Enterprise Asset Management for Technicians

Asset Management for Technicians: Stay Ahead with In-Demand Microcredentials

Unlock the Future of Intelligent Maintenance and Operations

Enterprise Asset Management (EAM) manages the lifecycle of equipment, machinery, and infrastructure. EAM is evolving rapidly in the industry, and modern maintenance is all about leveraging the latest technology and methodologies to drive efficiency and effectiveness. Maine Maritime Academy’s Center for Professional Mariner Development (CPMD) is at the forefront of this revolution, offering new micro-credentials that prepare technicians for the future of asset management.

Why Choose CPMD’s Asset Management Program?

With the industry trend focusing on smart maintenance and operations, there is a growing demand for skilled technicians who can work with advanced technologies, including:

  • Predictive and Prescriptive Maintenance: Transition from reactive to proactive maintenance by learning to predict issues before they occur.
  • Internet of Things (IoT): Harness the power of connected devices for real-time insights and smarter decision-making.
  • Advanced Connectivity and Smart Devices: Stay ahead of the curve with training on cutting-edge devices that make maintenance smarter and more effective.
  • Data-Driven Analysis: Dive into the power of Machine Learning (AI), Digital Twins, and Reliability Engineering algorithms to analyze data, optimize maintenance processes, and improve asset reliability.

Earn Credentials for High-Demand Careers

The Asset Management Technician course at CPMD offers a fast track to valuable Maine Maritime Academy credentials and qualifications for high-demand, high-paying job opportunities.

CPMD has partnered with Milton CAT, Strategic Maintenance Solutions, and ABS Group to ensure our program is tailored to meet the critical needs of today’s workforce. By working closely with the State of Maine, we are helping address crucial workforce development challenges while providing you with the skills needed for a successful career.

Microcredentials prove to the employer that employees and potential employees have marketable skills, competencies, and experience.

This program is comprised of two 7-week courses – Introduction to Asset Management for Technicians and Advanced Asset Management for Technicians. After each course, students earn a microcredential.

Diesel Generators, Maintenance Management and Telematics Fundamentals

This course supports the following student outcomes: 

  1. The first objective of the course is to understand modern maintenance concepts applied to mechanical and power generation systems and how to manage them (field component of Enterprise Asset Management Systems). MMA plans to use the diesel generator as its foundation/backbone for the course.
  2. The second objective of the course is to provide an introductory technician course on diesel-generators and gas-engines-generators. The benefit is that this type of equipment includes mechanical and electrical functions that will help the student understand maintenance and maintenance methodologies, which are applicable in many industrial equipment and settings.
  3. Emphasis will be put on the electrical side (power generation, stand-by power, switch panels, Telematics, Remote Monitoring, and power electronics).
  4. Once this first part is completed, the student will have a fundamental understanding of the field component of Enterprise Asset Management systems,

Course Objectives: At the completion of this course, students will be able to:

  1. Describe the safety hazards present in the shop and in the field, and review workplace communications and teamwork.
  2. Have a working knowledge of diesel engine construction and associated systems.
  3. Have an overview of maintenance with an introduction to maintenance and reliability, preventative and condition-based maintenance, along diesel engine maintenance and troubleshooting fundamentals.
  4. Understand power train fundamentals and how engine power is converted to torque to drive heavy equipment. Describe hydraulic fundamentals, and hydraulic circuits and components.
  5. Describe the fundamentals of diesel power generation, electrical systems, power distribution, automatic transfer switches, UPS systems, power storage, standby power, and generator performance.
  6. Understand and describe engine control systems. Mechanical Controls, Electronic Controls, and ECMs, I/O, Emergency Systems, Modes, and Overrides. Switches, sensors, gauges.
  7. Describe field EAM elements: the hardware required for telematics and describe how it is utilized. Be aware of the various uses of telematics and the data it provides. Be familiar with the case studies demonstrating the value of telematics and remote monitoring. Be aware of new technologies such as Virtual and Augmented reality.
  8. Demonstrate assigned skill practices and complete assessments at industrial facilities and at CPMD.

