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.
Displaying 1 - 4 of 4
BoK 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
Key Components of Electrical Power System MaintenanceBoK Content Type:Presentation SlidesPresentation PaperBoK Content Source:MainTrain 2017Original date:Monday, April 10, 2017As I spend more and more time in and around maintenance, reliability and asset management professionals, and though my own experiences as both an end user and now a contractor, it has become more and more clear that there is a definitive gap in most maintenance and reliability plans....the electrical system. This is not to say that there is not maintenance being done, or that people are not recognizing that their electrical system is critical. But do you understand what you are doing? Do you understand why? Is what is being done correct? Is the budget that is set aside for electrical adequate or too much? How do you know? What are the best practices and where do you start? As discussed this is not a technical presentation but rather a look at a basic electrical system and where an end user can start in regards to assuring themselves that they are doing the right things. There are some new technologies that are in the market place that can assist in determining if there is a potential problem with parts of your system...this presentation is not about those. Alternatively it is about "the basics", learning to walk before you can run: Looking at the system as a whole and learning where most trouble areas are; Assisting end-users in looking at past test results and planning next steps; Determining what needs to be done based on predictive tests such as transformer oil samples or IR scans, and what can be pushed into next year’s budget; What cannot be skipped because, if it is, it may not only cause catastrophic plant failures but potential fatalities. In conclusion what this presentation will focus on is assisting Maintenance Management professionals to treat their electrical assets with the same care that they keep their mechanical assets. It is not overly technical and you do not have to be an electrical professional to understand or benefit.Presented at MainTrain 2017
Case Study: Implementing a Lubrication Program – Cameco Cigar Lake OperationBoK Content Type:Presentation SlidesWebcastBoK Content Source:MainTrain 2017Original date:Thursday, March 16, 2017Cigar Lake is Cameco’s newest uranium mine located in northern Saskatchewan. During construction it was decided that a lubrication program needed to be implemented to ensure that critical assets were properly maintained. The mine offers challenges in that there is not just one plant or area to setup. There is a fleet of equipment both underground and surface with mobile and stationary assets. In addition there is diesel power generation and a fleet of freeze compressors installed. Each area presents its own challenges and opportunities when setting up a program.There are several aspects of a lubrication program that need to work together to ensure reliability. This presentation will share Cigar Lake’s journey from ground zero towards a world class lubrication program, one that was featured in Machinery Lubrication’s 2016 Lube Room Challenge edition.Why a lubrication program is needed will be discussed. In addition, the improvements made to program management, storage and inventory management, cleanliness, product standardization and sampling will be presented. Lastly, some of the specialized assets in use at the mine will be highlighted and discussed on how they fit into the program.
PM Optimization: Integrating Lean into your Maintenance StrategyBoK Content Type:Presentation SlidesPresentation PaperBoK Content Source:MainTrain 2017Original date:Saturday, February 4, 2017Preventive Maintenance (PM) Optimization is often thought of as an activity to improve the effectiveness of the maintenance strategy, looking at the activities in the PM routine and matching them with known failure modes. While this is the first step to improving any maintenance strategy, it is just a beginning. In order for an organization to achieve its highest performance, they not only need to do the right maintenance, but they also need to do it efficiently.This is where PM Optimization can unlock the hidden potential. When PM Optimization is combined with known and accepted Lean techniques, the efficiency of maintenance is truly unlocked. When performing PM Optimization, the team should be aware of the 8 types of waste: (1) Defects, (2) Overproduction, (3) Waiting, (4) Not utilizing talent, (5) Transportation, (6) Inventory excess, (7) Motion waste, and (8) Excess processing. Once the team is aware of the waste, there needs to be an unrelenting focus on eliminating the waste and minimizing planned downtime. To eliminate the waste, the team uses various Lean tools, such as SMED, 5s, and Visual Factory. When the 8 types of waste are targeted, the amount of planned downtime goes down, allowing higher levels of asset utilization. Presented at MainTrain 2017