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Here you can find an overview of questions and answers about biobased construction, timber homes, sustainable forestry, carbon storage, and more! Do you have another question? Contact us!
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Biobased construction is a sustainable method of building because it utilises renewable and biodegradable materials instead of non-renewable and harmful resources. Biobased construction uses materials such as timber, bamboo, or straw that can be better than using concrete in several ways. Here are some of the advantages:
Carbon footprint: Biobased materials have a lower carbon footprint compared to concrete, which is a major source of greenhouse gas emissions (due to the production of cement, a key component of concrete). Biobased materials store carbon dioxide, which is taken from the atmosphere during their growth, and keep it sequestered for the life of the building. Learn more about carbon sequestration here.
Renewability: Biobased materials are renewable and can be grown and harvested repeatedly, while the production of concrete consumes finite resources, such as sand, gravel, and limestone.
Durability: Biobased materials can be just as durable as concrete when used in construction, and they have the added benefits of being lighter and more flexible, which can lead to increased energy efficiency and reduced maintenance costs.
Health: Biobased materials can improve indoor air quality by emitting fewer pollutants and harmful chemicals compared to concrete and other synthetic materials.
Sustainability: Biobased construction aligns with the principles of a circular economy by using resources in a way that minimizes waste and promotes sustainability.
Overall, biobased construction can be a more sustainable and environmentally friendly alternative to concrete construction, and it can provide numerous benefits for the health and wellbeing of people and the planet.
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Shifting to a circular economy is crucial for a sustainable future. A circular economy aims to keep resources in use for as long as possible and reduces waste. The shift to a circular economy is essential for addressing global challenges such as climate change, resource depletion, and economic inequality. Circular construction is a building approach that aims to close the loop on material use and reduces waste. It focuses on designing, building, and operating buildings in a way that reduces the use of finite resources and increases the use of renewable and recycled materials.
The benefits of circular construction include:
Reduced waste: By designing buildings to be easily disassembled and reused, circular construction reduces the amount of waste generated during the construction process.
Increased resource efficiency: By reusing materials and reducing the need for new materials, circular construction increases the efficiency of resource use.
Better building performance: Circular buildings are often more energy-efficient and durable than traditional buildings, which can lead to reduced energy consumption and lower maintenance costs.
Improved sustainability: Circular construction helps to reduce the environmental impact of building and construction, by reducing waste and the use of finite resources.
To build circular, there are several key principles that can be followed, including:
Design for disassembly: Design buildings to be easily disassembled and reused, so that materials can be reused or recycled at the end of their useful life.
Use renewable and recycled materials: Increase the use of renewable and recycled materials in construction so as to reduce the use of finite resources and waste.
Implement energy-efficient technologies: Use energy-efficient technologies, such as insulation and efficient heating and cooling systems, to reduce the energy consumption of buildings and reduce their environmental impact.
Optimize building performance: Use design strategies and building materials that improve the performance of buildings, making them more durable and efficient over their lifetime.
By following these principles, circular construction can help to create buildings that are more sustainable, efficient, and durable, and that reduce the impact of building and construction on the environment.
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The construction industry has a significant impact on the environment, both in terms of its direct operations and the impact of the buildings and infrastructure it creates. Some of the key environmental impacts of the construction industry include:
Resource depletion: Construction often involves the extraction and use of raw materials such as wood, steel, concrete, and other materials, which can lead to depletion of natural resources. For example, concrete production requires significant amounts of energy, water, and raw materials, including sand, gravel, and crushed stone.
Greenhouse gas emissions: The production of cement, a key component in concrete, is a major source of greenhouse gas emissions that contribute to climate change. In addition, construction activities such as transportation and excavation also generate emissions.
Waste generation: Construction sites can generate significant amounts of waste, including construction debris, scrap materials, and waste from equipment and vehicles. Also, production processes of materials such as concrete generate significant amounts of waste during both the manufacturing process and transportation.
