APM and AIP Integration for Joint Optimization of Productivity and Reliability Using Simulation Experiments

APM and AIP Integration for Joint Optimization of Productivity and Reliability Using Simulation Experiments

This study presents a methodology for integrating Asset Performance Management (APM) and Asset Investment Planning (AIP) platforms for joint optimization of productivity and reliability using simulation experiments. This research combines data from an APM, which provides information on equipment rel...

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Bibliographic Details
Main Authors: Jorge Pinilla, Orlando Durán, Christian Salas
Format: Article
Language:English
Published: MDPI AG 2025-06-01
Series:Systems
Subjects:
asset performance management
asset investment planning
equipment selection
productivity
energy consumption
process simulation software
Online Access:https://www.mdpi.com/2079-8954/13/6/476
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Summary:This study presents a methodology for integrating Asset Performance Management (APM) and Asset Investment Planning (AIP) platforms for joint optimization of productivity and reliability using simulation experiments. This research combines data from an APM, which provides information on equipment reliability, and a simulation module of AIP software that offers detailed technical data of a set of alternative equipment in a sort of catalog. Criteria such as availability, reliability, criticality, and utilization levels, based on historic stored data, are used to evaluate different equipment configurations. Such data are provided by the APM platform, while the productivity and efficiency of existing and candidate equipment are captured from the configuration module on the AIP platform. Key aspects of this work point to the possibility of applying it in two main stages of a system’s life cycle: the design stage, where the project is in its conceptual design phase, and the operation or exploitation stage, where newer configurations are considered to prioritize operational adjustments and optimizations due to the inherent constraints of reliability and maintainability aspects. Through the development of a specifically developed model, which is applied to ensure optimal selection of equipment and configurations, it is possible to obtain new equipment configurations that ensure operational continuity and efficient production performance without exceeding budgetary restrictions and energy consumption limits or compromising productivity.
ISSN:2079-8954

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