The industrial development program of any country, by and large, is based on its natural resources.
Currently the majority of the world’s steel is produced through either one of the two main routes: i) the integrated Blast Furnace – Basic Oxygen Furnace (BF – BOF) route or ii) the Direct Reduced Iron - Electric Arc Furnace (DRI - EAF) route.
Depleting resources of coking coal, the world over, is posing a threat to the conventional (Blast Furnace [Bf]–Basic Oxygen Furnace [BOF]) route of iron and steelmaking.
During the last four decades, a new route of ironmaking has rapidly developed for Direct Reduction (DR) of iron ore to metallic iron by using noncoking coal/natural gas.
This product is known as Direct Reduced Iron (DRI) or Sponge Iron.
Processes that produce iron by reduction of iron ore (in solid state) below the melting point are generally classified as DR processes.
Based on the types of reductant used, DR processes can be broadly classified into two groups: (1) coal-based DR process and (2) gas-based DR process.
Details of DR processes, reoxidation, storage, transportation, and application of DRI are discussed in this presentation.
This presentation reviews the different DR processes used to produce Direct Reduced Iron (DRI), providing an analysis on the quality requirements of iron-bearing ores for use in these processes. The presentation also discusses the environmental sustainability of such processes. DR processes reduce iron ore in its solid state by the use of either natural gas or coal as reducing agents, and they have a comparative advantage of low capital costs, low emissions and production flexibility over the BF process.
The industrial development program of any country, by and large, is based on its natural resources.
Currently the majority of the world’s steel is produced through either one of the two main routes: i) the integrated Blast Furnace – Basic Oxygen Furnace (BF – BOF) route or ii) the Direct Reduced Iron - Electric Arc Furnace (DRI - EAF) route.
Depleting resources of coking coal, the world over, is posing a threat to the conventional (Blast Furnace [Bf]–Basic Oxygen Furnace [BOF]) route of iron and steelmaking.
During the last four decades, a new route of ironmaking has rapidly developed for Direct Reduction (DR) of iron ore to metallic iron by using noncoking coal/natural gas.
This product is known as Direct Reduced Iron (DRI) or Sponge Iron.
Processes that produce iron by reduction of iron ore (in solid state) below the melting point are generally classified as DR processes.
Based on the types of reductant used, DR processes can be broadly classified into two groups: (1) coal-based DR process and (2) gas-based DR process.
Details of DR processes, reoxidation, storage, transportation, and application of DRI are discussed in this presentation.
This presentation reviews the different DR processes used to produce Direct Reduced Iron (DRI), providing an analysis on the quality requirements of iron-bearing ores for use in these processes. The presentation also discusses the environmental sustainability of such processes. DR processes reduce iron ore in its solid state by the use of either natural gas or coal as reducing agents, and they have a comparative advantage of low capital costs, low emissions and production flexibility over the BF process.
An alloy is a mixture or solid solution composed of metals. Similarly, Ferroalloys are the mixture of Iron with high proportion of other elements like manganese, aluminium or silicon. Alloying improves the physical properties like density, reactivity, Young’s modulus, electrical and thermal conductivity etc.
The main demand of ferroalloys, nowadays is continuously increasing as the major use of such products are in the field of civil construction; decorative items; automobile; steel industry; electronic appliances.
