Low Carbon on Cement Possible with CCS
EDMONTON, Alberta, Jan. 21, 2021 (GLOBE NEWSWIRE) A low carbon future for cement is advancing through a unique feasibility study to see carbon capture and storage (CCS) on Lehigh Cement’s plant in Edmonton, Alberta. Recognizing the substantial role that large-scale CCS has in reducing greenhouse (GHG) emissions, Lehigh Cement, the International CCS Knowledge Centre (Knowledge Centre), and Mitsubishi Heavy Industries (MHI) Group are moving forward with the engineering design for this feasibility study of the cement plant’s carbon capture system.
A first for the North American cement industry, the Lehigh CCS Feasibility Study looks at the viability of capturing 90-95 per cent of the carbon dioxide (CO
21 ene 2021
Low Carbon on Cement Possible with CCS
EDMONTON, Alberta, Jan. 21, 2021 (GLOBE NEWSWIRE) A low carbon future for cement is advancing through a unique feasibility study to see carbon capture and storage (CCS) on Lehigh Cement’s plant in Edmonton, Alberta. Recognizing the substantial role that large-scale CCS has in reducing greenhouse (GHG) emissions, Lehigh Cement, the International CCS Knowledge Centre (Knowledge Centre), and Mitsubishi Heavy Industries (MHI) Group are moving forward with the engineering design for this feasibility study of the cement plant’s carbon capture system.
A first for the North American cement industry, the Lehigh CCS Feasibility Study looks at the viability of capturing 90-95 per cent of the carbon dioxide (CO
Low Carbon on Cement Possible with CCS International CCS Knowledge Centre Regina, CANADA
EDMONTON, Alberta, Jan. 21, 2021 (GLOBE NEWSWIRE) A low carbon future for cement is advancing through a unique feasibility study to see carbon capture and storage (CCS) on Lehigh Cement’s plant in Edmonton, Alberta. Recognizing the substantial role that large-scale CCS has in reducing greenhouse (GHG) emissions, Lehigh Cement, the International CCS Knowledge Centre (Knowledge Centre), and Mitsubishi Heavy Industries (MHI) Group are moving forward with the engineering design for this feasibility study of the cement plant’s carbon capture system.
A first for the North American cement industry, the Lehigh CCS Feasibility Study looks at the viability of capturing 90-95 per cent of the carbon dioxide (CO
Equinor Energy and Mitsubishi Heavy Industries sign MoU for low carbon technology collaboration
édité le 18/12/2020 - Plus de news de Mitsubishi Heavy Industries - Voir la fiche entreprise de Mitsubishi Heavy Industries
Equinor Energy AS (Equinor) and Mitsubishi Heavy Industries, Ltd. (MHI) are pleased to announce the signing of a Memorandum of Understanding (MoU) for a low carbon technology collaboration. The non-exclusive cooperation agreement will see both companies develop and use technology to reduce the carbon footprint of oil & gas operations. In particular, the companies will look at further developing the hydrogen and carbon capture, utilization and storage (CCS/CCUS) value chains.
Hydrogen Hype in the Air
Special To The Auto Channel
“Unlike fossil fuels, which emit planet-warming carbon dioxide when they’re burned, hydrogen mostly produces water.”
Answer: false.
That statement appeared in a
Bloomberg Green article[1] a week or so ago. It reported on future European plans to use hydrogen (H2) as a fuel “in modified gas turbines” to power airplanes. Similar reports have appeared in other reputable energy articles about how hydrogen is the optimal climate solution because its use will not create any air emissions.[2],[3],[4]
What is true is that renewable power like solar or wind can split water into H2 to produce what the reporters claimed – “emissions free” energy. But that requires a complicated and expensive electrolysis process to make H2. That renewably generated “green hydrogen” would then be run through a fuel cell to make electricity. Fuel cells do not produce carbon dioxide (CO2) or other harmful emissions. There are many smar