티스토리 뷰


WITNESS를 활용한 원자력 분야의 설비 Layout 개선 프로젝트의 사례로 2017년 Science and Technology of Nuclear Installations에 게재된 한국원자력연구원의 "Equipment Layout Improvement for Large-Scale Hot Cell Facility Logistics" 연구논문을 소개합니다. 


https://www.hindawi.com/journals/stni/2017/4585120/




Research Article 

Equipment Layout Improvement for Large-Scale Hot Cell Facility Logistics



Seungnam Yu, Jaehoon Lim, Hunsuk Im,and Hyojik Lee 


Korea Atomic Energy Research Institute,111 Daedeok-daero, 989 Beon-Gil, Yuseong-Gu, Daejeon, Republic of Korea Correspondence should be addressed to Seungnam Yu; snyu@kaeri.re.kr 

Received 12 April 2017; Accepted 31 July 2017; Published 19 October 2017 

Academic Editor: Carlo Sborchia 


Copyright©2017 Seungnam Yu et al. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use,distribution,and reproduction in any medium,provided the original work is properly cited.


This study presents approaches to equipment layout improvement for a large-scale hot cell facility. First,the original facility layout and target process are introduced, including the basic information and specifications. Second, the flow of process materials is analyzed and the relationships are evaluated in detail using a “from-to chart” and a “relationship chart” for the original layout, andthelogisticsaresimulatedusingtheselecteddiscreteeventsimulatortocalculatethetravelingdistancesofprocessmaterials handled by teleoperated material handling systems. Third, the original layout is modified using the total closeness rating (TCR), and the efficiency and usage of the material handling system are calculated and compared with the original case to evaluate the efficiency improvement of the modified layout. This modification process, which included load reduction, enabled those aspects of the material handling system that would need to be changed to be identified; these changes were suggested by a quantitative analysis of the logistics between each pair of stations and intuitive rearrangement based on charts and figures. These approaches could be an initial step in the large-scale hot cell design process,with future work to follow.