Process Oriented Analysis Design and Optimization of Industrial Production Systems
Auteurs : Meyer Urs B., Creux Simone E., Weber Marin Andrea K.
In modern manufacturing, it is not simply the equipment that is increasingly complex but rather the entire business system in which a company operates. Convoluted supply chains, complicated resource flows, advanced information systems: all must be taken into account when designing or reengineering a manufacturing system. Introducing a powerful yet easy-to-follow method, Process Oriented Analysis: Design and Optimization of Industrial Production Systems offers clear and practical guidance on applying this proven analytical technique to any type of manufacturing operation.
Linking abstract theoretical concepts to real-world implementation, this book outlines the principles of Process Oriented Analysis (POA) and demonstrates the application of these concepts using actual case studies. The authors first present the diagrams and analytical tools used in POA to represent both the static structure and dynamic behavior of the system. They then demonstrate how to build a simulation model by translating the diagram components into usable source code. Software for generating these types of diagrams is available for download from the Internet, along with a thorough tutorial that includes questions and interactive case studies.
Taking a consistent approach that anyone in the organization can use and understand, Process Oriented Analysis is the perfect resource for planning, designing, debugging, and optimizing modern production systems.
Date de parution : 09-2006
Ouvrage de 516 p.
15.6x23.4 cm
Thèmes de Process Oriented Analysis :
Mots-clés :
Section D2; diagram; State Chart; c2-10; Context Diagram; context; Diagram C5-4; flow; Flow Diagram; child; Gas Pump; specification; Section S1; c2-1; Diagram D2-3; product; RFD; state; Child Diagram; chart; Diagram S3-12; Real Time Control; PROCESS ORIENTED ANALYSIS; Flow Type; Exergetic Efficiency; Exergy Balance; Dynamic Analysis Tools; Waste Energy; Output Flows; Case Tool; Process P1; Production Line; DD; Product Flow; S1 S2