Water pollution: Both construction and building material production activities can contribute to water pollution through soil erosion, chemical runoff, and other sources.
Land degradation: Construction and extraction of raw materials can cause land degradation through deforestation, soil compaction, and the destruction of habitats and ecosystems.
To minimise the environmental impact of the construction industry, it is important to adopt sustainable construction practices that minimise waste and emissions, conserve resources, and protect the environment. This can include using renewable materials, implementing energy-efficient design and production processes, reducing waste and emissions, and preserving and restoring natural habitats. By taking a sustainable approach to construction, we can help to protect the environment and create a more sustainable future.
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Building climate resilient housing is important for several reasons:
Climate change impacts: Climate change is having a growing impact on communities around the world, including increasing frequency and intensity of extreme weather events such as hurricanes, floods, and droughts. Climate resilient housing is designed to withstand these impacts, reducing the risk of damage and protecting residents from harm.
Protecting vulnerable communities: Climate resilience is particularly important for vulnerable communities, such as those living in poverty or in coastal areas, who are disproportionately affected by the impacts of climate change. Climate resilient housing can help to protect these communities and reduce their vulnerability.
Economic benefits: Building climate resilient housing can also have economic benefits, as it can help to reduce the costs associated with repairing or rebuilding damaged homes and infrastructure. In addition, it can help to minimize the loss of income, livelihoods, and other assets due to climate-related disasters.
Mitigating emissions: By incorporating sustainable design principles and using environmentally friendly materials, climate resilient housing can also help to reduce greenhouse gas emissions and contribute to global efforts to mitigate climate change.
Promoting sustainable communities: Climate resilient housing can also help to promote the development of sustainable communities by incorporating sustainable design principles, reducing energy and water consumption, and promoting healthy indoor air quality.
In conclusion, building climate resilient housing is essential for protecting communities from the impacts of climate change, promoting sustainable and healthy living environments, and reducing the economic and environmental costs of housing. By prioritising climate resilient housing, we can create more sustainable and resilient communities for the future.
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Timber prefabrication offers several advantages in construction, including:
Speed of construction: Prefabricated timber components can be manufactured off-site and then quickly assembled on-site, reducing the overall construction timeline.
Improved quality control: By manufacturing components in a controlled factory environment, the quality of the components can be more easily monitored and controlled, leading to higher quality structures.
Increased efficiency: The use of prefabrication in construction can increase efficiency by reducing waste and minimising the need for on-site storage, as components are manufactured and stored in the factory before being transported to the site.
Increased safety: By moving much of the construction work to a factory environment, the risk of injury to workers on site is reduced, and the risk of damage to the site is minimised.
Reduced construction costs: Prefabricated components can often be manufactured more efficiently and at a lower cost than components manufactured on-site, leading to reduced construction costs overall.
Improved sustainability: By using prefabricated components made from sustainable materials, such as sustainably-sourced timber, the construction industry can help to reduce its overall environmental impact.
Overall, the advantages of timber prefabrication in construction include faster, more efficient, and more sustainable construction processes, as well as improved quality control and increased safety for workers.
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Providing local jobs and using local supply chains are important for several reasons:
Economic benefits: Local jobs can provide a source of income and stability for individuals and communities, helping to reduce poverty and improve quality of life. Additionally, local supply chains can provide opportunities for local businesses to grow and prosper, contributing to economic development and stability.
Sustainability: Using local supply chains can reduce the environmental impact of transportation and distribution, as goods and materials can be sourced and delivered more efficiently, reducing emissions and energy use.
Resilience: By supporting local jobs and businesses, communities can become more resilient and self-sufficient, reducing their dependence on external factors and improving their ability to weather economic and environmental challenges.
Strengthening communities: Providing local jobs and using local supply chains can help to strengthen communities by fostering a sense of community pride, encouraging local collaboration and cooperation, and promoting social cohesion.
Support for local cultures: Using local supply chains can help to preserve and promote local cultures, as traditional skills and practices are passed down from one generation to the next, and local businesses are encouraged to thrive.
