09 April 2020
Russia: Eurocement subsidiary Kavkazcement has reported the successful installation of a remote monitoring system at its 3.1Mt/yr integrated Kavkazcement plant. The system uses near field communication (NFC) tags and identification devices to feed real-time operational data from its four wet kilns to smartphones. Kavkazcement CEO Oleg Lopatin said, “Accurate and timely inspection of the equipment increases the efficiency and stability of the entire cement production line. The mobile monitoring system reduces the time and improves the quality of diagnostics.”
Krasnoyarsk Cement begins emissions monitoring 09 April 2020
Russia: Sibirskiy Cement subsidiary Krasnoyarsk Cement has equipped the exhaust stack of its 1.1Mt/yr Krasnoyarsk, Siberia plant with an emissions monitoring system supplied by Finland-based Gasmet. The system provides continuous NOx, CO2 and SO2 monitoring via a UK-based Oxitec 500E gas analyser, Germany-based Durag D-FL-220 flow rate meter and a Gasmet Simatic computer. Krasnoyarsk managing director Vladimir Afanasin said, “We approached the choice of equipment taking into account all the requirements of the Russian environmental legislation, which have recently been significantly tightened.”
Krasnoyarsky Cement will complete preliminary testing of the installation in late 2020.
Schwenk Zement acquires Celitement 09 April 2020
Germany: Hydraulic calcium hydrosilicate (hCHS)-based cement producer Celitement has gone from being a Schwenk-affiliated company to a full subsidiary of the 5.76Mt/yr integrated capacity cement producer. Celitement plans to upgrade its pilot plant at the Karlsruhe Institute of Technology (KIT), Baden-Württemberg, to increase production capacity. When this is completed, it will offer ‘single-digit tonne’ deliveries to ‘select investors’ and begin ‘large-scale practical testing.’ These will determine the feasibility of establishing an industrial Celitement plant.
Celitement was set up in 2009 to develop novel construction materials based on several patents for hCHS binding agents.
Treated slag makes the strongest concrete 09 April 2020
Australia: A paper published in the journal Resources, Conservation and Recycling has reported that concrete made with treated slag is 8% stronger than standard slag concrete and 17% stronger than concrete made with conventional aggregates. A Royal Melbourne Institute of Technology (RMIT) team produced treated slag concrete using slag that had absorbed phosphate, magnesium, iron, calcium, silica and aluminium during use in wastewater treatment. Researcher Biplob Pramanik said, “The things that we want to remove from water are actually beneficial to concrete.” Pramanik said that the findings have promising implications for the water and concrete sectors within the circular economy.