Renewable Energy and Green Metallurgy Technology

The aim of this Special Issue is to immerse the reader in the latest green metallurgy technology. The production process in traditional metallurgical industry uses large amounts of fossil fuels, which consume energy and emit CO2 intensively, facing enormous challenges in energy and the environment....

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Publicado: MDPI - Multidisciplinary Digital Publishing Institute 2024
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Acceso en línea:ONIX_20240514_9783725806393_358
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collection Directory of Open Access Books
description The aim of this Special Issue is to immerse the reader in the latest green metallurgy technology. The production process in traditional metallurgical industry uses large amounts of fossil fuels, which consume energy and emit CO2 intensively, facing enormous challenges in energy and the environment. The industry is in urgent need of advanced techniques for replacing fossil fuels with renewable energy, and decreasing energy consumption and CO2 emission. Replacing fossil fuels with renewable energy, energy recovery, and advanced technology will lead to the development of the green metallurgical industry. In addition, the strengthening mechanisms and smelting processes of non-quenched and tempered steel for automobiles and high-nitrogen steel smelting technology will allow us to master the mechanism of green metallurgy production and decrease fossil fuel consumption and carbon dioxide emissions from the metallurgy process. The Special Issue mainly focuses on six selected topics, such as biomass energy and solar energy as replacements for fossil fuels, resource utilization of metallurgical slag, low-carbon smelting technology in steel, CO2 resource utilization, strengthening mechanisms and smelting processes of non-quenched and tempered steel for automobiles, high-nitrogen steel smelting technology, achieving green metallurgy production. The latest green metallurgy technology could provide the next direction for steel and iron production.
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publisher MDPI - Multidisciplinary Digital Publishing Institute
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spelling doab-20.500.12854ir-1377622024-05-14T14:23:22Z Renewable Energy and Green Metallurgy Technology Yao, Xin Xie, Huaqing mixed powder selective laser melting high-nitrogen steel mechanical properties converter slag dephosphorization carbothermal reduction CO2 emission ferrophosphorus titanium industry chain security system sustainability grey correlation analysis entropy weight-TOPSIS thermodynamic analysis heat recovery steam reforming bio-oil steel slag municipal sludge dry model effective diffusion coefficient activation energy metallurgical waste heat YOLOv5 metallurgical saw blade lightweight deep learning defect detecting green metallurgy chemical agglomeration fine particulate dust CO reduction magnetite microwave irradiation microstructure characterization kinetics converter steelmaking small-particle limestone decomposition kinetics carbon dioxide partial pressure low carbon high casting speed solidification heat transfer mathematical model mushy zone coefficient solidified shell thickness Fe-C-Si alloy solid decarburization molecular dynamics diffusion coefficient centrifugal fiber roller wheel heat transfer numerical simulation nonoriented silicon steel slag entrapment behavior slag drawing speed immersion depth nozzle angle n/a thema EDItEUR::M Medicine and Nursing::MK Medical specialties, branches of medicine::MKG Pharmacology::MKGW Psychopharmacology The aim of this Special Issue is to immerse the reader in the latest green metallurgy technology. The production process in traditional metallurgical industry uses large amounts of fossil fuels, which consume energy and emit CO2 intensively, facing enormous challenges in energy and the environment. The industry is in urgent need of advanced techniques for replacing fossil fuels with renewable energy, and decreasing energy consumption and CO2 emission. Replacing fossil fuels with renewable energy, energy recovery, and advanced technology will lead to the development of the green metallurgical industry. In addition, the strengthening mechanisms and smelting processes of non-quenched and tempered steel for automobiles and high-nitrogen steel smelting technology will allow us to master the mechanism of green metallurgy production and decrease fossil fuel consumption and carbon dioxide emissions from the metallurgy process. The Special Issue mainly focuses on six selected topics, such as biomass energy and solar energy as replacements for fossil fuels, resource utilization of metallurgical slag, low-carbon smelting technology in steel, CO2 resource utilization, strengthening mechanisms and smelting processes of non-quenched and tempered steel for automobiles, high-nitrogen steel smelting technology, achieving green metallurgy production. The latest green metallurgy technology could provide the next direction for steel and iron production. 2024-05-14T14:23:16Z 2024-05-14T14:23:16Z 2024 book ONIX_20240514_9783725806393_358 9783725806393 9783725806409 https://directory.doabooks.org/handle/20.500.12854/137762 eng application/octet-stream Attribution-NonCommercial-NoDerivatives 4.0 International https://mdpi.com/books/pdfview/book/8995 https://mdpi.com/books/pdfview/book/8995 MDPI - Multidisciplinary Digital Publishing Institute 10.3390/books978-3-7258-0640-9 10.3390/books978-3-7258-0640-9 46cabcaa-dd94-4bfe-87b4-55023c1b36d0 9783725806393 9783725806409 212 open access
