The cement sector in West Africa could make exciting use of clay calcination technology to reduce carbon emissions and energy consumption in cement production, in line with the industry’s sustainability goals. As a leader in clay calcination, FLSmidth offers its technology to replace a portion of clinker with environmentally-friendly calcined clay, thereby cutting carbon dioxide emissions in comparison with conventional cement production.
According to Deon de Kock, FLSmidth President for Sub-Saharan Africa, Middle East and South Asia, clay calcination is one of three main areas of technology advancement in cement that the company is currently pursuing. In terms of the company’s MissionZero pledge, it is committed to enable FLSmidth customers to run cement production at zero emissions by the year 2030.
“In addition to clay calcination, we are focused on enabling the replacement of fossil fuels with alternative fuel sources, and on enhancing carbon capture in cement plants,” says Deon. “Our current involvement in Europe’s first full-scale clay calcination installation has raised interest globally, and we look forward to applying this technology in our Africa, Middle East and South Asian region.”
The cement sector has had a difficult few years, says Deon, having to deal with a challenging economic climate while under pressure to meet ever-more stringent environmental regulations and expectations. Sridhar Shanmugha Sundaram, FLSmidth Vice President for Cement in Sub-Saharan Africa, Middle East and South Africa highlights that FLSmidth’s new flash calciner system can produce a highly reactive clay that increases the clinker substitution by up to 40% in the final product.
“Addressing the bottom-line issue, this solution also brings energy savings as calcined clay activates at a much lower temperature than clinker – with required temperatures of 750 to 850˚C instead of 1 400 to 1 500˚C,” Sridhar adds. “This means lower costs to generate the necessary power.”
He notes the process can deliver significant fuel and power savings of 30% and 40% respectively, when comparing the operating cost of making a tonne of clay versus a tonne of clinker. While a traditional ‘ordinary Portland cement’ (OPC) contains 95% clinker and 5% gypsum, ‘green’ cement can contain as little as 50% clinker – with 30% activated clay, 15% limestone and 5% gypsum. This has a dramatic impact on the plant’s carbon footprint, reducing CO₂ emissions per tonne of cement by 40%.
Adding to FLSmidth’s strong presence in South Africa, is its Ghana office which boasts a 13-strong team of local people who are committed to developing local expertise and capacity in the West African region. According to Joseph Appiah-Kubi, General Manager of FLSmidth in Ghana, the company’s corporate social responsibility programme includes a graduate scheme to empower Ghanaians, transfer skills and provide opportunities in the economy to young graduates.
“This year we have had our first cohort of graduates working with us as part of the government’s compulsory National Service Scheme . We will also soon be receiving our first group of graduate trainees – those who have finished one year at service engineering school and are coming to us to learn. This gives young people vital experience in the workplace to improve their employability in the market,” Joseph concludes.