In summary, providing local jobs and using local supply chains are important for promoting economic development, sustainability, resilience, community strengthening, and cultural preservation. By supporting local communities and businesses, we can help to create a more sustainable and equitable future.
Biobased construction & circular economy
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Timber homes are safe because they are made from a strong and durable material that has been used in construction for centuries. Timber is a natural material that is able to resist fire, earthquakes, and storms. It has good insulation properties, which can reduce the spread of fire and keep residents warm in winter and cool in summer. Timber homes are also lighter and less dense than other construction materials, which reduces their potential to cause damage in the event of an earthquake. In addition, integrating climate smart building principles provide climate resilience for households against hazards such as hurricanes, floods, droughts and heat waves. Furthermore, modern construction techniques and treatments ensure that timber homes are protected against pests and rot. Overall, timber homes are a safe and sustainable option for those who want to live in a comfortable and secure environment.
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Fire safety and fire risks are important in any type of building. The risk of fire is normally not greater in a timber structure, as can be seen in the US, where most residential buildings are built using timber frame construction. When exposed to heat, wood will char on the surface before it ignites, creating a barrier that slows the spread of fire. In the event of a fire, timber homes can provide a safer environment for occupants to evacuate compared to homes made from non-combustible materials like concrete or steel, as wood burns slowly and produces less toxic smoke.
Easy Homes are equipped with a smoke detector and fire extuingisher so that an inhabitant can quickly respond to a fire emergency. Generally, timber homes are not more susceptible to fire than any other structure. Taking precautions, such as not using open fire, charcoal burners or candles inside, are the most important mitigation strategies. In addition, electricians contracted by Easy Housing are always ensuring that the electrical installations are installed in line with regulations to create safe electrical installations in the homes. This way, we help you to create a safe Easy Home.
For more information, see here.
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There are several ways to make timber homes resistant to termites:
Pressure-Treated Wood: Pressure-treated wood is treated with chemicals that make it resistant to termites and other pests. This type of wood is often used for foundations, beams, and joists in timber homes.
Termite Barriers: Physical barriers, such as metal mesh or a layer of chemical-treated soil, can be installed around the foundation of a timber home to prevent termites from entering.
Proper Ventilation: Proper ventilation and adequate spacing between wood members can help prevent moisture buildup, which attracts termites.
Pest Management: Regular inspections and pest management practices can help identify and address any termite infestations before they cause significant damage.
Durable Wood Species: Some species of wood, such as cedar and redwood, are naturally resistant to termites and can be used in timber construction to reduce the risk of infestation.
By using these methods, we can effectively protect your timber home from termites and ensure its longevity and stability over time.
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Timber homes can offer a number of health benefits compared to homes built with other materials. Here are some of the key benefits:
Indoor air quality: Timber has natural air-purifying properties and can help to improve indoor air quality by reducing the levels of harmful pollutants and chemicals.
Comfort: Timber homes can provide a comfortable and inviting atmosphere, with warm and inviting interiors and a natural aesthetic.
Acoustics: Timber is an excellent sound absorber, and timber homes can provide good acoustic performance, reducing the levels of noise pollution and creating a more peaceful and calming environment.
Biophilic design: Timber has a strong connection to nature and can help to promote biophilic design, which has been shown to have positive effects on mental and physical health, such as reducing stress and promoting well-being.
Sustainability: Timber homes can be more environmentally friendly than homes built with other materials, which can contribute to a healthier and more sustainable environment.
Overall, timber homes can provide a range of health benefits, both in terms of the physical environment and in terms of the impact they have on the health and wellbeing of the people who live in them. By choosing timber homes, it is possible to create a healthy and comfortable living environment that supports the health and well-being of residents.
