can be used to build a building, which helps to reduce the carbon emission. These can be used in different parts of the building, which based on wood.

1. Plywood, wood structure panel

2. Finger-jointed lumber

3. Roof trusses and floor trusses

Other natural carbon-negative materials can be used at the time of construction, which is used in many constructions to minimize carbon emission. Like flex, hemp fibers, hemp shiv, jute, paper, reed, and straw. These materials can be used in different places in the building.

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Named Nolla after the Finnish word for zero, the mobile cabin is built with sustainable materials – local pine and plywood – and is designed to allow visitors to have a zero-emissions holiday.

The size of a small bedroom, Nolla is built from A-frames with a glass front to give guests a direct view its surroundings. It is created using cradle-to-cradle design principles.

"Having a smaller house it automatically forces you to bring less stuff there and also bearing in mind that whatever you carry with you, you will have to carry with you when you leave," expained Falck.

Triangle House A-Frame Project in Joshua Tree

A-frame houses are a popular choice for vacation homes and weekend getaways. They are also becoming increasingly common as primary residences. One of Dean Larkin Design’s new designs in the Joshua Tree area is an A-Frame project.

Dean Larkin affectionately calls the home the Triangle House, and while this home is smaller than most of his projects at 900 square feet, he finds working on something so compact to be a fun challenge. His love of natural light is easy to accommodate in this A-frame project with expansive glass windows and doors on all sides of the house.

Based on the great views, Dean decided to add a 150 square foot viewing platform above the first level. Dean noted that “There’s nothing around the site, not a house to be seen, and it has some pretty spectacular views to the east west and south. So that’s why the carport is sitting on the north side.”

That arrangement puts the house’s side facing the major street, Aberdeen.

Dean shared, “There’s a feature on the Triangle House on the one-story portion that gestures sort of forward and that is an ode to Aberdeen, because that’s one of the best views. That gesture, that angled portion, was added as a tip of the hat to Aberdeen to give the house more personality from the Aberdeen side.”

History of the A-Frame

Before A-Frame homes became a popular vacation home style in America, the style was used in other countries, including in Japan for farmhouses, and in Switzerland for outbuildings and ski chalets. In 1934, an architect who was a student of Frank Lloyd Wright, Rudolph Schindler, designed an A-Frame home as a vacation home for client Gisela Bennati in Lake Arrowhead, California. The home was constructed of plywood and stone, and built on a slope, oriented to the beautiful view of the site.

A-Frame homes really became popular post World-War II when Americans had extra disposable income and started having an interest in owning vacation homes. The structure was very adaptable and also affordable to build, and architects exercised their creativity to expand into more contemporary designs.

Passive Cooling in the A-Frame House

A-frame houses have some unique challenges. For example, with the angled walls, how do you hang a television? Dean Larkin found a solution in creating a flat fireplace wall. The wall, which is sort of like a chimney, will also act as a cooling tower. The fireplace will pull the hot air out of the house, which is important because the top of the A-Frame will really heat up when the weather is warm. 

Electricity in the A-Frame Project

Solar houses are mandated in California, and on an A-Frame house, where the roof is so high-profile, solar panels would really impact the aesthetics. Dean Larkin Design is working to solve this challenge by installing a Tesla roof. Dean’s thought was, “if we can find a more handsome way to incorporate solar into our projects, we are going to take advantage of it.”

Tesla makes a solar shingle, and each shingle is like a mini solar panel. Dean noted that starting in July, battery backup will be mandated as well in California.

“Everyone wants a Tesla battery because of power outages: Fires spark with the overhead lines so the power gets shut off when there is the slightest breeze. Generators become a big deal but they are noisy, so everyone wants battery backup. They want Tesla batteries, but they are impossible to get. However, if you get a Tesla roof you are first in line to get a Tesla battery.” In addition to the practical value of a Tesla roof is the improved aesthetics vs standard solar panels.

