�ݺ�ߣshows by User: samzu7

�ݺ�ߣshows by User: samzu7 / http://www.slideshare.net/images/logo.gif �ݺ�ߣshows by User: samzu7 / Thu, 05 Sep 2019 08:20:35 GMT �ݺ�ߣShare feed for �ݺ�ߣshows by User: samzu7 Comparative life cycle assessment of primary steel with hydrogen direct reduced iron and optimized blast furnace processes /slideshow/comparative-life-cycle-assessment-of-primary-steel-with-hydrogen-direct-reduced-iron-and-optimized-blast-furnace-processes/169238724 lcasteelmskoromalcm2019-190905082035
Aim: Compare the life cycle impacts of steel production using two alternatives processes for iron production – now and future (until 2050) Objectives: 1. Identify potentials for reducing future CO2 emissions in steelmaking 2. Identify main drivers for reaching those CO2 reduction potentials ]]>
Aim: Compare the life cycle impacts of steel production using two alternatives processes for iron production – now and future (until 2050) Objectives: 1. Identify potentials for reducing future CO2 emissions in steelmaking 2. Identify main drivers for reaching those CO2 reduction potentials ]]> Thu, 05 Sep 2019 08:20:35 GMT /slideshow/comparative-life-cycle-assessment-of-primary-steel-with-hydrogen-direct-reduced-iron-and-optimized-blast-furnace-processes/169238724 samzu7@slideshare.net(samzu7) Comparative life cycle assessment of primary steel with hydrogen direct reduced iron and optimized blast furnace processes samzu7 Aim: Compare the life cycle impacts of steel production using two alternatives processes for iron production – now and future (until 2050) Objectives: 1. Identify potentials for reducing future CO2 emissions in steelmaking 2. Identify main drivers for reaching those CO2 reduction potentials <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/lcasteelmskoromalcm2019-190905082035-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> Aim: Compare the life cycle impacts of steel production using two alternatives processes for iron production – now and future (until 2050) Objectives: 1. Identify potentials for reducing future CO2 emissions in steelmaking 2. Identify main drivers for reaching those CO2 reduction potentials

Comparative life cycle assessment of primary steel with hydrogen direct reduced iron and optimized blast furnace processes from Michael Samsu Koroma

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