Tags
Book on Ferroalloys, Business consultancy, Business consultant, Business Plan for Ferroalloys manufacturing plant, Ferro Alloy Industries Consultant, Ferro alloy industry in India, Ferro Alloy Projects, Ferro alloys industry, Ferro alloys industry about Ferro alloys, Ferro alloys manufacturers, Ferro alloys manufacturing Process, Ferro alloys plant, Ferro Alloys Process, Ferro alloys Production Industry in India, Ferro alloys Production processes, Ferro alloys production technology, Ferro alloys uses, Ferro Alloys, Ferro Manganese, Ferro Molybdenum, Ferro Niobium, Ferro Boron, Ferro Titanium, Ferro Tungsten, Ferro Silicon, Ferro Nickel, Ferro Chrome, Ferroalloy production, Ferroalloys & Alloying Additives, Ferroalloys Based Projects, Ferroalloys Business Manufacturing, Ferroalloys manufacturing, Ferroalloys manufacturing Business, Ferroalloys production line, Ferroalloys Theory and Technology, Ferrous metals and ferroalloys processing, Great Opportunity for Startup, High Carbon Ferro Alloys, How to Start a Ferroalloys Production Business, How to start a successful Ferroalloys manufacturing business, How to Start Ferro alloys Production Industry in India, Ideas in Ferroalloys processing industry, Indian Ferro alloy industry, Indian Ferro alloy industry - present status and future outlook, Indian Ferro alloys industry: a review, Indian Ferro alloys producers, India's Ferro Alloys Industries, Industrial Project Report, Integrated Ferro Alloys, Manufacture in India of Ferroalloys used in alloy steel, Most Profitable Ferro alloys manufacturing Business Ideas, Niir, NPCS, On the role of ferroalloys in steelmaking, Pollution Control in Ferroalloy Production, Process technology books, Production of Ferro Boron, Production of Ferro Molybdenum, Production of Ferro Nickel, Production of Ferro Niobium, Production of Ferro Titanium, Production of Ferro Tungsten, Production of Ferroalloys, Production of Manganese Ferroalloys, Production Process of Ferro Chrome, Production Process of Ferro Silicon, Production Techniques of Ferroalloys, Profitable Ferroalloys manufacturing Industry, Project consultancy, Project consultant, Proposed Ferro Alloys & Integrated Steel Plant
Minerals and Mineral Processing, Extractive Metallurgy, Ore Dressing, Mineral...Ajjay Kumar Gupta
Minerals and Mineral Processing, Extractive Metallurgy, Ore Dressing, Minerals Engineering (Mining, Non – Ferrous Metals, Iron Ore Slimes, Limes, Limestone, Asbestos, Coal Beneficiation, Coal and Ore Fines, Ordinary Superphosphate, Ammonium Salts, Fertilizers)
Mineral is defined as a naturally occurring solid chemical substance formed through biogeochemical processes, having characteristic chemical composition, highly ordered atomic structure, and specific physical properties. By comparison, a rock is an aggregate of minerals and/or mineraloids and does not have a specific chemical composition.
See more
http://goo.gl/grSq9U
http://goo.gl/AIjkcu
http://goo.gl/H7QGBA
http://www.entrepreneurindia.co/
Tags
Ammonium Salts, Business guidance for Mineral Production, Business guidance to clients, Business of Mining, Business Plan for a Startup Business, Business Plan small scale mining project, Business start-up, Chemistry and physics of Asbestos, Chemistry of nitrogen and its inorganic compounds, Coal and Ore Fines, Coal Beneficiation, Extractive Metallurgy, Fertilizers, Great Opportunity for Startup, Growing a mineral processing business, How to start a Mineral manufacturing business, How to Start a Mineral processing industry?, How to Start a Mineral Production Business, How to start a mining business, How to start a successful Mineral processing business, How to start mineral grinding industry in India, How to Start Mineral Processing Industry in India, Introduction to Mineral Processing, Limes manufacturing, Limestone exploration and extraction, Limestone Processing, Manufacture of Ammonium Bicarbonate, Manufacture of ordinary superphosphate, Metals and Minerals Production in India, Metals, Minerals & Mining Industry, Mineral Based Small Scale Industries Projects, Mineral industry, Mineral mining business plan, Mineral processing, Mineral Processing & mining Based Profitable Projects, Mineral processing book, Mineral processing Business, Mineral Processing Industry in India, Mineral processing metallurgy, Mineral processing plants, Mineral Processing Projects, Mineral processing Small Business, Mineral processing technology, Mineral Production, Mineral production for mining sector, Minerals and Mineral Processing, Minerals Engineering, Mining & mineral processing industry, Mining and Mineral Processing, Mining processing, Mining Sector Investment and Business, Mining, Mineral Processing & Metals Industry, Modern small and cottage scale industries, Most Profitable Mineral Processing Business Ideas, New small scale ideas in Mineral processing industry, Non – Ferrous Metals Production, Ordinary Superphosphate, Ore Dressing, Processing of Iron Ore Slimes, Profitable small and cottage scale industries, Profitable Small Scale Mineral processing, Setting up and opening your Mineral processing Business, Setting up of Mineral Processing Units, Small Business ideas in the Mining Industry
This slide was prepared by me for I was given project on the course applied electro-chemistry. Am student at Addis Ababa university institute of technology , addis ababa Ethiopia
APPLICATION OF ALUMINIUM HYBRID COMPOSITES IN AUTOMOTIVE INDUSTRYBlaza Stojanovic
Strict requirements that are put on mechanical constructions from the aspect of increase of exploitation periods and reduction of their weights, therefore of their prices as well, implicate developments and applications of new composite materials with matrices of lightweight metals. Composite materials with metal matrices are used for engine cylinders, pistons, disc and drum brakes, Cardan shafts and for other elements in automotive and aviation industry. The most important type of metallic materials is composite materials with matrices of aluminium alloys due to a set of their beneficial properties. Improvement of mechanical, especially tribological properties of hybrid composites were provided by the use of certain reinforce materials such as SiC, Al2O3 and graphite in defined weight or volumetric share. New developed hybrid composites with aluminium matrices have significantly higher resistance to wear, higher specific stiffness and higher resistance to fatigue. By the increase of quantities of produced elements made of hybrid composites, decrease of their prices is induced that even further enlarge their applications. The applications of aluminium hybrid composites are considered from the aspect and with the focus on automotive industry.
