Transform Waste Into Energy & Profit
Discover how waste valorisation turns everyday waste into valuable resources, creating new revenue streams, reducing disposal costs, and advancing your business's sustainability efforts.
Transforming waste into high-value products
Biogas/Syngas
A renewable gas produced from the breakdown of organic materials, used as a fuel for heating, electricity generation, or vehicle fuel.
Bio-oil
A synthetic oil produced through pyrolysis that can be refined into fuels or used as a feedstock for chemical production.
Biochar
A carbon-rich by-product of pyrolysis, used to enhance soil quality, retain moisture, and sequester carbon.
Carbon Black
A fine black powder from pyrolysis, used in manufacturing rubber products, inks, and coatings.
Biofertiliser
A nutrient-rich fertiliser derived from the digestate of anaerobic digestion, used to improve soil fertility and crop yields.
Leading technologies in waste valorisation
Pyrolysis and Anaerobic Digestion are two of the most commercially adopted and reliable waste valorisation processes, transforming waste into energy and high-value products that boost revenue and operational efficiency across industries like agriculture, food processing, and manufacturing.
Pyrolysis
Pyrolysis is a thermal process that breaks down organic materials at high temperatures in the absence of oxygen, converting waste into valuable products like bio-oil, biochar, and syngas. This method captures energy from waste and creates versatile by-products with multiple industrial uses.
Feedstocks
Plastic Waste
Low-grade plastics that are difficult to recycle.
Rubber
Waste rubber, including used tyres.
Biomass
Low-moisture organic materials such as wood chips and crop residues.
Organic Industrial Waste
Carbon-based residues from industrial processes.
Products
Bio-oil
A synthetic oil that can be refined into valuable chemicals and fuels.
Biochar
Enhances soil quality and captures carbon for sustainable agriculture.
Syngas
A flexible fuel source used in power generation and chemical production.
Carbon Black
An valuable industrial material for rubber, inks, and coatings.
Anaerobic Digestion
Anaerobic digestion is a biological process where microorganisms break down organic waste in the absence of oxygen, producing valuable by-products like biogas and biofertliser. This method turns waste into renewable energy and nutrient-rich fertliser, supporting sustainable waste management.
Feedstocks
Food Waste
Organic food scraps from households, restaurants, and food processing facilities.
Agricultural Residues
Crop residues, manure, and other organic farm waste.
Sewage Sludge
Organic material from wastewater treatment plants, ideal for biogas production.
Products
Biogas
A renewable energy source used for electricity, heating, or as vehicle fuel.
Biofertliser
A nutrient-rich organic fertliser that enhances soil health and supports sustainable agriculture.
Digestate
The solid by-product left after digestion, used in soil conditioning and as a compost additive.
The business case for waste valorisation
Generate New Revenue Streams
Waste valorisation transforms waste into marketable products, creating profitable avenues from materials that would otherwise be discarded.
Reduce Waste Management Costs
By converting waste into reusable resources, waste valorisation lowers disposal costs and optimises waste handling, saving your business money.
Circular Economy
Businesses can harness energy and reuse valuable by-products from waste, reducing reliance on external resources and cpntributing to a more sustainable, circular economy.
How it works
Initial Consultation
We begin by understanding your business's waste streams, energy needs, and sustainability goals to determine the best valorisation approach for you.
Site Assessment
Our team conducts an on-site assessment to analyse available waste feedstocks, assess energy infrastructure, and determine project feasibility.
Customised Feasibility Study
We prepare a detailed feasibility study, including financial modeling, expected ROI, and recommended technologies tailored to your industry.
Solution Design and Engineering
Based on the feasibility study, we design a waste valorisation system optimised for efficiency, energy output, and integration with your existing processes.
Proposal and Approval
We present a comprehensive project proposal covering system design, timelines, costs, and projected outcomes, and proceed upon your approval.
System Installation and Integration
Our engineering team installs the valorisation system, ensuring seamless integration with your operations while minimising disruptions.
Testing and Commissioning
After installation, we rigorously test and commission the system to ensure it operates efficiently and meets all regulatory standards.
Training and Handover
We provide training for your team on system operation, maintenance, and safety protocols, ensuring smooth, long-term operation.
Ongoing Support and Optimisation
Our team offers continuous support, monitoring, and optimisation services to ensure maximum efficiency and profitability from your valorisation system.