Each week consists of a new 10-hour online module, followed by an online quiz upon completion.

Week 1

Shop Operations and Safe Work Practices – Safety related to: Compressed Gas and Equipment, Control of Hazardous Energy (LOTO), Electrical Safety, Fire Safety, Machine guarding, Personal Protective Equipment (PPE), Respiratory Protection, Welding, Cutting, and Brazing, the operation of lifting, rigging, blocking and safety equipment according to government safety and environmental legislation. Work Success Skills – Online Module 1 Demonstration of communication and interpersonal skills, and Team-Building skills.

Week 2

Diesel Engine Components – Cylinder Block, Crankcase and Oil Pan, Cylinder Sleeve and Bore, Straight and V-Line, Piston, and Piston Rings, Four and Two Stroke Lubrication Systems, Connecting Rod, Crankshaft, Precision Bearings, Flywheel, Cylinder Head, Intake and Exhaust Valves, Timing Gear, Camshafts and Valve Mechanism, and Blower. Engine Systems – Diesel Engine Support Systems, Engine Cooling, Engine Lubrication, Fuel System, Charging and Scavenging, Air Intake System, Turbocharging, Supercharging, Exhaust System, Operational Terminology.

Week 3

Diesel Engine Maintenance – Reliability Centered Maintenance – RCM, Preventative Maintenance – (PM) and Condition-based Maintenance –(CBM), along diesel engine maintenance and troubleshooting fundamentals.

Week 4

Diesel Engine Applications/Driven Systems Part One Mechanical Drive-Marine/Industrial/On-HighwayTransmissions and Power Takeoffs, Clutches, Pumps and Compressors, Basic Hydraulics, – Basic hydraulic calculations, Hydraulic process diagrams, Accessory Drives. Hydraulic test procedures, hydraulic hose and fitting identification, Hydraulic hose fabrication. Hydraulic system maintenance, hydraulic fluid.

Week 5

Diesel Engine Applications/Driven Systems PartTwo Electric PowerPrime Power Applications, Power Distribution, Standby Applications. Electricity and electric power overview – Generator paralleling and load sharing, electronic controls, Arc flash and electrical hazards, generator performance.

Week 6

Engine Systems and Controls – Mechanical Controls, Electronic Controls, and ECMs, I/O, Emergency Systems, Modes, and Overrides. Switches, sensors, gauges.

Week 7

Telematics – Telematics Concepts and Technologies, Remote Monitoring Systems, Basic Remote Engine monitoring and Control, Acquired Data Uses, Intro to Asset Management

The course will conclude with an onsite day of review.

Managing Assets with Today’s Intelligent and Connected Technologies

This course supports the following student outcomes:

Course 1 of the Enterprise Asset Management (EAM) course laid the essential groundwork by covering key mechanical and electrical concepts, maintenance methodologies, and the importance of telematics and remote monitoring applications.

In Course 2, students will apply Course 1 foundational knowledge to understand the EAM environments more deeply, exploring current cutting-edge technologies and best practices to prepare them for industry demands.

Industry-Relevant Curriculum:

Developed in collaboration with Strategic Maintenance Solutions (SMS), a global leader in IoT solutions and Enterprise Asset Management systems, this course reflects the real-world tools and technologies adopted by thousands of large companies across multiple industries.

Hands-On Experience with Leading Platforms

Participants will gain practical experience using Computerized Maintenance Management Systems (CMMS) and the IBM Maximo EAM platform on real-world applications, providing them with valuable skills applicable to the industry.

Soft Skills Development

In addition to technical skills, the course also emphasizes developing soft skills, helping participants collaborate effectively with co-workers, solve problems, and contribute to their company’s goals. This part of the training is an adaptation from the STCW Engine Room Resources Management (ERM) program, traditionally taught to engineering officers by CPMD.

