The Debrief: Matthew Belcher, CEO and Founder of HEMSPAN

1. What are the potential impacts of widespread adoption of bio-materials for the construction industry and the environment as a whole? 

The construction industry is responsible for nearly 40% of global carbon emissions. The widespread adoption of bio-materials in construction could revolutionise the industry and significantly improve its environmental impact. It would drive innovation in the sector, transform supply chains, and shift skill requirements, while substantially reducing carbon emissions, sequestering carbon, supporting biodiversity, and reducing waste. 

As extreme climate events continue, our houses and buildings are struggling to adapt. This is a particular issue in the UK as many of our buildings are old, and damp and mould are frequently reported. By using bio-based materials in construction, it can enhance building energy efficiency and offer occupants a more sustainable, healthier living space. 

Furthermore, it could create new industries and job opportunities. The UK’s green economy is four times larger than the manufacturing sector, yet the government is behind on their pledge to deliver 2 million jobs in this area by 2030. Investment and innovation in the green sector is sorely needed, and construction can play a significant part of this. Increasing investment will not only boost productivity and jobs, particularly in rural areas where hemp can be cultivated. 

2. How can bio-materials like hemp interact with modern construction technologies? 

Hemp should not be viewed as a replacement for all modern materials, but as a complementary component that can enhance the overall sustainability and performance of building systems. 

Hemp has a wide range of properties and uses, providing the construction sector with a low cost, sustainable and high performing alternative. One hectare of hemp sequesters nine to 15 tonnes of CO2, similar to the amount sequestered by a 15-20 year old forest, but it only takes four months to grow.  

Hemp insulation and hemp fibreboard can be incorporated into automated building envelope systems, enhancing energy efficiency and providing natural moisture regulation. When combined with smart home technologies, hemp materials can improve indoor environmental quality. 

Additionally, hemp-based composites are being developed that could potentially replace carbon-intensive materials in 3D-printed construction projects, merging cutting-edge additive manufacturing with sustainable bio-based inputs. 

3. How does this relationship between technology and bio-materials benefit the end-users of these buildings? 

Using technology and bio-materials, like hemp, creates buildings that are not just structures, but intelligent, living systems that actively contribute to the health, comfort, and well-being of their occupants, while minimising environmental impact.  

Bio-materials can provide occupants and residents healthier, more energy-efficient living environments, improving comfort and helping to lower energy bills. These materials also improve indoor air quality by being non-toxic and regulating humidity levels. The integration of smart technologies with bio-materials can further optimise building performance, leading to more sustainable, cost-effective and enjoyable spaces for occupants. 

4. What are the primary challenges faced when integrating bio-materials with current construction technologies, and how can these challenges be overcome? 

Integrating hemp with current construction technologies presents several challenges. But it also provides opportunities for innovation.  

One of the primary challenges is standardisation and industry certification. Unlike traditional materials, hemp-based products often lack standardised specifications, making it difficult for architects and engineers to confidently integrate them into designs. Furthermore, many building codes have not caught up with the potential of hemp-based materials, creating regulatory hurdles. To overcome this, we’re actively working with industry bodies and regulators to develop comprehensive standards for hemp-based construction materials. We’re also investing in rigorous testing and certification processes to provide reliable performance data. 

Another issue is knowledge and education. Many construction professionals are unfamiliar with hemp-based materials and how to properly use them in conjunction with modern technologies. There is also a lot of stigma and lingering misconceptions about hemp, particularly in markets where it has been historically stigmatised. One way of addressing this is educational campaigns, extensive training programs and partnerships with universities to educate architects, engineers, and contractors – something which HEMSPAN has been doing. We also provide on-site consultations and support to ensure proper implementation.  

Of course, there are significant regulatory barriers, which cause challenges in a whole host of areas, such as supply chain management, cultivation and scalability. The hemp supply chain is still developing, which can lead to inconsistencies in material quality and availability. While hemp cultivation is increasing, scaling production to meet potential demand in the construction sector remains a challenge. The smaller production scale also means that initial costs for hemp-based materials can be higher than traditional alternatives. 

We want to not just overcome obstacles, but also turn them into opportunities for innovation. While challenges exist, the long-term benefits for sustainability, resilience, and human health are substantial. I see hemp and bio-based materials in construction as a crucial step towards a more sustainable and harmonious relationship between our built environment and nature. To address these challenges, ongoing research and development are crucial to refine bio-materials for seamless integration. Additionally, collaboration with regulatory bodies to establish clear guidelines and standards for bio-material use is essential. Educating industry stakeholders on the long-term benefits of bio-materials and providing practical demonstrations of their efficacy can help overcome scepticism and accelerate adoption. 

5. How does HEMSPAN ensure the long-term durability and performance of bio-material-based construction systems like BIOHAUS, especially in comparison to traditional building materials? 

We recently announced the exciting news that our innovative BIOHAUS system has received its BOPAS (the Buildoffsite Property Assurance Scheme) certification – a coveted construction quality and assurance accreditation – for buildings up to three storeys for residential and public use. The system also surpassed the minimum fire-testing requirements with an impressive two-hour rating and exceeded thermal testing standards.  

To give you more detail, our BIOHAUS system is a complete whole-house approach that integrates health and comfort with energy efficiency and environmental performance. By using hemp and other bio-based materials, the BIOHAUS system reduces carbon emissions during construction, enhances energy efficiency, and supports regenerative farming practices.  

As buildings face increasing challenges from climate change, our BIOHAUS system has demonstrated that it is durable, long-term and outperforms traditional materials in extreme weather conditions, providing better insulation during temperature spikes and better moisture regulation during high-humidity events. We’re not just matching the durability of traditional materials – we’re setting a new standard for long-term performance in the construction industry, all while maintaining our commitment to sustainability and environmental responsibility. 

6. What are some common misconceptions about the use of bio-materials in construction, and how does HEMSPAN address these misconceptions and convince stakeholders about the benefits and reliability of the product? 

There are several common misconceptions about using bio-materials in construction that we frequently encounter and work to address: 

One is performance – many assume that bio-materials are less durable than, and do not match the performance of traditional options. We address this by sharing extensive test results and case studies showing how our products meet or exceed industry standards for insulation, structural integrity, and overall performance. Another concern is fire safety. Some worry that plant-based materials are more flammable. However, our hemp-lime composites actually have superior fire resistance compared to many traditional building materials due to their density and mineral content. As mentioned earlier, our BIOHAUS system has surpassed the minimum of two-hour fire testing requirements, demonstrating its quality and safety.  

Ultimately, investors, partners and the construction industry as a whole want to see results. This is why we put a lot of work into highlighting environmental benefits, ensuring we have robust, scientifically proven data on the carbon sequestration, reduced emissions, and other ecological advantages of our technology.  

I believe that the widespread adoption of bio-materials like hemp in construction represents not just an evolution, but a revolution in how we build and interact with our environment. While challenges exist, the potential benefits for both the industry and our planet are immense. I, along with my incredible team at Hemspan, are committed to driving this change and working towards a future where sustainable, bio-based construction is the norm, not the exception.