spellingShingle mixed powder
selective laser melting
high-nitrogen steel
mechanical properties
converter slag
dephosphorization
carbothermal reduction
CO2 emission
ferrophosphorus
titanium industry chain
security system
sustainability
grey correlation analysis
entropy weight-TOPSIS
thermodynamic analysis
heat recovery
steam reforming
bio-oil
steel slag
municipal sludge
dry model
effective diffusion coefficient
activation energy
metallurgical waste heat
YOLOv5
metallurgical saw blade
lightweight
deep learning
defect detecting
green metallurgy
chemical agglomeration
fine particulate dust
CO reduction
magnetite
microwave irradiation
microstructure characterization
kinetics
converter steelmaking
small-particle limestone
decomposition kinetics
carbon dioxide partial pressure
low carbon
high casting speed
solidification heat transfer mathematical model
mushy zone coefficient
solidified shell
thickness
Fe-C-Si alloy
solid decarburization
molecular dynamics
diffusion coefficient
centrifugal fiber
roller wheel
heat transfer
numerical simulation
nonoriented silicon steel
slag entrapment behavior
slag drawing speed
immersion depth
nozzle angle
n/a
thema EDItEUR::M Medicine and Nursing::MK Medical specialties, branches of medicine::MKG Pharmacology::MKGW Psychopharmacology
Renewable Energy and Green Metallurgy Technology
title Renewable Energy and Green Metallurgy Technology
title_full Renewable Energy and Green Metallurgy Technology
title_fullStr Renewable Energy and Green Metallurgy Technology
title_full_unstemmed Renewable Energy and Green Metallurgy Technology
title_short Renewable Energy and Green Metallurgy Technology
title_sort renewable energy and green metallurgy technology
topic mixed powder
selective laser melting
high-nitrogen steel
mechanical properties
converter slag
dephosphorization
carbothermal reduction
CO2 emission
ferrophosphorus
titanium industry chain
security system
sustainability
grey correlation analysis
entropy weight-TOPSIS
thermodynamic analysis
heat recovery
steam reforming
bio-oil
steel slag
municipal sludge
dry model
effective diffusion coefficient
activation energy
metallurgical waste heat
YOLOv5
metallurgical saw blade
lightweight
deep learning
defect detecting
green metallurgy
chemical agglomeration
fine particulate dust
CO reduction
magnetite
microwave irradiation
microstructure characterization
kinetics
converter steelmaking
small-particle limestone
decomposition kinetics
carbon dioxide partial pressure
low carbon
high casting speed
solidification heat transfer mathematical model
mushy zone coefficient
solidified shell
thickness
Fe-C-Si alloy
solid decarburization
molecular dynamics
diffusion coefficient
centrifugal fiber
roller wheel
heat transfer
numerical simulation
nonoriented silicon steel
slag entrapment behavior
slag drawing speed
immersion depth
nozzle angle
n/a
thema EDItEUR::M Medicine and Nursing::MK Medical specialties, branches of medicine::MKG Pharmacology::MKGW Psychopharmacology
topic_facet mixed powder
selective laser melting
high-nitrogen steel
mechanical properties
converter slag
dephosphorization
carbothermal reduction
CO2 emission
ferrophosphorus
titanium industry chain
security system
sustainability
grey correlation analysis
entropy weight-TOPSIS
thermodynamic analysis
heat recovery
steam reforming
bio-oil
steel slag
municipal sludge
dry model
effective diffusion coefficient
activation energy
metallurgical waste heat
YOLOv5
metallurgical saw blade
lightweight
deep learning
defect detecting
green metallurgy
chemical agglomeration
fine particulate dust
CO reduction
magnetite
microwave irradiation
microstructure characterization
kinetics
converter steelmaking
small-particle limestone
decomposition kinetics
carbon dioxide partial pressure
low carbon
high casting speed
solidification heat transfer mathematical model
mushy zone coefficient
solidified shell
thickness
Fe-C-Si alloy
solid decarburization
molecular dynamics
diffusion coefficient
centrifugal fiber
roller wheel
heat transfer
numerical simulation
nonoriented silicon steel
slag entrapment behavior
slag drawing speed
immersion depth
nozzle angle
n/a
thema EDItEUR::M Medicine and Nursing::MK Medical specialties, branches of medicine::MKG Pharmacology::MKGW Psychopharmacology
url ONIX_20240514_9783725806393_358