Course Objectives: At the completion of this course, participants will be able to:

  1. Gain a more advanced understanding of predictive/prescriptive engineering and analytics and its uses in maintenance planning and optimization.
  2. Understand the principles of Reliability-Centered Maintenance (RCM), Asset Performance Management (APM), and Application Lifecycle Management (ALM) and their benefits on equipment performance, workforce impact, and overall organization objectives.
  3. Identify potential maintenance issues, understand how to predict failures, and be able to apply these maintenance concepts to their workplace.
  4. Understand how sensors and tools can be used in preventive and condition-based maintenance processes.
  5. Have a working knowledge of sensor technologies and their role in maintenance and will be able to apply this knowledge in their day-to-day work.
  6. Acquire fundamental knowledge of PLC’s (Programmable Logic Controllers),
  7. Understand the roles of IoT (Internet of Things), digital twin technologies, and machine learning in maintenance.
  8. Grasp the fundamentals of equipment remote access monitoring and its significance in proactive maintenance.
  9. Explore different communication protocols and their impact on IIoT (Industrial Internet of Things) solutions.
  10. Familiarize with tools for remote access monitoring and understand their application in diverse industrial environments.
  11. Understand security challenges in IIoT and how to ensure secure and reliable data transmission.
  12. Develop the ability to analyze IIoT-collected data and take proactive maintenance measures.
  13. Acquire a strong understanding of CMMS/EAM system fundamentals and the benefits of EAM systems in organizations.
  14. Understand key concepts/processes involved in these systems and their present and future state. Participants will also learn about best practices for CMMS/EAM implementation, including data management/analysis, key performance indicators (KPIs).
  15. Gain a strong understanding of work management principles, planning, scheduling, and work orders as part of Asset Performance Management (APM).
  16. Gain practical experience with both CMMS and Maximo systems with hands-on activities.
  17. Understand the importance of soft skills in the work environment and be able to use the information/tools provided.

Each week consists of a new 10-hour online module, followed by an online quiz upon completion.

Week 1

Maintaining & Managing Assets – Maintenance Methodologies (refresher), Fundamentals of Predictive Maintenance, Tools and Techniques, Reliability Engineering and Analytics, Reliability Centered Maintenance (RCM), Introduction to Asset Lifecycle Management (ALM) and Asset Performance Management (APM), Predictive/Reliability Engineering and APM Lab.

Week 2

Sensors and Tools for Preventive Maintenance (PM), Condition-Based Maintenance (CBM) and Predictive Maintenance (PdM) – Overview of sensors and Sensor Technologies, Types of Sensors for Maintenance, Portable CBM/PdM Test Equipment, Applications of Sensors in Preventive and Condition-Based Maintenance, Integration of sensor data with planning, Elements of Vibration Analysis, Sensor Data Evaluation for Condition-based Maintenance, Predictive Maintenance Using Sensors, Machine Learning in Maintenance, Vibration Condition Monitoring Program Overview.

Week 3

Industrial Internet of Things (IIoT) Connectivity and Remote Monitoring – Introduction to Industrial Internet of Things (IIoT) and Remote Monitoring, Selecting the Right Connectivity and Communication Protocols (note: key protocols for IIoT are RS232, Ethernet, Wi-Fi, 4G/5G, LoRaWAN, Zigbee), Tools for Implementing IIoT Solutions, IIoT Data Integration and Analysis, IIoT Cybersecurity, Best Practices for IIoT in Industry, IIoT Future and Emerging Technologies.

Week 4

Modern CMMS/EAM Systems – Genesis of CMMS/ EAM / APM, Importance of EAM in Modern Organizations, Benefits of Implementing an EAM System, Factors to Consider when Choosing an EAM/CMMS/APM, Overview of Current EAM Systems, Popular EAM System Vendors, Benefits and Limitations of Current EAM systems, Factors to Consider when Implementing an EAM System, Importance of Data Management and Analysis, Key Performance Indicators (KPIs) for EAM Systems, Steps In the Implementation Process, Common Challenges and How to Overcome Them, Overview of Future Trends in EAM Systems, Emerging Technologies in EAM Systems, Potential Impact on EAM Systems in the Future.