Solar Panels are Part of Dean Larkin Design’s Net Zero Goal

The American Institute of Architects (AIA) recognizes that reducing carbon emissions is vital to our planet, and has rolled out the AIA Net Zero 2030 Commitment. This climate strategy aspires to reach net zero emissions in the built environment by the year 2030. Dean Larkin Design is also committed to being a green firm, and the firm’s designs are already very energy efficient. Dean was pleased to note that they could claim their projects are Net Zero, “by having enough solar panels to provide all the electricity for the house. Our staff is working to understand energy loads and electricity required to run each house and then lay out the options for the solar panels or solar collectors so we can make them Net Zero.”

Contact Dean Larkin for Exceptional Contemporary Design in California

As proved by the attention to aesthetically pleasing energy efficiency in the A-Frame Project, Dean Larkin Design is committed to green practices in his contemporary design projects. Dean Larkin Design was established in Los Angeles in 1999 and this modern architecture firm maximizes the intrinsic potential of a location, including its available natural light sources and views. Dean Larkin is very familiar with both historical and contemporary design in the entire Los Angeles area, and the firm endeavors to achieve a complexity that is multi-layered with an effortless elegance. For a design that is modern and innovative, unlocks your location’s innate potential by making specific use of light, views and more, and uniquely designed for the way you live, contact Dean Larkin for a consultation.

Blog is originally published at: https://deanlarkindesign.com/triangle-house-a-frame-project-in-joshua-tree/

It is republished with the permission from the author.

Why is Austin the Trusted Name for Furniture-Grade Plywood?

Discover why Austin is the go-to choice for top-tier BWP grade, zero-emission plywood for furniture. Uncover quality and sustainability today!

Top 10 Best backsplash for calacatta quartz [2022]

Top 10 Best backsplash for calacatta quartz [2022]

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Dezeen's top 10 low-carbon buildings of 2021

As part of our review of 2021, here are 10 examples of low-carbon architecture including buildings made of 3D-printed clay, recycled materials and biomaterials.

The most climate-friendly of these projects are net-zero or even carbon negative, meaning they will remove as much or more CO2 from the atmosphere as they will emit throughout their expected lifespan.

This is possible by making use of carbon-sequestering biomaterials, circular design principles and passive, renewable technologies for heating, cooling and energy.

As a result, the buildings not only minimise operational emissions but also the embodied carbon from materials and construction.

Read on for 10 projects that showcase how to incorporate these sustainable strategies.

Photo is by Iago Corazza

Tecla house, Italy, by Mario Cucinella Architects and WASP

Raw local clay was 3D printed in 350 layers to form this prototype home, which fuses ancient building techniques with modern technology.

The clay provides natural thermal insulation and can be recycled time and time again, with the aim of providing low-cost emergency housing for climate refugees without contributing to global warming.

Find out more about the Tecla house ›

Photo is by Patrick Degerman

Sara Kulturhus Centre, Sweden, by White Arkitekter

This cultural centre in Skellefteå designed by White Arkitekter is the second-tallest wooden tower in the world, sequestering more carbon in its timber construction than it will emit throughout its lifetime.

Highlighted as an "exemplary sustainable project" by the UK Green Building Council as part of its COP26 virtual pavilion, the carbon-negative complex is heated by a geothermal pump and powered by 1,200 square metres of solar panels, supplemented with renewable energy from the grid.

Find out more about Sara Kulturhus Centre ›

Photo is by Tommaso Riva

The Arc, Indonesia, by Ibuku

Fast-growing bamboo is bent into 14-metre-high arches to form the self-supporting, double-curved roof of the gymnasium at Bali's Green School, which was engineered to use minimal material while providing maximum floor space.

Vents at the canopy's apex allow warm air to escape while openings around the base provide natural ventilation, eliminating the need for air conditioning in the island's tropical climate.