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Timber buildings have a long history and a proven lifespan. They have been used for construction for thousands of years, with some wooden structures still standing today after hundreds of years. With proper maintenance and preservation, timber buildings can last for several generations. Modern construction techniques and treatments have further improved the durability and longevity of timber structures. Today, timber buildings are known for their strength, resilience, and versatility, making them a popular choice for both residential and commercial construction. Despite its long history, timber continues to be a relevant and innovative building material in modern times, offering a sustainable, renewable, and beautiful alternative to traditional construction methods.
Timber homes: qualities & features
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Building with sustainable timber does not have to cause deforestation if it is sourced from responsibly managed forests. Sustainable forestry practices often involve planting new trees to replace those that are harvested, which helps to increase the overall size of the forest. Sustainable timber is harvested in a manner that ensures the long-term health and productivity of the forest, and it is a renewable resource that can be harvested again and again. Additionally, the use of sustainable timber in construction and other industries creates a demand for sustainably sourced wood, which provides an economic incentive for forest owners and managers to maintain and manage their forests in a sustainable way.
Sustainable timber is usually certified by organizations such as the Forest Stewardship Council (FSC) or the Programme for the Endorsement of Forest Certification (PEFC), which have strict standards for responsible forest management. These organizations ensure that the wood is sourced from well-managed forests, and they track the wood from the forest to the final product to ensure that it has been harvested sustainably.
Thus, using sustainable timber in construction can prevent deforestation by providing an economic incentive for responsible forest management. It can support the growth and health of forests, contribute to the conservation of forests and their biodiversity and ensure that forests are available for future generations to enjoy.
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There are several African countries with sustainable forestry sectors, including:
Ghana: Ghana has a well-established forestry sector and is known for its sustainable forest management practices. The country is home to a variety of indigenous tree species and has a thriving timber industry.
Congo: The Democratic Republic of the Congo has a large forest sector and is home to over half of the world's tropical rainforests. The country is taking steps to ensure sustainable forest management and to conserve its rich biodiversity.
Tanzania: Tanzania has a significant forest sector, with a diverse range of tree species and well-established forestry practices. The country is committed to sustainable forest management and has implemented several initiatives to promote reforestation and conservation.
Mozambique: Mozambique has a growing forestry sector, with large areas of natural forest and an increasing number of managed forests. The country is taking steps to ensure sustainable forest management and to conserve its forest resources.
South Africa: South Africa has a well-established forestry sector, with a long history of forestry practices and a thriving timber industry. The country is committed to sustainable forest management and has implemented several initiatives to promote conservation and reforestation.
Uganda: Uganda has a growing forestry sector and is working to ensure the long-term health and productivity of its forests. The government of Uganda has taken steps to ensure sustainable forest management through the implementation of various policies and programs. Additionally, Uganda has several initiatives underway to promote reforestation and conservation of its forest resources.
These countries have taken steps to develop sustainable forestry sectors and to conserve their forest resources for future generations.
Sustainable forestry & reforestation
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Carbon sequestration is the process by which carbon dioxide (CO2) is captured and stored in a manner that reduces its release into the atmosphere. Trees play an important role in carbon sequestration by absorbing CO2 from the atmosphere through photosynthesis and storing it in the form of wood and other organic matter. (Learn more about carbon sequestration by trees here).
When trees are harvested for use in construction, the carbon stored in the wood can be locked away for decades, even centuries, as long as the wood is not burned or otherwise decomposed. By using wood products in construction, we can help to reduce the amount of carbon dioxide in the atmosphere, as the carbon stored in the wood is not released back into the environment.
In this way, it is possible to use timber homes as a way to store carbon and help mitigate the effects of climate change. Using wood for building materials can help to reduce the amount of carbon dioxide in the atmosphere, which is a major contributor to climate change. Additionally, growing trees for building materials can also help to absorb additional carbon dioxide from the atmosphere, further reducing the overall carbon footprint of the building.
It is important to note that the carbon sequestration benefits of timber homes are only realised when the wood is sourced from sustainably managed forests. Unsustainably harvested wood can result in deforestation and other environmental impacts, which can counteract the carbon sequestration benefits of the wood.
