Overall equipment effectiveness (OEE) can be an accurate representation of overall plant performance. Derived from Total Productive Maintenance (TPM) and the Toyota Production System (lean), OEE is a single, calculated value that represents the plant’s effectiveness in three key performance indicators:
1) availability or runtime, 2) production rate, and 3) quality rate. This straightforward value was intended to be the product of these three values, but has become a convoluted, almost infinite variation of calculations.
Availability rate is the actual production runtime for a specific time interval divided by the “planned” runtime for the same interval. For example, an asset that is planned and scheduled to operation eight hours per day, five days per week has a total availability of 40 hours. If it has an actual runtime of 20 hours, the resultant availability rate is 50 percent.
Production rate is the actual gross units produced for a specific time interval divided by the number of units that should have been produced. Technically, the denominator in this case should be the ideal rate as defined by the asset’s design specifications; but in most cases, assets are operating well above the original “nameplate” production rate.
Therefore, the best demonstrated production rate should be used for this calculation. Best demonstrated is simply the best sustainable rate, based on asset history that your plant has been able to achieve.
For example, when an asset produces 1,000 units per hour and its best demonstrated rate is 2,000 units per hour, the resultant production rate is 50 percent.
Quality rate should be straightforward. It is the total quality units produced divided by the total or gross units produced. Total quality units is defined as the total (gross) units produced minus all scrap, rejects, reworks and any other units that cannot be sold as prime.
For example, if the asset produces 1,000 total units but 100 units are rejected, the numerator becomes 900 and the denominator is 1,000, or a quality rate of 90 percent.
Once these three values are determined, the final OEE calculation is simply the product of the three values, expressed as percentages, or 50% x 50% x 90%, or 22.5%.
About the author:
Keith Mobley, a principal consultant with Life Cycle Engineering, has earned an international reputation as one of the premier consultants in the fields of plant performance optimization, reliability engineering, predictive maintenance and effective management. He has more than 35 years of direct experience in corporate management, process design and troubleshooting. For the past 16 years, he has helped hundreds of clients worldwide achieve and sustain world-class performance. Mobley is actively involved in numerous professional organizations. Currently, he is a member of the technical advisory boards of: American National Standards Institute (ANSI), International Standards Organization (ISO) as well as American Society of Mechanical Engineers (ASME) and others. He is also a Distinguished Lecturer for ASME International. To learn more, visit www.lce.com.