Week 5:

Work Management – Planning/ Scheduling / Work orders and spare parts -Principles/Overview, Assets, Work Orders, Work Order Types, Planning/Scheduling, Spares & Inventory, Work Order Execution

Week 6:

Comprehensive Introduction to Computerized Maintenance Management Systems (CMMS) and IBM Maximo – Introduction to Maximo, Navigating the Interface, Using Maximo for ALM, Work Order Management and Maximo, Preventive Maintenance (Set up PM plans, Scheduling/Executing PM, Monitoring/Analyzing PM performance), Overview of Reporting tools, Customizing Reports and Dashboards, Extracting Meaningful Insights from Data, Connecting MX with other Enterprise Systems, API Integration and Data Exchange, Best Practices for Seamless Integration, Case Studies/Practical Exercise, Hands-on Exercises in Maximo.

Week 7

Engine Room Resource Management – Soft Skills for Career Success – Leadership, Teamwork, and Interpersonal Skills, Communication and Customer Relation Skills, Work Ethic, and Motivation, Project Management, Flexibility and Adaptability, Problem-Solving and Conflict Management Skills, Critical Thinking and Attention to Detail.

Online learning materials will consist of prepared PowerPoints, related training videos, industry case studies, Caterpillar E-Learning videos and apprentice training, and other training material and related subject matter references.

Learning equipment: Students will be able to practice on a fully functioning diesel-generator and electrical panel installed at CPMD.

Materials: Working laptop with a reliable internet connection.

Attendance: This will be a hybrid class with both online material and in-person training at our Bucksport training facility, and at the workplace.

Online Content and schedule:  All materials needed for the course will be posted on Canvas. It is anticipated that the online portion of the course will take 70 hours to complete in 7 weeks.

Grading: Exams will be completed after each week. Successful completion of each weekly module is required to continue to the following week.

Exams: “Exams” will be completed on Canvas, MMA’s online learning platform.

Course Cost: $2,500 (each)

Register Now

Instructors

Rick Thornton

Rick Thornton currently works at Maine Maritime Academy’s Center for Professional Mariner Development, (CPMD), as a Course Development Specialist and Part Time Instructor. He is a 1980 graduate of Maine Maritime Academy, with a BS in Marine Engineering and a 1992 graduate of Husson College with a Master of Science Degree in Business. He retired as a Chief Engineer/Senior Maintenance Supervisor from Transocean Deepwater Drilling in 2021, after a 30-year career. During his career, he worked in the US GoM, Mexico, Brazil, along with new construction and commissioning projects in Singapore and South Korea. He lives in Holden, Maine with his wife Terri, and they have 2 grown children, and 6 grandchildren.

Jean-Yves Gourmelon

Jean-Yves Gourmelon

Jean-Yves Gourmelon is a recently retired MMA Assistant Professor of Engineering working for CPMD.

He graduated from the French National Merchant Marine Academy as a dual Unlimited 1st Class Deck Officer and Engineer (Master and Chief Engineer track) and CNAM in Paris with an MSc in Industrial Refrigeration. He sailed in deck and engineering functions on RoRo’s, container carriers, and gas tankers. His career later expanded into the manufacturing sector before transitioning to the Oil & Gas industry, where he worked for a Houston-based Offshore Support Vessel company. He concluded his professional journey in the industry as Regional Technical Manager for the Americas & Sub-Saharan Africa.

During his career, he had extended assignments in Mexico, Australia, and Brazil, with missions across West Africa, the UAE, and various other countries.

Throughout his career, Jean-Yves has consistently focused on asset management, an area of enduring interest and expertise.

Join the Revolution in Asset Management

Prepare to be a part of the future. With a focus on intelligent maintenance, advanced technologies, and industry-aligned credentials, our program is designed to help you get ahead in a rapidly evolving industry.

Enroll in CPMD’s Asset Management Technician program and become a leader in the smart maintenance and operations revolution.

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