This is a presentation from JSW Steel, one of the finalists at the 5th CII-GBC National
Award for Excellence in Water Management in 2008
The awards are in 2 categories, Within the Fence for work done on minimizing the organisations water footprint, and Beyond the Fence for work done in the community around the industry.
This presentation was in the "Within the Fence" category.
We thank CII and the respective companies for giving us permission to upload these presentations on the India Water Portal website for dissemination to a wider audience.
An alloy is a mixture or solid solution composed of metals. Similarly, Ferroalloys are the mixture of Iron with high proportion of other elements like manganese, aluminium or silicon. Alloying improves the physical properties like density, reactivity, Young’s modulus, electrical and thermal conductivity etc.
The main demand of ferroalloys, nowadays is continuously increasing as the major use of such products are in the field of civil construction; decorative items; automobile; steel industry; electronic appliances.
Tags
Book on Ferroalloys, Business consultancy, Business consultant, Business Plan for Ferroalloys manufacturing plant, Ferro Alloy Industries Consultant, Ferro alloy industry in India, Ferro Alloy Projects, Ferro alloys industry, Ferro alloys industry about Ferro alloys, Ferro alloys manufacturers, Ferro alloys manufacturing Process, Ferro alloys plant, Ferro Alloys Process, Ferro alloys Production Industry in India, Ferro alloys Production processes, Ferro alloys production technology, Ferro alloys uses, Ferro Alloys, Ferro Manganese, Ferro Molybdenum, Ferro Niobium, Ferro Boron, Ferro Titanium, Ferro Tungsten, Ferro Silicon, Ferro Nickel, Ferro Chrome, Ferroalloy production, Ferroalloys & Alloying Additives, Ferroalloys Based Projects, Ferroalloys Business Manufacturing, Ferroalloys manufacturing, Ferroalloys manufacturing Business, Ferroalloys production line, Ferroalloys Theory and Technology, Ferrous metals and ferroalloys processing, Great Opportunity for Startup, High Carbon Ferro Alloys, How to Start a Ferroalloys Production Business, How to start a successful Ferroalloys manufacturing business, How to Start Ferro alloys Production Industry in India, Ideas in Ferroalloys processing industry, Indian Ferro alloy industry, Indian Ferro alloy industry - present status and future outlook, Indian Ferro alloys industry: a review, Indian Ferro alloys producers, India's Ferro Alloys Industries, Industrial Project Report, Integrated Ferro Alloys, Manufacture in India of Ferroalloys used in alloy steel, Most Profitable Ferro alloys manufacturing Business Ideas, Niir, NPCS, On the role of ferroalloys in steelmaking, Pollution Control in Ferroalloy Production, Process technology books, Production of Ferro Boron, Production of Ferro Molybdenum, Production of Ferro Nickel, Production of Ferro Niobium, Production of Ferro Titanium, Production of Ferro Tungsten, Production of Ferroalloys, Production of Manganese Ferroalloys, Production Process of Ferro Chrome, Production Process of Ferro Silicon, Production Techniques of Ferroalloys, Profitable Ferroalloys manufacturing Industry, Project consultancy, Project consultant, Proposed Ferro Alloys & Integrated Steel Plant
Minerals and Mineral Processing, Extractive Metallurgy, Ore Dressing, Mineral...Ajjay Kumar Gupta
Minerals and Mineral Processing, Extractive Metallurgy, Ore Dressing, Minerals Engineering (Mining, Non – Ferrous Metals, Iron Ore Slimes, Limes, Limestone, Asbestos, Coal Beneficiation, Coal and Ore Fines, Ordinary Superphosphate, Ammonium Salts, Fertilizers)
Mineral is defined as a naturally occurring solid chemical substance formed through biogeochemical processes, having characteristic chemical composition, highly ordered atomic structure, and specific physical properties. By comparison, a rock is an aggregate of minerals and/or mineraloids and does not have a specific chemical composition.
