The technology of a company is represented by its technology standards, and their exhaustiveness and consistency are important for competitiveness of the company. We have developed the systematized business process model for plant maintenance as IDEF0 (Integration Definition for Function) activity model, and the requirements of technology standards have been defined. In this study, framework to generate engineering standards is proposed. The requirements for engineering standards are analyzed on the basis of the developed IDEF0 model, and two types of standards are found to be necessary for each required engineering standard. From the property of these standards, IDEF0 activity model to generate engineering standards is developed.
Uncontrolled changes caused many accidents or disasters. Management of change (MOC) has been a very important issue in process safety management. In this paper, it is considered that MOC is divided to two parts: one is individual change management and the other is management of them. Individual change management is an instance of engineering over the plant lifecycle (Plant-LCE), however a business flow of MOC has been hardly discussed. A business flow of MOC is expected to be based on a business process model (BPM) of Plant-LCE. The logical process safety management based on a BPM of Plant-LCE has been proposed. However the BPM is dispersed and too detailed for precisely. Therefore, an overview for the BPM of Plant-LCE has been proposed. Using an individual change management example, this paper shows that a business flow of the MOC can be described in the overview of the BPM of Plant-LCE.
Approaches to Managing Disaster - Assessing Hazards, Emergencies and Disaster Impacts demonstrates the array of information that is critical for improving disaster management. The book reflects major management components of the disaster continuum (the nature of risk, hazard, vulnerability, planning, response and adaptation) in the context of threats that derive from both nature and technology. The chapters include a selection of original research reports by an array of international scholars focused either on specific locations or on specific events. The chapters are ordered according to the phases of emergencies and disasters. The text reflects the disciplinary diversity found within disaster management and the challenges presented by the co-mingling of science and social science in their collective efforts to promote improvements in the techniques, approaches, and decision-making by emergency-response practitioners and the public. This text demonstrates the growing complexity of disasters and their management, as well as the tests societies face every day.
Uncontrolled changes caused many accidents or disasters. Management of change (MOC) has been a very important issue in process safety management. In this paper, it is considered that MOC is divided to two parts: one is individual change management and the other is management of them. Individual change management is an instance of engineering over the plant lifecycle (Plant-LCE), however a business flow of MOC has been hardly discussed. A business flow of MOC is expected to be based on a business process model (BPM) of Plant-LCE. The logical process safety management based on a BPM of Plant-LCE has been proposed. However the BPM is dispersed and too detailed for precisely. Therefore, an overview for the BPM of Plant-LCE has been proposed. Using an individual change management example, this paper shows that a business flow of the MOC can be described in the overview of the BPM of Plant-LCE.
The technology of a company is represented by its technology standards, and their exhaustiveness and consistency are important for competitiveness of the company. We have developed the systematized business process model for plant maintenance as IDEF0 (Integration Definition for Function) activity model, and the requirements of technology standards have been defined. In this study, framework to generate engineering standards is proposed. The requirements for engineering standards are analyzed on the basis of the developed IDEF0 model, and two types of standards are found to be necessary for each required engineering standard. From the property of these standards, IDEF0 activity model to generate engineering standards is developed.
Thank you for visiting our website. Would you like to provide feedback on how we could improve your experience?
This site does not use any third party cookies with one exception — it uses cookies from Google to deliver its services and to analyze traffic.Learn More.