Key Laboratory of Metallurgical Resources Recycling Science, Liaoning Province
Aiming to solve the key problems related to metallurgy and high-efficient utilization of metallurgical resources, Key Laboratory of Metallurgical Resources Recycling Science, Liaoning Province was established in 2011 with approval by the Education Department of Liaoning province. The laboratory is based on Department of Resources and Environment, doctoral discipline of metallurgical resources and ecological environment, doctoral, master and bachelor disciplines of resources recycling science and technology in Northeastern University.
In view of the features of the metallurgical resources as well as related environment in China, the following six aspects have been the lab’s important investigation areas to realize recycling utilization of metallurgical resources: high-efficient separation of special refractory metallurgical resources; high-efficient reutilization of metallurgical resources; regenerative utilization of solid wastes, resources and environment microorganism technology; preparation of ecological environment materials; environmental pollution control; etc. From an overall and coordinated consideration of metallurgical resources mining, processing andecological environment problems, the concept of ecological recycling utilization of the metallurgical resources is improving the governance from "the sources" to realize high-efficient recycling utilization of metallurgical resources and reduce pollutant emissions, which contributes to the technical progress of related industry and sustainable development of the national economy in our country.
Since the establishment of the key laboratory, many great achievements have been made including the new theoretical researches on resources and environment, comprehensive utilization technology development and innovative talents cultivation. The overall strength of resources recycling science and technology in Northeastern University, as a national strategic emerging industry discipline, has been enhanced, which can provide a strong support and guarantee for the national and regional economic development and technological progress.
There are 31 researchers working in the key laboratory including 10 professors and 15 associate professors or senior engineers. Additionally, there are 35 doctoral students and 62 master students conducting their research. In recent years, more than 30 national projects have been accomplished or are being implemented in the key laboratory, respectively sourced from Major Research Plan of the National Natural Science Foundation of China, National Basic Research Program of China (973 Program) and National High Technology Research and Development Program of China (863 Program), The faculty have published more than 350 academic papers and applied 37 national invention patents.
Main Research interests
Key Technology of High-efficient Separation for Special Refractory Metallurgical Resources
Combination and optimization of mineral separation process; High-efficient fine particle mineral separation technology; Bioseparation theory and technology of special refractory resources; Utilization efficiency of metallurgical resources and material flow analysis theory.
Key Technology of Ecological High-efficient Recycling Utilization for Characteristic Metallurgical Resources
High-efficient recycling utilization process and method selections of specific metallurgical resources; Present metallurgical process optimization and product increment technology; Ecological separation and extraction of valuable components; Substance recycle theory of metallurgical resources; Physical chemistry of metallurgical melts; Novel molten salt electrolysis technology of metallurgical materials; High pressure hydrometallurgy and special metallurgy; Microbiological treatment of metallurgical resources; Multi-scale coupling technology of metallurgical chemical reaction engineering theories and processes.
Metallurgical Resources Exploitation and Environmental Interface Technology
Metallurgical resources exploitation and environmental pollution interface control technology; High-efficient utilization of metallurgical resources and environmental management methods from the source; Key technology on resources recycling, cleaner production and ecological industry; Ecological environmental materials development and material ecologicalization; Flammability and anti-explosion experiment of metallurgicalpulverized coal and clean combustion technology; Concentration, ignition energy and ignition temperature test of metallurgical dust; Material flow analysis of metallurgical clean production and environmental evaluation; Radiation protection and evaluation; Environmental safety and evaluation; Environmental pollution information system development; Online environment monitoring system integration.
Key Technology of Non-traditional Ecological Utilization for Metallurgical Solid Wastes
Integral materials utilization including blast furnace slag, steel slag and iron tailings; Novel ecological preparation methods of photocatalytic degradation materials, antibacterial materials, conductive ceramic materials using titanium-bearing blast furnace slag; Boron-rich slag activation and high-efficient boron recycling technology; Reutilization of boron-bearing solid wastes; Novel high-efficient clean extraction technology of titania from titanium-bearing materials .