• Title/Summary/Keyword: System Safety Process

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A Study on the Integration of Systems Engineering Process and Systems Safety Process in the Conceptual Design Stage to Improve Systems Safety (시스템 개념설계 단계에서 안전도 향상을 위한 시스템공학 및 시스템안전 프로세스의 통합에 관한 연구)

  • Kim, Young-Min;Lee, Jae-Chon
    • Journal of the Korea Safety Management & Science
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    • v.14 no.3
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    • pp.1-10
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    • 2012
  • Recently, we have witnessed the definitely negative impacts of large-scale accidents happened in such areas as atomic power plants and high-speed train systems, which result in increased fear for the potential danger. The problems appear to arise due to the deficiency in the design of large-scale complex systems. One of the causes can be attributed to the design process that does not fully reflect the safety requirements in the early stage of the system development because of the substantially increased complexity. In this paper, to enhance the systems safety an integrated process is studied, which considers simultaneously both the system design process and system safety process from the beginning of the system development. In the conceptual system design phase an integrated process model is constructed by analyzing the activities of both the system design and safety processes. As a case study example, an inner city train system is described with the application of the developed process. The computer simulation of the example case is followed by the result discussed. The results obtained in the paper are expected to be the basis for the future study where a detailed process and its associated activities can be developed.

A Study on Integrated SE Process for the Development of the Railway Systems with Safety Assessment Included (철도 시스템 개발에서 시스템공학 프로세스와 안전성 평가를 동시에 고려한 통합 프로세스에 관한 연구)

  • Yoon, Jae-Han;Lee, Jae-Chon;Hong, Seon-Ho
    • Journal of the Korean Society for Railway
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    • v.10 no.4
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    • pp.438-443
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    • 2007
  • This paper proposes an integrated SE process for the development of railway systems with safety assessment included. Although the safety assessment process must be performed with SE process properly with good coordination, the interfaces between the two processes have not been clear. Thus, in many of safety critical system developments in Korea, it is difficult to assess safety in proper development phase. The process model proposed in this paper is based on both the concept of system life cycle and the repetitive use of SE process. In each of development phases, appropriate safety assessment methods are described. Also the evaluation of the integrated system incorporating safety factors is described. The resultant process model is expressed by the Enhanced Functional Flow Block Diagram (EFFBD) using a CASE tool. The model also allows timeline analysis for identifying activity flow and data flow, resulting in the effective management of process. In conclusion, the integrated process enable both the SE process and safety assessment process to cooperate with each other from early development phase throughout the whole system life cycle.

Assessment of Thermal Hazard on Esterification Process in Manufacture of Concrete Mixture Agents by Multimax Reactor System (Multimax Reactor System을 이용한 시멘트 혼화제 제조시 에스테르화공정의 열적 위험성 평가)

  • Han, In-Soo;Lee, Keun-Won;Pyo, Don-Young
    • Journal of the Korean Society of Safety
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    • v.24 no.5
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    • pp.13-20
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    • 2009
  • The risk assessment of thermal hazard to identify chemical or process hazard during early process developments have been considered. The early identification of thermal hazards associated with a process, such as rapid heats of reaction, exothermic decompositions, and the potential for thermal runaways before any large scale operations are undertaken. This paper presents to evaluate the safe operating parameters/envelope for exist plant operations. The assessment of thermal hazard with operating conditions such as amount of process materials, inhibitor, and catalyst on esterification process in manufacture of concrete mixture agents are described. The experiments were performed by a sort of calorimetry with the Multimax reactor system as a screening tool. The aim of the study was to evaluate the thermal risk of process material and mixture in terms of safety security to be practical applications in esterification process. It suggested that we should provide the thermal hazard of reaction materials to present safe operating conditions with cause of accident through this study.

Development of Standard Guideline and Process for Safety Design using DMADOV of the Lean 6 Sigma (린 6시그마 DMADOV를 이용한 시스템 안전설계 표준지침 및 프로세스 구축)

  • Kim, Hyung-Kwan;Park, Do-Hyun;Huh, Hyoung-Jo;Sung, Won-Hyuk
    • Journal of the Korea Safety Management & Science
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    • v.17 no.2
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    • pp.97-106
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    • 2015
  • System is the organization of hardware, software, personnel and facilities needed to perform a designated function within a stated environment with specified results. The trend of modern systems is getting more complex and larger. The system is necessary for modern society but the minor malfunction of the system can result the enormous human and material losses. Recently it is being heightened the concern for system safety and required to be built and applied Safety Engineering standard Guideline for safety of complex and large-sized system. This paper describes the System Engineering Process model integrated with Safety Engineering and the establishment of standard safety guidelines for safety of product development using DMADOV Methodology of the Lean 6 Sigma.

