Resource Utilization of Solid Waste by Thermometallurgy in Steel Processes

This book intends to summarize the current situation at home and abroad about the treatment and consumption of various metallurgical wastes and domestic waste fertilizers and their products through metallurgical processes. It collects the process characteristics of the whole metallurgical process from sintering, blast furnace, electric furnace, converter, and other aspects, as well as the process parameters for treating various solid wastes, solves the problems that may be encountered in the relevant processes, and puts forward corresponding solutions, including the transformation of the process flow or the addition of some pre-treatment links. In addition, this book also evaluates some important production and digestion processes and puts forward relevant suggestions for readers to have a more comprehensive thinking. University teachers, graduate students, researchers, and engineers engaged in iron and steel metallurgy process, especially those who use iron and steel process to absorb metallurgical solid waste and domestic solid waste together, will be of great help to them. 


Kai Dong 
Area of Work: Mainly engaged in short-process steelmaking of electric arc furnace, CO2 resource utilization of iron and steel process, energy conservation and environmental protection of metallurgical process, combined solid waste disposal, and development of process technology related to metallurgical intelligent control 
Honors: Won 1 national award and 7 provincial and ministerial science and technology awards, including the second prize of 2016 National Science and Technology Progress Award for 'Research and Application of Electric Arc Furnace Steelmaking Compound Blowing Technology', the first prize of 2020 Beijing Science and Technology Award for 'Clean Smelting Technology and Application of High Quality Pipe Steel', the second prize of 2021 China Metallurgical Science and Technology Award for 'Carbon Dioxide Green and Clean Steelmaking Technology and Application', and the first prize of the Outstanding Achievement Award for Scientific Research in 2022 for 'Carbon Dioxide Steelmaking Technology Based on Soot Reduction and Steel Purification'. 
Selected Publication: 
1. An experimental comparison: Horizontal evaluation of valuable metal extraction and arsenic emission characteristics of tailings from different copper smelting slag recovery processes. 
2. Effects of substituting municipal waste incineration fly ash for lime on generating a bonding phase during the sintering process. 
3. Effects of Nozzle Layout and Parameters on the Jet Characteristics of a CO2 + O2 Mixed Oxygen Lance. 
4. Experimental Study on Decarburization and Chromium Retention in Stainless Steel Smelting with CO2 as Alternative to N-2. 
5. Influence of Preheating Temperature on the Characteristics of O2 + CO2 Jet by Mixed Injection with a Swirling Oxygen Nozzle.