JOURNAL BROWSE
Search
Advanced SearchSearch Tips
A Systems Engineering Approach to Designing Continuous Casting System in Iron and Steel Making Plant
facebook(new window)  Pirnt(new window) E-mail(new window) Excel Download
 Title & Authors
A Systems Engineering Approach to Designing Continuous Casting System in Iron and Steel Making Plant
Shin, Kee-Young; Hong, Dae Geun; Yoon, Soo Cheol; Suh, Suk-Hwan;
  PDF(new window)
 Abstract
Recently, global market competition of iron and steel products is ever increasing due to over-supply from increased number of industries in rapidly growing countries, such as China, Brazil, and Indonesia. To occupy the big market, major industries are trying to develop high quality, high performance steel products via developing a new iron and steel making process. In other words, development of a new and innovative steel plant is a key to cope with the tough situation. Design and development for the life cycle of iron and steel making plant is very much complex and multi-disciplinary. In this paper, Plant Systems Engineering (PSE), a tailored SE process for industrial plant based on ISO/IEC 15288 is used for the design of Continuous Casting Process (CCP) Plant system. The CCP is a crucial process in steel making plant, whose design technology is occupied by the advanced foreign companies. For the sake of increasing engineering capability for the design of CCP, we applied PSE Process for the renovation of the existing CCP Process. Through the study, we were convinced that the applied method can be used for other plant systems, and SE is really the way of thinking, design, and development of modern complex and multi-disciplinary systems where high risk factors are present throughout the whole life cycle.
 Keywords
Iron and Steel Making Plant;Continuous Casting Process Plant System;Systems Engineering;Plant Systems Engineering;Technical Process;
 Language
Korean
 Cited by
1.
스마트 제조 실행 시스템 기본설계를 위한 시스템 엔지니어링 적용 방법에 대한 연구,전병우;신기영;홍대근;서석환;

시스템엔지니어링학술지, 2015. vol.11. 2, pp.95-105 crossref(new window)
 References
1.
이민근, 2012년 세계 철강 산업 회고와 2013년 전망, POSRI 보고서, POSCO 경영연구소, 2013.

2.
박현성, 철강 산업에 있어서, 제품 고부가가치화 전략 동조화에 관한 연구: 아시아 대형 철강기업 사례 중심으로, POSRI 보고서, 제4권, 2호, POSCO 경영연구소, 2004.

3.
SE Handbook Working Group, Systems Engineering Handbook - A Guide or System Life Cycle Processes and Activities V3.2.2, International Council on Systems Engineering (INCOSE), 2011.

4.
C.H. Lee, D.G. Hong, S.C. Yoon, S.H. Suh, H.W. Sur, Systems Engineering-based Approach in Developing Concept Design of Carbon Capture System, Journal of the Korea Society of Systems Engineering, 9(2), 23-36, 2013. crossref(new window)

5.
S.Y. Kim, J.M. Cha, J.P. Kim, S.H. Suh, H.W. Sur, A Systems Engineering Approach to FEED Work Process Development for Refinery Plant, Journal of the Korea Society of Systems Engineering, 10(1), 1-15, 2014.

6.
W.W. Ki, J.P. Kim, D.G. Hong, S.H. Suh, A Study on Application of Systems Engineering Technical Process to FEED in Plant construction Industry - focused on a case of Environmental Plant, Journal of the Korea Society of Systems Engineering, 9(2), 37-53, 2013. crossref(new window)

7.
ISO/IEC 15288:2008. Systems and Software engineering - Systems life cycle processes. 2008.

8.
WIKIPEIDA, Continuous Casting, access time: Oct. 14, 04:40PM, 2013, http://en.wikipedia.org/wiki/ Continuous_casting.

9.
강기판, 신건, 이성진, 시험 연주기 고속 주조 설비 기술 개발, 한국소성가공학회, 철강 엔지니어링 심포지엄, 2011.

10.
MIL-STD-499B, Systems Engineering, U. S. Department of Defense, 1994.

11.
ISO/IEC 26702:2005, Systems engineering - Application and management of the systems engineering process, 2005.