Certified Maintenance & Reliability Professional (CMRP)

Ahmed D., PHD, CMRP, CRE, PE.
Introduction

Become recognized as a maintenance and reliability professional by attaining internationally recognized certification from the respectable and recognized certifying body Society of Maintenance and Reliability Professionals (SMRP).

Achieving CMRP Certification allows you to validate your knowledge and experience in a recognized and documented manner, as well as opens doors to endless possibilities within your organization or any world-class organization.


Course Overview

The CMRP certification is built on the principle of combined work experience and coursework in maintenance, reliability, and asset management.

The requirements set forth by the Society of Maintenance and reliability professionals (SMRP) the certifying body for the CMRP, follow the below CMRP Body of Knowledge (BOK).

  • Pillar 1: Business and Management
  • Pillar 2: Manufacturing Process Reliability
  • Pillar 3: Equipment Reliability
  • Pillar 4: Organization & Leadership
  • Pillar 5: Work Management

 

DAY 1 - Manufacturing Process Reliability

This subject area relates maintenance and reliability activities to the manufacturing process of the organization to ensure that maintenance and reliability activities improve the manufacturing process.

1.1 Understand the applicable processes
  • Document process flow
  • Understand process parameters
  • Understand quality specifications
1.2 Apply process improvement techniques
  • Identify production losses
  • Establish a continuous improvement process
1.3 Manage the effects of the change to processes and equipment
  • Establish change protocol
  • Update documentation
  • Update procedures
1.4 Maintain processes in accordance with applicable standards and regulations
  • Understand industry standards
  • Understand regulatory requirements
  • Ensure compliance

DAY 2 - Equipment Reliability

This subject area describes two activities that apply to the equipment and processes for which the maintenance engineers and reliability engineers are accountable. First, are those activities used to assess the current capabilities of the equipment and processes in terms of their reliability, availability, maintainability, and criticality? Second, are the activities used to select and apply the most appropriate maintenance practices, so that the equipment and processes continue to deliver their intended capabilities in the safest and most cost-effective manner.

2.1 Determine equipment reliability expectations
  • Identify reliability goals
  • Identify process expectations
Evaluate equipment reliability and identify improvement opportunities
  • Measure and track performance
  • Determine best-demonstrated performance
  • Analyze gaps
2.3 Establish a strategic plan to assure the reliability of existing equipment 2.4 Establish a strategic plan to assure the reliability of new equipment
  • Establish reliability specifications
  • Establish acceptance criteria
  • Obtain complete documentation
2.5 Cost-justify selected plans for implementation
  • Conduct cost-benefit analysis
  • Communicate benefits
  • Obtain approval
2.6 Implement selected plans to assure equipment reliability
  • Apply reliability strategies
  • Establish organization structure
  • Provide resources
2.7 Review the reliability of equipment and adjust the reliability strategy
  • Assess key performance indicators
  • Analysis deviations
  • Identify relevant best practices
  • Implement continuous improvement
  • Case Study/Exercise: Develop a criticality structure, and conduct criticality ranking.

DAY 3 - Work Management

This subject area focuses on the skills used to get the maintenance and reliability work done. It includes planning and scheduling activities, quality assurance of maintenance activities, stores, and inventory management.

3.1 Identify, validate, and approve work
  • Establish work identification processes
  • Select and approve viable work
3.2 Prioritize work
  • Develop a formal prioritizing system
  • Implement a formal prioritizing system
3.3 Plan work
  • Develop job package
  • Including scope and procedures
  • Including materials and tools
  • Including testing
3.4 Schedule work
  • Develop scheduling process
  • Produce work schedule
  • Balance resources
  • Monitor backlog
  • Manage break-in work
3.5 Execute work
  • Manage labor
  • Manage material and services
  • Control Productivity
  • Ensure EHS compliance
3.6 Document work
  • Create post work document process
  • Record failure events and failure modes
3.7 Analyze work and follow-up
  • Compare actual work with a plan
  • Identify variances
3.8 Measure work management performance
  • Establish performance indicators
  • Report schedule compliance and rework
3.9 Plan and execute projects
  • Define scope
  • Estimate project and life cycle costs
  • Apply critical path methods
  • Track progress
  • Coordinate staffing
3.10 Use information technologies effectively
  • Leverage capabilities of data historian
  • Process control systems
  • Condition monitoring software
  • EAM, CMMS systems functionality
3.11 Manage resources and materials
  • Control materials inventory
  • Manage spares and equipment
  • Establish the MRO procurement process
  • Manage contractors
  • Reliability Centered Maintenance
  • Failure Mode Effects Analysis
  • Criticality Analysis
  • Pm Optimization
  • Root Cause Analysis
  • Reliability Engineering
  • Capital Project Management
  • Vibration Analysis
  • Ultrasound Testing
  • Alignment and Balancing
  • Motor Testing
  • Machinery Lubrication
  • Case Study/Exercise: Conducting FMEA study followed by criticality-based task selection
  • Non Destructive Testing
  • Infrared Thermal Imaging
  • Asset Condition Information
  • Oil Analysis
  • Preventive Maintenance
  • Planning and Scheduling
  • Operator Driven Reliability
  • MRO Spares Management
  • Defect Elimination
  • Computerized Maintenance Management
  • Systems (CMMS)
  • Operational Excellence
  • Key Performance Indicators
  • Physical Asset Management
  • Human Capital Management
  • Integrity
  • Competency-Based Learning
  • Executive Sponsorship

