Shared Learning Library
Welcome to PEMAC's Shared Learning Library, a growing body of community created knowledge, built up and maintained by the PEMAC member community. Explore a range of articles, presentations and webcasts covering a wide range of maintenance, reliability and asset management subject areas. You can even find presentations from past MainTrain conferences and PEMAC Lunch & Learn webcasts.
To easily find what you are looking for the content of the Shared Learning Library can be filtered by both Maintenance Management and Asset Management subject areas using the options in the menu to the left of the screen.
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BoK Content Type:Presentation SlidesPresentation PaperBoK Content Source:MainTrain 2019Original date:Thursday, September 19, 2019The desert-bound city of Chandler in the American Southwest operates a municipal infrastructure that includes aging machinery assets at four water treatment facilities and dozens of potable water wells, recharge wells, and pumping stations. The city hired an expert— who happens to be an ICML-certified lubrication technician and oil analyst—to develop predictive maintenance programs intended to extend the reliability and service life of these assets. Though his proposed solutions will take several years to implement fully across the board, the benefits and efficiencies have been felt almost immediately. In this presentation,we’ll provide an overview of the main water treatment facility’s lubrication conditions prior to the expert’s arrival and describe the challenges he regularly faces with regard to environmental conditions, untrained vendors, and corporate culture—even as he harvests low-hanging lubrication fruit within the scope of his broader predictive maintenance mandate. We’ll also highlight his personal emphasis on the valuable role that training and certification play in his program’s success. You’ll understand that best lubrication and oil analysis practices can produce significant ROI for any machinery maintenance program; training and certification contribute greatly to the sustainability of culture change and new processes; and a strategic road map can make implementation more efficient and sellable from the outset.
Asset Management Excellence Journey at Irving TissueBoK Content Type:Presentation SlidesWebcastPresentation PaperBoK Content Source:MainTrain 2020Original date:Friday, June 12, 2020In 2010, a privately owned tissue-converting facility in New Brunswick (Irving Tissue) considered itself a well-oiled machine, being able to product 10 million cases of product annually—a huge leap forward from where it started in 1990, with 200,000 cases. The site was piloting a PMO on one of 12 production lines when a vision was pitched to the site leadership team: implementing PMO’s activities and principles on each production line would allow the site to streamline its efforts and result in increased production, with a higher product quality and fewer injuries. This pitch aligned with several of the company’s core values and allowed the leadership team to see there was still substantially more gains to be made at the facility that didn’t necessarily require capital investment, but simply changes to work processes. While this plan didn’t come to fruition, it aligned the leadership team to make reliability a focus rather than just production. This alignment paved the way for several reliability-centred improvement initiatives at the site. The cornerstone achievement of this shift toward reliability was the implementation of “Reliability Windows.” This regular cleaning (two to three times weekly), inspection, and PM task-oriented activity shared between the operations and maintenance groups helped move asset care to a joint effort, rather than just being the responsibility of the maintenance department. This initiative has been a major contributor to the site being able to produce 15 million cases in 2020 (about a 50% increase from 2010—without any additional production lines). This has been a huge advancement in ROA. Originally presented at MainTrain September 09, 2020 Webcast presented November 24, 2020
Debunking Risk Resiliency by Implementing a Risk-Based Maintenance StrategyBoK Content Type:Presentation SlidesPresentation PaperBoK Content Source:MainTrain 2017Original date:Tuesday, April 18, 2017Due largely to the release of ISO55000x:2014 family of standards, Asset Management is gaining worldwide acceptance as a valid business practice for asset-intensive organizations. The challenge that organizations now face is how to operationalize the principles and move it from “being understood in theory” to being “the way that we work”, to truly distill effective asset management practices and principles to the nooks and crannies of the organization. One key tenet of ISO55000x is the management of asset risk at all levels of asset interaction. On the other side, one area that has been struggling to understand asset management beyond maintenance management is the traditional Maintenance Department. This paper will capture the steps that Veolia North America is taking one of its Municipal Clients through to understand risk at the more granular levels and build risk resilience into its maintenance strategy.Yet for the average Maintenance Manager, the challenge of interpreting asset risk for the organization is still uncharted waters. There are several ways in which the traditional Maintenance Manager can understand the wide breadth of risks facing the asset, determine appropriate responses and communicate them to the appropriate stakeholders. In fact, one or more of these may already be in place in the organization but may not be seen as building risk resilience. This presentation will explore one methodology used by Veolia to develop an asset-centric, risk-based Maintenance Strategy at the City of Winnipeg’s, Waste Water Treatment Plants using a Maintenance Management Maturity Assessment.The City of Winnipeg’s Waste Water Department is at a very interesting juncture in its history, in that there are several major capital upgrades being undertaken, whilst the plants continue to run. The goal of the Maintenance Strategy is therefore two-fold. To maintain the existing levels of service at least whole life cost with risk balanced against the cost of meeting objectives, whilst ensuring that there is a plan to maximise maintenance for the future asset base to realise the benefit of the investment over the whole life of the assets. As a result, in 2016, in collaboration with its selected O&M improvement partner, Veolia North America, the City of Winnipeg’s Waste Water Treatment Plants, went on a path of discovery. Two significant tools of investigation were employed: 1. An Asset Management Maturity Assessment was conducted and 2. The City participated in the National Waste Water Benchmarking Initiative (NWWBI) Maintenance Task Force Survey implemented by AECOM. The Asset Management Maturity Assessment examined 8 fundamental areas of Maintenance Management and outlined positions of excellence that the City hoped to achieve both at the 1-year and 3-year mark from the date of assessment with 2017 being Year 1. The NWWBI Maintenance Task Force Survey examined 42 granular yet, over-lapping areas of Maintenance Management, with 18 of them reporting significant gaps for the City’s Waste Water Treatment Plants. The results of the two analyses were combined into eight (8) key Objectives and the underlying activities required to achieving them over the next three (3) years. These eight (8) Objectives are: 1. Implementation of Asset Condition Assessment Plan (ACAP) 2. Inventory Management Optimization Plan (IMOP) 3. Work Organization Improvement Plan (WOIP) 4. Implementation of Maintenance Quality Strategy (MQS) 5. Financial Capability Improvement Plan (FCIP) 6. Asset Registry Improvement Plan (ARIP) 7. Implementation of Document Management (DM) 8. Revision and Implementation of Asset Criticality Model (ACM)This presentation will examine the detailed plans for each objective, the inter-connectivity and alignment of the Objectives, the Road Map for the next 3 years, the processes for monitoring and continual improvement and the benefits of implementing this approach. Presented at MainTrain 2017