Energy Efficiency and GHG Emissions for Alternative Iron- and Steelmaking Process Technologies
- Yakov Gordon (Hatch Ltd) | Michiel Freislich (Hatch) | Sunil Kumar (Hatch)
- Document ID
- Carbon Management Technology Conference
- Carbon Management Technology Conference, 7-9 February, Orlando, Florida, USA
- Publication Date
- Document Type
- Conference Paper
- 2012. Carbon Management Technology Conference
- 7.2.1 Risk, Uncertainty and Risk Assessment, 6.5.1 Air Emissions, 4.6 Natural Gas, 5.4.2 Gas Injection Methods, 6.5.7 Climate Change, 7.4.4 Energy Policy and Regulation, 7.4.3 Market analysis /supply and demand forecasting/pricing, 4.2.3 Materials and Corrosion
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In the changing global market scenario for raw materials for the steel industry, a number of novel iron- and steelmaking process technologies are being developed to provide the steel companies with economically-sustainable alternatives for ironand steel-making. In addition, the steel industry is also focusing on reduction of energy consumption as well as green-house gas (GHG) emissions to address the crucial subject of climate change. In this context, it is important to assess these critical issues for the alternate iron- and steelmaking technologies that have been developed. This paper presents a comparative evaluation of energy-efficiency and GHG emissions for some selected iron- and steelmaking technologies that are being considered for implementation. In this work, Hatch's G-CAP™ and En-MAP™ tools that were developed with the main objective of quantifying and qualifying the potential energy savings and CO2 abatement within the iron and steel industry, were employed in the evaluation conducted.
The iron and steel industry continues to transform itself and evolve in the ever-changing global market place - the raw material scenario is constantly changing with respect to quality and quantity (availability), there is stiff competition in both global and local markets, and there is increasing pressure to address global climate change issues, especially since the steel industry is highly energy- and carbon-intensive. There is growing importance of steel production in developing countries
such as China and India - this means that the steel industry in these countries will play an important role in defining and shaping the future of the industry.
Climate change is expected to present new risks to the steel industry with respect to ensuring a sustainable business.
Legislators are proposing to limit GHG emission by placing an implicit price on CO2 emission - market-based "cap and trade??, carbon tax etc. In this scenario, it is important for the steel companies to reduce exposure to climate-related risks and at the same time, find business opportunities within these risks. Thus, there is a need to strategically manage the climate change risks; the key steps to strategically manage climate change risks are presented in Table 1.
Some of the steps that are being taken by the steel industry to address climate change risks are presented as follows:
• Expand usage of current Energy- and CO2-efficient technologies in steel plants to minimize GHG emissions and energy consumption
• Develop novel iron- and steelmaking technological solutions to significantly reduce specific energy consumption and specific GHG emission
• Optimize and maximize recycling of steel scrap
• Maximize value of steel industry by-products (wastes); recycling of steel plant wastes
• Facilitate use of new generation of steels to improve energy efficiency of steel-using products in partnership with customers.
|File Size||180 KB||Number of Pages||7|