Find out more about The Arc ›

Photo is by Jonathan Hillyer and Gregg Willett

Kendeda Building, USA, by Miller Hull Partnership and Lord Aeck Sargent

Made with salvaged materials such as recycled masonry and wood from discarded movie sets, the mass-timber Kendeda Building was conceived as both a learning centre and a teaching tool to educate students of Atlanta's Georgia Institute of Technology about sustainable design.

Described as a "regenerative building", it produces more electricity via its photovoltaic canopy and recycles more water than it uses, with purified rainwater funnelled into sinks and showers before once again being treated and channelled to support vegetation in a nearby wetland.

Find out more about Living Landscape ›

Photo is by Iwan Baan

2021 Serpentine Pavilion, England, by Counterspace

South African studio Counterspace designed this year's Serpentine Pavilion as a mashup of different migrant community spaces around London, rendered in plywood that was wrapped around a steel frame and finished with black-stained cork panels.

Although the project was criticised for its use of emissions-intensive concrete for the foundation, an AECOM report shared with Dezeen showed that the building still removed 31 tonnes of carbon from the atmosphere through its biomaterials, making it carbon-negative up to the point of dismantling.

Find out more about the 2021 Serpentine Pavilion ›

Glyndebourne Croquet Pavilion, England, by BakerBrown Studio

This wind-powered garden pavilion for the Glyndebourne opera house will make use of circular economic principles in order to minimise its carbon footprint, incorporating local waste materials and a reversible design that allows the building to be disassembled and its components reused.

Diseased ash trees will be salvaged to form the structure, with its interior panelled in the venue's own discarded champagne corks bound together by mycelium and the exterior clad in tiles made from waste oyster and lobster shells.

Find out more about the Glyndebourne Croquet Pavilion ›

Photo is by Morley von Sternberg

Cambridge Central Mosque, England, by Marks Barfield Architects

Shortlisted for the 2021 Stirling Prize, this mosque in Cambridge makes use of timber as a carbon-storing material to form its structural walls and tree-like pillars, which join to create the octagonal canopy holding the roof.

The place of worship is naturally lit and ventilated throughout the year, with solar panels covering all of the building's cooling and hot water needs as well as 13 per cent of the heating, while harvested rainwater is used to flush the toilets.

Find out more about the Cambridge Central Mosque ›

Living Landscape, Iceland, by Jakob+MacFarlane and T.ark

This mixed-use building, set in a former landfill site in Reykjavik, started construction in 2021 as one of 49 different net-zero urban developments which are being financed as part of the Reinventing Cities competition by global network C40 Cities.

Making use of a prefabricated cross-laminated timber (CLT) structure will reduce the building's embodied carbon footprint by almost 80 per cent compared to a typical concrete building, while operational emissions are minimised through an integrated waste-heat recovery system, comprehensive insulation and a renewable energy supply.

Find out more about Living Landscape ›

Photo is by Oscar Vinck and Jeroenvander Wielen

Exploded View Beyond Building, the Netherlands, by Biobased Creations

Algae textiles, 3D-printed sewage tiles and insulation made from reeds feature in this showhome built by Biobased Creations using 100 different biomaterials and showcased as part of Dutch Design Week.

All of its components, including the timber frame, are demountable and either already commercially available or coming to market soon, in a bid to show that plant-based materials are a viable option for new housing developments.

Find out more about the Exploded View building ›

Campo Urbano, Italy, by Arney Fender Katsalidis

A disused railway site in Rome is set to be turned into a low-carbon neighbourhood as part of a redevelopment project by Arney Fender Katsalidis, which will combine retrofits and reversible biomaterial buildings running on a mixture of locally produced biomass power and rooftop photovoltaics.

By designing the neighbourhood as a car-free, 15-Minute City where locals can find all the essentials for their day-to-day life within a short walk or cycle, the scheme considers not just embodied and operational carbon but also consumption-based emissions generated by the lifestyles of building users.

Find out more about Campo Urbano ›

The post Dezeen's top 10 low-carbon buildings of 2021 appeared first on Dezeen.