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Carbon credits are a type of currency that represent a specific amount of carbon dioxide emissions. Carbon credits can be bought, sold, and traded on carbon markets as a way to reduce emissions and manage the cost of reducing emissions.
Carbon monetization refers to the process of generating revenue from activities that reduce carbon emissions or sequester carbon, such as planting trees or investing in renewable energy projects.
The idea behind carbon monetization is that businesses and individuals can offset their own carbon emissions by purchasing carbon credits from projects that reduce emissions or sequester carbon. By doing so, they are able to mitigate the impact of their own emissions on the environment and also support projects that help reduce emissions.
In the construction industry, carbon monetization can be achieved by building structures that are designed to be energy-efficient, reduce emissions, and store carbon. For example, by building with timber, which is a renewable and biodegradable material that sequesters carbon, developers can earn carbon credits that can be sold on carbon markets.
In summary, carbon credits and carbon monetization are important tools for reducing emissions and mitigating the impact of climate change. They allow businesses and individuals to support projects that help reduce emissions and sequester carbon, and to offset the impact of their own emissions on the environment.
Carbon storage & monetization
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The current and projected housing gap in the global south refers to the disparity between the demand for adequate, safe, and affordable housing and the available supply. The exact size of the housing gap in the global south is difficult to quantify, but it is widely acknowledged that the gap is significant and growing.
According to the United Nations (UN), the world's urban population is expected to grow by 2.5 billion people by 2050, with 90% of this growth expected to occur in the global south. This rapid urbanisation is putting significant pressure on housing systems in the global south, leading to a growing shortage of adequate, safe, and affordable housing.
In many cities in the global south, informal settlements and slums are prevalent, and many people are forced to live in overcrowded, inadequate, and unsafe housing conditions. The lack of access to basic services such as clean water, sanitation, and electricity is also a major concern in many informal settlements.
To address the current and projected housing gap in the global south, it is important to prioritise sustainable and affordable housing solutions that can meet the growing demand for housing in a sustainable and equitable way. This requires investment in the development of new housing solutions, the upgrading of existing informal settlements, and the provision of essential services to the urban poor.
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Affordable housing refers to housing that is available and accessible to individuals and families who have low to moderate incomes and are unable to access adequate housing in the private market. The definition of "affordable" can vary depending on the local market conditions and the income level of the target population.
In general, affordable housing is defined as housing that costs no more than 30% of a household's gross income. This means that housing is considered affordable if the monthly rent or mortgage payments, including utilities, are within the financial reach of the household.
Affordable housing is important because it helps to address the housing crisis and the lack of access to adequate housing for many individuals and families, especially those with low incomes. By providing affordable housing options, governments and organisations can help to reduce poverty, improve health and wellbeing, and support economic development.
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Sustainable affordable housing is important for several reasons:
Access to adequate housing: Sustainable affordable housing can help to address the housing crisis and ensure that everyone has access to adequate, safe, and affordable housing.
Environmental sustainability: By incorporating sustainable design principles and using environmentally friendly materials, sustainable affordable housing can help to reduce the environmental impact of housing and support a more sustainable future.
Cost savings: Sustainable affordable housing can help to reduce the long-term costs associated with housing by incorporating energy-efficient design, reducing energy and water consumption, and promoting healthy indoor air quality.
Health and well-being: Sustainable affordable housing can provide a healthy and comfortable living environment, promoting good health and well-being for residents.
Economic development: Providing sustainable affordable housing can help to stimulate local economies and create jobs, particularly in the construction and building industries.
Social equity: By ensuring access to adequate, safe, and affordable housing, sustainable affordable housing can help to reduce social and economic inequalities and promote social equity.
In conclusion, sustainable affordable housing is an important investment in the future of our communities, as it can help to address the housing crisis, reduce the environmental impact of housing, support the health and well-being of residents, and promote social equity. By prioritising sustainable affordable housing, we can create a better future for all.
