دانلود کتاب Advances and Innovations in Ferronickel-Making
کتاب پیشرفت ها و نوآوری ها در ساخت فرونیکل نسخه زبان اصلی
دانلود کتاب پیشرفت ها و نوآوری ها در ساخت فرونیکل بعد از پرداخت مقدور خواهد بود
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توضیحاتی در مورد کتاب Advances and Innovations in Ferronickel-Making
نام کتاب : Advances and Innovations in Ferronickel-Making
عنوان ترجمه شده به فارسی : پیشرفت ها و نوآوری ها در ساخت فرونیکل
سری :
نویسندگان : Guanghui Li, Jun Luo, Mingjun Rao, Zhiwei Peng, Tao Jiang
ناشر : Springer
سال نشر :
تعداد صفحات : 321
ISBN (شابک) : 9789811952265 , 9811952264
زبان کتاب : English
فرمت کتاب : pdf
حجم کتاب : 15 مگابایت
بعد از تکمیل فرایند پرداخت لینک دانلود کتاب ارائه خواهد شد. درصورت ثبت نام و ورود به حساب کاربری خود قادر خواهید بود لیست کتاب های خریداری شده را مشاهده فرمایید.
فهرست مطالب :
Preface\nContents\n1 An Overview of Nickel Utilization from Laterite Ore\n 1.1 Applications of Nickel\n 1.2 Demand of Nickel\n 1.3 Resources of Nickel\n 1.4 Metallurgical Processes of Laterite Ore\n 1.4.1 Hydrometallurgical Processes\n 1.4.2 Pyrometallurgical Processes\n 1.5 Challenges and Development of Ferronickel-Making\n References\n2 Fundamentals of Selective Solid-State Reduction and Novel Process for Preparing Ferronickel from Laterite Ore\n 2.1 Thermodynamics of Reduction/Sulfidation of Nickel and Iron Oxides\n 2.1.1 Thermodynamics of Reduction\n 2.1.2 Thermodynamics of Sulfidation\n 2.2 Behaviors of Selective Reduction/Sulfidation of Laterite Ore\n 2.2.1 Influencing Factors of Reduction/Sulfidation\n 2.2.2 Kinetics of Reduction/Sulfidation\n 2.3 Formation and Growth of Ferronickel Particles During Solid-State Reduction\n 2.3.1 Phase Transformation\n 2.3.2 Softening-Melting Property\n 2.3.3 Microstructure\n 2.3.4 Growth Mode of Ferronickel Particles\n 2.4 New Process of Preparing Ferronickel Through Selective Solid-State Reduction-Magnetic Separation and Its Application\n 2.4.1 Main Technological Parameters\n 2.4.2 Pilot-Scale Test of Direct Reduction Within “Firing Model” of Rotary Kiln\n 2.4.3 Industrial Test of Direct Reduction-Magnetic Separation in Coal-Based Rotary Kiln\n 2.4.4 Comparison Between the New Process and Existing Processes\n References\n3 Technology of Slag Formation Control in Electric Furnace Smelting of Laterite Ore\n 3.1 Phase Diagrams of Slag Systems\n 3.1.1 MgO–SiO2–Al2O3 Slag System\n 3.1.2 MgO–SiO2–Al2O3–FeO Slag System\n 3.1.3 CaO–MgO–SiO2–Al2O3–FeO Slag System\n 3.2 Liquid Phase Formation During Smelting\n 3.2.1 Effect of CaO Content\n 3.2.2 Effect of FeO Content\n 3.2.3 Effect of MgO Content\n 3.2.4 Effect of Al2O3 Content\n 3.3 Viscosity Behavior of Slag\n 3.3.1 Effect of CaO Content\n 3.3.2 Effect of FeO Content\n 3.3.3 Effect of MgO Content\n 3.3.4 Effect of Al2O3 Content\n 3.3.5 Verification Tests\n 3.4 Technics for Controlling Slag Formation\n 3.5 Applications of Controlling Slag Formation\n 3.5.1 Effect of Coke addition\n 3.5.2 Effect of Quaternary Basicity of Slag\n 3.5.3 Effect of Smelting Temperature\n 3.5.4 Effect of Smelting Time\n 3.6 Pilot-Scale Tests\n 3.6.1 Raw Materials\n 3.6.2 Experimental Procedure\n 3.6.3 Results and Discussion\n 3.7 Industrial Applications\n 3.7.1 Industry Practice in Plant-A\n 3.7.2 Industry Practice in Plant-B\n 3.7.3 Assessment of Energy Conservation and Emission Reduction\n References\n4 Softening–Melting Properties of Laterite Ore and Regulation Technology Applied in Krupp–Renn Process and Sintering Process\n 4.1 Phase Transformation of Laterite Ore During Roasting\n 4.1.1 Experimental\n 4.1.2 Effect of CaO Content\n 4.1.3 Effect of Roasting Temperature\n 4.1.4 Effect of CO Partial Pressure\n 4.2 Characteristic Fusion Temperatures of Laterite Ore\n 4.2.1 Effect of CaO Content\n 4.2.2 Effect of CO Partial Pressure in Reducing Atmosphere\n 4.2.3 Effect of FeO Content\n 4.3 Regulation Technology of Softening–Melting Performance of Laterite Ore\n 4.4 Regulation Technology Applied in the Krupp–Renn Process\n 4.4.1 Growth Behaviors of Ferronickel Particles\n 4.4.2 Grinding–Magnetic Separation of Ferronickel from Reduced Laterite Ore\n 4.4.3 Comparison with the “Oheyama Process”\n 4.5 Regulation of Sintering Process\n 4.5.1 Sintering of Saprolitic Laterite Ore\n 4.5.2 Sintering of Limonitic Laterite Ore\n References\n5 Valorization of Ferronickel Slag for Preparation of Value-Added Materials\n 5.1 Properties of Ferronickel Slag\n 5.2 Current Status of Utilization of Ferronickel Slag\n 5.2.1 Production of Building Materials\n 5.2.2 Preparation of Functional Materials\n 5.2.3 Recovery of Valuable Metals\n 5.3 Preparation of Refractory Materials from Ferronickel Slag\n 5.3.1 Thermodynamic Analysis for Preparing Refractory Materials from Ferronickel Slag\n 5.3.2 Technology for Preparing Refractory Materials from Ferronickel Slag\n 5.4 Preparation of Lightweight Thermal Insulation Materials from Ferronickel Slag\n 5.4.1 Effect of FAC Addition\n 5.4.2 Effect of Sintering Temperature\n 5.4.3 Effect of Sintering Time\n References\n6 Recycling of Stainless-Steel Pickling Sludge via RKEF Route\n 6.1 Properties of SSPS\n 6.2 Desulfurization During Reductive Roasting of SSPS with Laterite Ore\n 6.2.1 Effect of Coke Breeze and SSPS Additions\n 6.2.2 Effect of Reductive Roasting Temperature and Time\n 6.2.3 Mechanisms of Desulfurization\n 6.3 Smelting of Calcine for Metal Recovery\n References
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