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Meeting MS&T22: Materials Science & Technology
Symposium Steels for Sustainable Development
Presentation Title The Essence of Mo and Ni Alloying in Steels for Renewable Power Generation
Author(s) Hardy Mohrbacher
On-Site Speaker (Planned) Hardy Mohrbacher
Abstract Scope National governments and supernational organizations are aiming for a significantly increased share of renewable power generation over the next three decades. This not only represents a cornerstone in reducing CO2 emissions but is also gaining high importance in the light of recent geopolitical developments impacting fossil energy supplies. Hydropower and wind energy are two major technologies dominating the current share of renewable power supply. In both technologies carbon and alloy steels form the backbone of the power generation equipment. Molybdenum and nickel play important roles in these green technologies. The metallurgical effects of these alloying elements will be demonstrated, for both flat and long products. Furthermore, the specific consumption of Mo and Ni related to the effectively installed capacity of various renewable power generation technologies will be analyzed. The expected strong demand for these metals is put into perspective to supply scenarios by global mining companies.


Cyclic Deformation and Strain Localization of Ferrite-pearlite Low Alloy Steel under Low-cycle Fatigue
Development of Evaluation Method of Low Alloy Steel in Hydron Environment Using Concurrent Cathodic Hydrogen Charging
Development of Ultra-high Strength TWIP Steel with Increased Corrosion Resistance
Evaluation of Heavy Gauges 690 MPa-class Offshore Steel Racks Required in Modern Wind Turbine Installation Vessels
Exploring the Impact of N Solubility and Trace Elements on the Creep Properties of P92 Steel
F-3: Suitability of 17-4 PH Stainless Steels as Choice Material for Compression Pumps Used in CCS (Carbon Capture And Storage) Systems
Influence of C and N on Hydrogen Embrittlement in 17Cr-10Ni-6Mn Stable Austenitic Stainless Steel
Low-density, Medium-Mn Steels for Lightweighting: Influence of Al content on Microstructure and Tensile Properties
Maximizing Scrap Recycling by Designing Cu Tolerant Steel Compositions
Mechanical Property Alterations through Hydrogen Trapping by Nanocarbide Dispersions in Steels
Microstructural Engineering of High Mn Duplex Steel to Achieve Low-cost, High-performance Solutions for Hydrogen Storage and Delivery
Probing Hydrogen-assisted Phase Transformations in Austenitic Stainless Steels Using Synchrotron X-ray Diffraction
Steel Developments for the Global Energy Transition
The Essence of Mo and Ni Alloying in Steels for Renewable Power Generation
Through Thickness Microstructural Features for Optimum Ductility Performance In High Pressure Gaseous Hydrogen Pipelines

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