Waste management has long been a challenge, both economically and environmentally. However, with the advent of smart waste solutions, the industry is experiencing a transformative shift towards more efficient and sustainable practices. From advanced technologies to innovative waste collection methods, smart waste solutions are paving the way for a greener and more cost-effective future in construction.
Construction projects generate a significant amount of waste, ranging from building materials to packaging and debris. Traditional waste management methods often involve manual sorting, inefficient collection processes, and high disposal costs. With the increasing volume of construction waste globally, there is a pressing need for smarter and more sustainable waste management solutions.
According to data from June 2022, the average total cost of materials in a skip of eight cubic yards capacity was £1,900. If waste continues to fill the skip at this rate, then a substantial amount of purchased materials, totalling £2,788.23, will be thrown away. These costs highlight the financial implications of inefficient waste management practices in construction.
Waste removal costs constitute a significant portion of building demolition or remodelling expenses. The cost of waste disposal varies depending on factors such as the type and weight of waste material and the chosen disposal method. On average, waste disposal costs range from £64 to £94 per hour for manual clearance, or around £300 per 18-yard skip.
Skip hire is one common method of waste disposal, with prices varying based on the skip size. For instance, an eight-yard skip, which can hold approximately 80 bin bags, costs around £150 on average. However, hiring a skip that is slightly larger than required is more cost-efficient in the long run, as it minimises the need for additional collections.
Smart waste solutions leverage technology to optimise waste collection, sorting, and disposal processes. These solutions offer several benefits, including:
Real-time Monitoring: Connected IoT sensors placed within bins monitor fill levels, enabling efficient route planning for waste collection trucks.
Automated Sorting: Bins equipped with cameras and AI technology can identify waste types and recyclability, reducing human sorting errors and landfill-bound waste.
Data Analytics: Smart waste data provides valuable insights for businesses to analyse waste habits, implement targeted waste reduction strategies, and comply with regulations.
An exemplary implementation of smart waste solutions is showcased in the Sloop development located in Poole, UK. This landmark project features eight state-of-the-art underground bins, each capable of holding up to 5,000 litres of waste. Equipped with smart technology, these bins not only conceal waste below street level but also monitor fill levels in real-time.
The adoption of smart waste bins at the Sloop development has resulted in numerous benefits, including:
Reduced Environmental Impact: Smart bins minimise “bin blight” and eliminate issues such as odours, flies, and litter, contributing to a cleaner and more sustainable environment.
Improved Operational Efficiency: Real-time monitoring enables efficient waste collection, optimising truck routes and reducing unnecessary travel.
Enhanced Security: Residents are provided with access cards to operate the bins, preventing unauthorised dumping and promoting responsible waste disposal practices. In conclusion, smart waste solutions are revolutionising the construction industry by offering more efficient, cost-effective, and environmentally friendly waste management alternatives. With the increasing emphasis on sustainability and regulatory compliance, adopting smart waste technologies is essential for construction businesses to streamline operations, minimise costs, and contribute to a greener future. As the industry continues to evolve, embracing innovative waste management solutions will be key to achieving sustainable construction practices and mitigating the environmental impact of building activities.