LafargeHolcim’s global waste management business, Geocycle, treated 10 million tonnes of waste in 2017, an increase of 13 percent versus 2016. 10 million tonnes is almost twice the total yearly household waste generation of Switzerland or the equivalent of 2 million garbage collection trucks.
Using kilns involved in cement production, LafargeHolcim co-processed all types of waste including: solid shredded waste from industrial and municipal origin, spent solvents, used tires, waste oils, contaminated soils, industrial and sewage sludges, as well as demolition waste.
Jan Jenisch, Group Chief Executive Officer commented: “LafargeHolcim is a global leader in the building materials market. Sustainable building and living are key to the future and we are committed to playing an important role as the demand for sustainable construction solutions and sustainable buildings and infrastructure continues to grow. At LafargeHolcim we offer solutions which facilitate the simultaneous recycling and recovery of waste. We have ambitious plans to continue investing in all parts of the world in order to bring the most advanced technology and solutions to our partners and play a role in solving the global waste problem.”
In Europe and North America, the main growth area for LafargeHolcim’s global waste management business was industrial waste, while in Africa more biomass waste such as rice and coffee husks were treated. The strongest growth rates for Municipal Solid Waste (MSW) were seen in Asia and Latin America, where waste infrastructures are still developing and municipalities continue to seek more sustainable solutions for the growing volume of household waste.
In 2017 LafargeHolcim built three new major waste treatment facilities: Kujawy (Poland), El Sokhna (Egypt) and Oum Azza (Morocco). Oum Azza is the first waste pre-processing platform for MSW in the Middle East and Africa and was developed by Geocycle using its leading edge proprietory technology. All of these plants will help to divert solid waste from landfill and uncontrolled dumping, reducing pollution of land and oceans.
Co-processing leaves no residues as the ashes get incorporated into clinker, the basis of cement, and the waste products are used as a direct substitute for fossil fuels and other raw materials. Thus, co-processing reduces CO2 emissions and energy costs; the higher temperature and longer residence time means cleaner combustion; and the avoidance of landfill and uncontrolled dumping of waste reduces pollution and saves land. Overall, co-processing plays a critical role in solving the problem of waste disposal for society while making an important contribution towards a circular economy.