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According to the United Nations (UN), it is estimated that more than 1 billion people worldwide lack access to adequate housing. This number has been growing in recent years due to rapid urbanisation, population growth, and the increasing number of people displaced by conflict, natural disasters, and other causes.
In many developing countries, the shortage of affordable and adequate housing has led to the growth of informal settlements and slums, where people are forced to live in overcrowded, inadequate, and often unsafe housing conditions. The lack of access to basic services such as clean water, sanitation, and electricity is also a major concern in many informal settlements.
The global housing crisis has far-reaching consequences, impacting not only the health and well-being of individuals, but also the economic, social, and environmental sustainability of communities and countries. To address the global housing crisis, it is important to prioritise investment in the development of sustainable and affordable housing solutions that can meet the growing demand for housing in a sustainable and equitable way.
Affordable sustainable housing markets
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Some of the oldest timber structures still standing today include:
Horyu-ji Temple, Japan: This temple, built in the 7th century, is considered the world's oldest wooden building.
Arugam Bay Surf Lodge, Sri Lanka: This ancient building, estimated to be over 1,500 years old, is considered one of the oldest surviving wooden structures in the world.
The Blokhus-Østerild, Denmark: This Viking hall, built in the 9th century, is one of the oldest known wooden structures in Europe.
The Bryggen Wharf, Norway: This historic harbour area is home to several wooden buildings that date back to the 14th century.
The Shishan Ting, China: This ancient pavilion, built in the 15th century, is one of the oldest wooden structures in China.
These historic structures are a testament to the durability and longevity of timber as a building material, and they continue to be admired and preserved to this day.
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Several countries have a long tradition of timber construction, including:
Japan: Japan has a long history of wooden architecture, dating back to the 7th century. Traditional Japanese homes and temples are made from timber and are known for their beauty and durability.
Norway: Norway has a long tradition of building with timber, dating back to the Viking era. Wooden homes and structures in Norway are designed to withstand the country's harsh climate and are known for their warmth and comfort.
Germany: Germany has a rich history of timber construction, with many traditional homes and structures still standing today. Timber is widely used in German construction for both residential and commercial buildings.
Sweden: Sweden has a long tradition of building with wood, and wooden homes and structures are common throughout the country. Swedish timber construction is known for its quality, sustainability, and beauty.
Canada: Canada is home to vast forests, and timber has been a primary building material for centuries. Canadian timber homes and structures are designed to withstand the country's harsh climate and are known for their durability and longevity.
These countries have a rich history of using timber in construction and continue to use it today as a sustainable, renewable, and beautiful building material.
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Many countries around the world have a long tradition of building with timber, including:
Canada: With its vast forests, Canada has a long history of building with wood and is home to some of the tallest timber structures in the world.
Sweden: In Sweden, wood is a popular building material due to its sustainability and the country's well-developed forestry sector.
Austria: Austria has a long tradition of building with wood, and is home to some of the oldest wooden structures in Europe.
Japan: Japan has a long history of building with wood, and traditional Japanese architecture often features wooden structures.
Germany: Germany has a well-established timber construction industry and is a leading producer of wooden structures.
Finland: Finland has a strong forestry sector and a long tradition of building with wood.
The United States: In the United States, wood is a popular building material and is used in a wide range of construction projects, from single-family homes to high-rise buildings.
These are just a few examples of countries with a long tradition of building with timber. There are many other countries around the world where wood is a popular building material, due to its sustainability, affordability, and versatility.
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The tallest timber building in the world as of 2021 is the Mjøstårnet tower in Brumunddal, Norway, which stands at a height of 85.4 metres (280 feet). The tower was completed in 2019 and features 18 stories of engineered timber construction.
Another notable tall timber building is the HoHo Vienna building in Austria, which stands at a height of 84 metres (276 feet) and features 24 stories of cross-laminated timber construction.
In recent years, there has been a growing trend towards using engineered timber in the construction of tall buildings, due to the sustainability and cost-effectiveness of the material. With advances in timber engineering and construction techniques, it is expected that even taller timber buildings will be built in the future.