DAY 4 - Organization and Leadership

This subject area describes processes for assuring that the maintenance and reliability staff is the most qualified and best assigned to achieve the maintenance and reliability organization goals.

4.1 Determine organizational requirements
  • Review strategic plan
  • Determine required skills
  • Determine required staffing levels
4.2 Analyze organizational capability
  • Inventory staff skills
  • Determine performance gaps
4.3 Develop the organizational structure
  • Establish reporting channels
  • Determine roles
  • Determine responsibilities
  • Manage reorganization
4.4 Develop personnel
  • Provide training
  • Obtain needed expertise
  • Delineate career paths
4.5 Lead and manage people
  • Develop leadership skills
  • Assess performance
  • Promote a cooperative work environment
  • Facilitate communication
  • Case Study/Exercise: Developing the appropriate management structure to assign and manage these tasks as well as follow up and track

DAY 5 - Business and Management

This subject area describes the skills used to translate an organization’s business goals into appropriate maintenance and reliability goals that support and contribute to the organization’s business results.

5.1 Create Strategic direction and plan for M&R operations
  • Provide vision and direction
  • Provide clear and measurable goals
5.2 Administer Strategic plan
  • Develop support
  • Obtain approval and resources
  • Implement plans
5.3 Measure Performance
  • Select key performance indicators
  • Track and report
5.4 Manage organizational plan
  • Develop a change management process
  • Communicate benefits
5.5 Communicate with stakeholders
  • Provide management reports
  • Inform staff
  • Coordinate with operations
5.6 Manage environmental-health-safety risk
  • Support community EHS goals
  • Support security goals
  • Conform to applicable regulations
  • Provide EHS training
  • Case Study/Exercise: Performing basic data analytics using exponential and Weibull distributions

What is CMRP Certified Maintenance and Reliability Professional training course objective?

Global players in almost every industry prefer if not require their staff and or potential talent to be able to hit the ground running and it is becoming more of a common practice for them to request their employees or potential talent pool to achieve certification as a certified maintenance and reliability professional CMRP through the SMRP certifying body.

Who should join Certified Maintenance Reliability Professional training course by PetroSync?

  • Maintenance and Reliability Professionals
  • Production/Operations Professionals
  • Senior Engineering, Maintenance, and Reliability Managers

Ahmed D., PHD, CMRP, CRE, PE.

Asset Managemenet Expert

Ahmed is the CEO and President of Operational Excellence Experts Consultant and Training with 20 years experiences in asset management, technical asset integrity management, asset management, maintenance and reliability. Ahmed is a Member on several committees of the ISO 55000 standard development. He is Founder and Chairman of the board of the Egyptian Society for Asset Management Professionals. Ahmed Developed Reliability Departments and consulting divisions for GE (Bentley Nevada), Meridium, SKF in Middle East and Africa as well as several customer companies

Position and Credentials:

  • Certified through the Institute of Asset Management (UK) as organization preparation facilitator / service provider respectively for the ISO 55000 (Asset Management) and ISO 31000 (Risk Management) standards.
  • Certified Maintenance & Reliability Professional (CMRP)
  • Certified Reliability Engineer (CRE)
  • Certified vibration analyst level 1 (BINDT)
  • Certified ultrasonic testing specialist (BINDT)
  • Certified Oil Analyst 3 and lubrication program developer (NOREA)
  • Certified Instructor (OSHA (Several areas))
  • Certified Investigator (Taproot)
  • Certified Fire Investigator (OSHA)
  • Certified Thermographic Imaging analyst 3 (FLIR)
  • Certified RCM Facilitator (SKF / Aladon)
  • Certified RBI Specialist and Inspection program developer (API) (API 580, 581, 570, 510)
  • Certified Facilitator (GE)
  • Certified Presenter and Public Speaker (GE)

