Affiliation:
1. School of Energy and Environmental Engineering, University of Science and Technology Beijing, Beijing 100083, China
Abstract
Blast furnace slag, a by-product of the iron and steel production process, contains a significant amount of untapped heat resources. Currently, China is entering a period of rapid growth in scrap production, making efficient scrap utilization a new research focus. One approach to improving scrap utilization is preheating. This study proposes a new method of preheating scrap using high-temperature slag in a drum. The discrete element method is employed for numerical simulation, which involves constructing a three-dimensional model. The study explores three influencing factors: the mass ratio of high-temperature slag to scrap, the shape of the scrap, and the drum rotational speed. The main objective is to investigate the heat transfer situation between the high-temperature slag and the scrap. The results indicate that the optimal heat transfer effect in the drum is achieved when the mass ratio of high-temperature slag to scrap is 2:1, the scrap is spherical in shape, and the drum rotational speed is 12 rpm.
Reference31 articles.
1. Environmental regulation and green technical efficiency: A process-level data envelopment analysis from Chinese iron and steel enterprises;Li;Energy,2023
2. Current progress of process integration for waste heat recovery in steel and iron industries;Inayat;Fuel,2023
3. High-temperature modification and air-quenching granulation of steel slag;Wang;J. Iron Steel Res. Int.,2021
4. New process for dry granulation and heat recovery from molten blast-furnace slag;Pickering;Ironmak. Steelmak.,1985
5. Xie, D., Pan, Y., Flann, R., Washington, B., Sanetsis, S., Donnelley, J., Norgate, T., and Jahanshahi, S. (2007, January 5). Heat recovery from slag through dry granulation. Proceedings of the 1st CSRP Annual Conference, Melbourne, Australia.
Cited by
1 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献