Development of the ISEP Based on Systems Engineering (시스템엔지니어링을 적용한 ISEP 개발에 관한 연구)

  • Byun, BoSuk;Choi, YoChul;Park, Young T.
    • Journal of Korean Society for Quality Management
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    • v.41 no.4
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    • pp.725-735
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    • 2013
  • Purpose: The purpose of this study is to propose an Integrated Safety Evaluation Process (ISEP) that can enhances the safety aspect of the safety-critical system. This process utilizes the advantages of the iterative Systems Engineering process combined with the safety assessment process that is commonly and well defined in many standards and/or guidelines for railway, aerospace, and other safety-critical systems. Methods: The proposed process model is based on the predefined system lifecycle, in each phase of which the appropriate safety assessment activities and the safety data are identified. The interfaces between Systems Engineering process and the safety assessment process are identified before the two processes are integrated. For the integration, the elements at lower level of Systems Engineering process are combined with the relevant elements of safety assessment process. This combined process model is represented as Enhanced Functional Flow Block Diagram (EFFBD) by using CORE(R) that is commercial modelling tool. Results: The proposed model is applied to the lifecycle and management process of the United States aircraft system. The US aircraft systems engineering process are composed of twelve key elements, among which the requirements management, functional analysis, and Synthesis processes are considered for examplenary application of the proposed process. To synchronize the Systems Engineering process and the safety assessment process, the Systems Engineering milestones are utilized, where the US aircraft system has thirteen milestones. Taking into account of the nine steps in the maturity level, the integrated process models are proposed in some phases of lifecycle. The flows of processes are simulated using CORE(R), confirming the flows are timelined without any conflict between the Systems Engineering process and the safety assessment process. Conclusion: ISEP allows the timeline analysis for identifying activity and data flows. Also, the use of CORE(R) is shown to be effective in the management and change of process data, which helps for the ISEP to apply for the development of safety critical system. In this study, only the first few phases of lifecyle are considered, however, the implementation through operation phases can be revised by combining the elements of safety activities regarding those phases.

A study of safety management assessment method of unit working process (단위작업공정의 안전관리 평가방법에 대한 연구)

  • Lee, Kang-Bok;Kim, Geon-Ho;Kim, Yoon-Sung;Kwon, Sang-Myun;Lee, Jai-Won;Kang, Kyung-Sik
    • Journal of the Korea Safety Management & Science
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    • v.9 no.2
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    • pp.1-8
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    • 2007
  • Safety check-up and individual education, safety status wishes to present included safety assessment table for safety management assessment system construction about unit work process in Study. Safety management assessment table gives each grades about worker of unit work process, safety check-up, education, management and identifies merits and demerits of unit work process, it is that propose safety management assessment system that can reduce accident occurrence possibility.

A Study on the Railway Safety Authorization for Assuring Safety of Light Rail Transit System (경전철시스템의 안전확보를 위한 안전승인(확인)제도 연구)

  • Lee, Ji-Woong;Shin, Jeong-Beom;Lee, Byung-Suk
    • Proceedings of the KSR Conference
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    • 2011.10a
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    • pp.2539-2547
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    • 2011
  • This paper will introduce the safety authorization system for light rail transit(LRT) through investigating safety certification & safety authorization in foreign country and aviation field in Korea. The safety authorization system proposed by the government these day was also investigated. Korea Transportation Safety Authority(KOTSA) have conducted safety validation process on Busan-Gimhae LRT before its revenue service during three months since Jan. of 2011. We describe the overview of these validation activities, results and safety certification issued. Learning from this process, we propose the standardized safety validation process including checklists which can be applied to common unmanned light rail system. This study will be a basis of railway safety authorization for LRT and will be continually improve its application ability by the future study.

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Evaluation of Thermal Hazard in Neutralization Process of Pigment Plant by Multimax Reactor System (Multimax Reactor System을 이용한 안료제조시 중화공정의 열적위험성 평가)

  • Lee, Keun-Won;Han, In-Soo
    • Journal of the Korean Society of Safety
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    • v.23 no.6
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    • pp.91-99
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    • 2008
  • The identification of thermal hazards associated with a process such as heats of reaction and understanding of thermodynamics before any large scale operations are undertaken. The evaluation of thermal behavior with operating conditions such as a reaction temperature, stirrer speed and reactants concentration in neutralization process of pigment plant are described. The experiments were performed by a sort of calorimetry with multimax reactor system The aim of the study was to evaluate the results of heat of reaction in terms of safety reliability to be practical applications. It suggested that we be proposed safe operating conditions and securities for accident prevention on reactor explosion through this study.

"3+3 PROCESS" FOR SAFETY CRITICAL SOFTWARE FOR I&C SYSTEM IN NUCLEAR POWER PLANTS

  • Jung, Jae-Cheon;Chang, Hoon-Sun;Kim, Hang-Bae
    • Nuclear Engineering and Technology
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    • v.41 no.1
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    • pp.91-98
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    • 2009
  • The "3+3 Process" for safety critical software for nuclear power plants' I&C (Instrumentation and Control system) has been developed in this work. The main idea of the "3+3 Process" is both to simplify the software development and safety analysis in three steps to fulfill the requirements of a software safety plan [1]. The "3-Step" software development process consists of formal modeling and simulation, automated code generation and coverage analysis between the model and the generated source codes. The "3-Step" safety analysis consists of HAZOP (hazard and operability analysis), FTA (fault tree analysis), and DV (design validation). Put together, these steps are called the "3+3 Process". This scheme of development and safety analysis minimizes the V&V work while increasing the safety and reliability of the software product. For assessment of this process, validation has been done through prototyping of the SDS (safety shut-down system) #1 for PHWR (Pressurized Heavy Water Reactor).