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Advances in Ironmaking and Steelmaking Processes

In recent years, ironmaking and steelmaking have witnessed the incorporation of various new processes and technologies that can be operated and organized in different combinations depending on the properties of raw materials and the required quality of the final products. Indications from the steel...

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Weitere Verfasser: Cavaliere, Pasquale (Herausgegeben von)
Format: Elektronisch Buchkapitel
Sprache:Englisch
Veröffentlicht: Basel MDPI - Multidisciplinary Digital Publishing Institute 2023
Schlagworte:
Technology: general issues
History of engineering & technology
Materials science
electric arc furnace steelmaking
bottom-stirring
different smelting time
molten steel flow
numerical simulation
blast furnaces
silicon content
maximal overlap discrete wavelet packet
artificial neural network
forecasting
time series analysis
double slag converter steelmaking process
hot metal dephosphorization
dephosphorization endpoint temperature
dephosphorization ratio
phosphorus distribution ratio
optimum temperature of intermediate deslagging
coal injection
blast furnace
drop tube furnace
statistical correlation
production
ironmaking
bio-coals
carbonization
gasification
reactivity
dilatation
fluidity
water electrolysis
steelmaking
purification
desalinization
direct reduction
energy
renewables
high temperature
low temperature
mold width
flow field in mold
high-temperature measurement
surface velocity
direct reduced pellets
open slag bath furnace
slag
blast furnace pellets
hydrogen
decarbonization
steelworks gas valorization
methane synthesis
methanol synthesis
predictive control
carbon capture and usage
hydrogen enrichment
hydrogen metallurgy
hydrogen reduction of iron oxides
alternative ironmaking
smelting reduction
thermodynamic
n/a
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Beschreibung
Zusammenfassung:In recent years, ironmaking and steelmaking have witnessed the incorporation of various new processes and technologies that can be operated and organized in different combinations depending on the properties of raw materials and the required quality of the final products. Indications from the steel industry and local and global government institutions suggest that the breakthrough technologies for decarbonization will be based on new fuels and energy vectors. For CO2-lean process routes, three major solutions have been identified: decarbonizing, whereby coal would be replaced by hydrogen or electricity in the hydrogen reduction or electrolysis of iron ore processes; the introduction of CCS technology; and the use of sustainable biomass. Today, hydrogen-based steelmaking is a potential low-carbon and economically attractive route, especially in countries where natural gas is cheap. By considering systems for increasing energy efficiency and reducing the environmental impact of steel production, CO2 emissions may be greatly reduced by hydrogen-based steel production if hydrogen is generated by means of carbon-free and renewable sources. Currently, the development of the hydrogen economy has received a great deal of attention in that H2 is considered a promising alternative to replace fossil fuels. Based on hydrogen, the "hydrogen economy" is a promising clean energy carrier for decarbonized energy systems if the hydrogen used is produced from renewable energy sources or coupled with carbon capture and storage (CCS) or nuclear energy.
Beschreibung:1 electronic resource (220 p.)
ISBN:books978-3-0365-7549-0
9783036575483
9783036575490
Zugangseinschränkungen:Open Access

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