See more
http://goo.gl/grSq9U
http://goo.gl/AIjkcu
http://goo.gl/H7QGBA
http://www.entrepreneurindia.co/
Tags
Ammonium Salts, Business guidance for Mineral Production, Business guidance to clients, Business of Mining, Business Plan for a Startup Business, Business Plan small scale mining project, Business start-up, Chemistry and physics of Asbestos, Chemistry of nitrogen and its inorganic compounds, Coal and Ore Fines, Coal Beneficiation, Extractive Metallurgy, Fertilizers, Great Opportunity for Startup, Growing a mineral processing business, How to start a Mineral manufacturing business, How to Start a Mineral processing industry?, How to Start a Mineral Production Business, How to start a mining business, How to start a successful Mineral processing business, How to start mineral grinding industry in India, How to Start Mineral Processing Industry in India, Introduction to Mineral Processing, Limes manufacturing, Limestone exploration and extraction, Limestone Processing, Manufacture of Ammonium Bicarbonate, Manufacture of ordinary superphosphate, Metals and Minerals Production in India, Metals, Minerals & Mining Industry, Mineral Based Small Scale Industries Projects, Mineral industry, Mineral mining business plan, Mineral processing, Mineral Processing & mining Based Profitable Projects, Mineral processing book, Mineral processing Business, Mineral Processing Industry in India, Mineral processing metallurgy, Mineral processing plants, Mineral Processing Projects, Mineral processing Small Business, Mineral processing technology, Mineral Production, Mineral production for mining sector, Minerals and Mineral Processing, Minerals Engineering, Mining & mineral processing industry, Mining and Mineral Processing, Mining processing, Mining Sector Investment and Business, Mining, Mineral Processing & Metals Industry, Modern small and cottage scale industries, Most Profitable Mineral Processing Business Ideas, New small scale ideas in Mineral processing industry, Non – Ferrous Metals Production, Ordinary Superphosphate, Ore Dressing, Processing of Iron Ore Slimes, Profitable small and cottage scale industries, Profitable Small Scale Mineral processing, Setting up and opening your Mineral processing Business, Setting up of Mineral Processing Units, Small Business ideas in the Mining Industry
This slide was prepared by me for I was given project on the course applied electro-chemistry. Am student at Addis Ababa university institute of technology , addis ababa Ethiopia
APPLICATION OF ALUMINIUM HYBRID COMPOSITES IN AUTOMOTIVE INDUSTRYBlaza Stojanovic
Strict requirements that are put on mechanical constructions from the aspect of increase of exploitation periods and reduction of their weights, therefore of their prices as well, implicate developments and applications of new composite materials with matrices of lightweight metals. Composite materials with metal matrices are used for engine cylinders, pistons, disc and drum brakes, Cardan shafts and for other elements in automotive and aviation industry. The most important type of metallic materials is composite materials with matrices of aluminium alloys due to a set of their beneficial properties. Improvement of mechanical, especially tribological properties of hybrid composites were provided by the use of certain reinforce materials such as SiC, Al2O3 and graphite in defined weight or volumetric share. New developed hybrid composites with aluminium matrices have significantly higher resistance to wear, higher specific stiffness and higher resistance to fatigue. By the increase of quantities of produced elements made of hybrid composites, decrease of their prices is induced that even further enlarge their applications. The applications of aluminium hybrid composites are considered from the aspect and with the focus on automotive industry.
This is a presentation from JSW Steel, one of the finalists at the 5th CII-GBC National
Award for Excellence in Water Management in 2008
The awards are in 2 categories, Within the Fence for work done on minimizing the organisations water footprint, and Beyond the Fence for work done in the community around the industry.
This presentation was in the "Within the Fence" category.
We thank CII and the respective companies for giving us permission to upload these presentations on the India Water Portal website for dissemination to a wider audience.
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