  • Code PST0430-202405
  • Start Date 18 Nov, 2024
  • End Date 22 Nov, 2024
  • Locations Kuala Lumpur, Malaysia
  • Cost USD 3350
  • Code PST0430-202406
  • Start Date 25 Nov, 2024
  • End Date 29 Nov, 2024
  • Locations Bandung, Indonesia
  • Cost USD 3350
  • Code PST0430-202407
  • Start Date 02 Dec, 2024
  • End Date 06 Dec, 2024
  • Locations Bali, Indonesia
  • Cost USD 3550
  • Code PST0430-202401
  • Start Date 26 Feb, 2024
  • End Date 01 Mar, 2024
  • Locations Kuala Lumpur, Malaysia
  • Cost USD 3350
  • Code PST0430-202402
  • Start Date 13 May, 2024
  • End Date 17 May, 2024
  • Locations Kuala Lumpur, Malaysia
  • Cost USD 3350
  • Code PST0430-202403
  • Start Date 24 Jun, 2024
  • End Date 28 Jun, 2024
  • Locations Bandung, Indonesia
  • Cost USD 3350
  • Code PST0430-202404
  • Start Date 01 Jul, 2024
  • End Date 05 Jul, 2024
  • Locations Bandung, Indonesia
  • Cost USD 3350
  • Code PST0430-202301
  • Start Date 30 Jan, 2023
  • End Date 03 Feb, 2023
  • Locations Kuala Lumpur, Malaysia
  • Cost USD 2950
  • Code PST0430-202302
  • Start Date 22 May, 2023
  • End Date 26 May, 2023
  • Locations Kuala Lumpur, Malaysia
  • Cost USD 2950
  • Code PST0430-202303
  • Start Date 24 Jul, 2023
  • End Date 28 Jul, 2023
  • Locations Jakarta, Indonesia
  • Cost USD 3250
  • Code PST0430-202304
  • Start Date 11 Sep, 2023
  • End Date 15 Sep, 2023
  • Locations Bandung, Indonesia
  • Cost USD 3250
  • Code PST0430-202305
  • Start Date 30 Oct, 2023
  • End Date 03 Nov, 2023
  • Locations Kuala Lumpur, Malaysia
  • Cost USD 3250
  • Code PST0430-202306
  • Start Date 20 Nov, 2023
  • End Date 24 Nov, 2023
  • Locations Kuala Lumpur, Malaysia
  • Cost USD 3250
  • Code PST0430-202307
  • Start Date 04 Dec, 2023
  • End Date 08 Dec, 2023
  • Locations Bali, Indonesia
  • Cost USD 3450
   Upcoming Training
Code Start Date End Date Locations Cost Instructor
PST0430-202405 18 Nov, 2024 22 Nov, 2024 Kuala Lumpur, Malaysia USD 3350 Ahmed D., PHD, CMRP, CRE, PE.
PST0430-202406 25 Nov, 2024 29 Nov, 2024 Bandung, Indonesia USD 3350 Ahmed D., PHD, CMRP, CRE, PE.
PST0430-202407 02 Dec, 2024 06 Dec, 2024 Bali, Indonesia USD 3550 Ahmed D., PHD, CMRP, CRE, PE.
   Past Training
Code Start Date End Date Locations Cost Instructor
PST0430-202401 26 Feb, 2024 01 Mar, 2024 Kuala Lumpur, Malaysia USD 3350 Ahmed D., PHD, CMRP, CRE, PE.
PST0430-202402 13 May, 2024 17 May, 2024 Kuala Lumpur, Malaysia USD 3350 Ahmed D., PHD, CMRP, CRE, PE.
PST0430-202403 24 Jun, 2024 28 Jun, 2024 Bandung, Indonesia USD 3350 Ahmed D., PHD, CMRP, CRE, PE.
PST0430-202404 01 Jul, 2024 05 Jul, 2024 Bandung, Indonesia USD 3350 Ahmed D., PHD, CMRP, CRE, PE.
PST0430-202301 30 Jan, 2023 03 Feb, 2023 Kuala Lumpur, Malaysia USD 2950 Ahmed D., PHD, CMRP, CRE, PE.
PST0430-202302 22 May, 2023 26 May, 2023 Kuala Lumpur, Malaysia USD 2950 Ahmed D., PHD, CMRP, CRE, PE.
PST0430-202303 24 Jul, 2023 28 Jul, 2023 Jakarta, Indonesia USD 3250 Ahmed D., PHD, CMRP, CRE, PE.
PST0430-202304 11 Sep, 2023 15 Sep, 2023 Bandung, Indonesia USD 3250 Ahmed D., PHD, CMRP, CRE, PE.
PST0430-202305 30 Oct, 2023 03 Nov, 2023 Kuala Lumpur, Malaysia USD 3250 Ahmed D., PHD, CMRP, CRE, PE.
PST0430-202306 20 Nov, 2023 24 Nov, 2023 Kuala Lumpur, Malaysia USD 3250 Ahmed D., PHD, CMRP, CRE, PE.
PST0430-202307 04 Dec, 2023 08 Dec, 2023 Bali, Indonesia USD 3450 Ahmed D., PHD, CMRP, CRE, PE.
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