The Maintenance Planning and Reliability Engineering course in Madrid is designed to provide professionals with the tools and knowledge to optimize maintenance strategies and improve asset reliability.
From:
06-04-2026
Course Overview
Maintenance and reliability are critical for reducing downtime, extending asset life, and improving operational efficiency. Effective planning, supported by engineering tools and data-driven strategies, ensures safe, reliable, and cost-effective operations across industries.
This course covers maintenance frameworks, reliability engineering principles, failure analysis, predictive maintenance, and optimization of asset management strategies. Participants will gain practical skills to design proactive maintenance programs and implement reliability-centered solutions.
At EuroQuest International Training, the course combines technical depth, global best practices, and hands-on exercises to ensure participants can strengthen both planning and reliability in their organizations.
Key Benefits of Attending
Master frameworks for maintenance planning and scheduling
Apply reliability engineering tools to improve asset performance
Use predictive maintenance to reduce downtime and costs
Strengthen safety and compliance in operations
Drive operational excellence through optimized asset strategies
Why Attend
This course enables professionals to maximize asset availability and reliability, ensuring organizations achieve efficiency, cost control, and long-term competitiveness.
Course Methodology
Expert-led lectures on planning and reliability frameworks
Case studies from manufacturing, energy, and oil & gas sectors
Hands-on labs using reliability engineering tools
Group exercises on predictive maintenance planning
Simulations of maintenance and risk scenarios
Course Objectives
By the end of this ten-day training course, participants will be able to:
Define best practices in maintenance planning and scheduling
Apply reliability engineering methods (RCM, FMEA)
Develop proactive maintenance strategies for critical assets
Optimize spare parts, inventory, and resource planning
Implement predictive and condition-based maintenance systems
Analyze root causes of equipment failures
Strengthen compliance with international standards
Use KPIs to measure maintenance and reliability performance
Leverage digital tools for asset management
Manage costs while improving availability and reliability
Drive continuous improvement in maintenance operations
Build resilience in asset-heavy organizations
Target Audience
Maintenance and reliability engineers
Operations and plant managers
Asset management professionals
Industrial and mechanical engineers
Executives overseeing operations and maintenance functions
Target Competencies
Maintenance planning and scheduling
Reliability-centered maintenance (RCM)
Failure modes and effects analysis (FMEA)
Predictive and condition-based maintenance
Root cause failure analysis
Asset performance management
Operational risk management
Course Outline
Unit 1: Introduction to Maintenance and Reliability
Role of maintenance in asset management
Reliability engineering fundamentals
Global standards and best practices
Case studies of maintenance strategies
Unit 2: Maintenance Planning and Scheduling
Principles of planning and scheduling
Work order management systems
Resource and spare parts planning
Tools for effective scheduling
Unit 3: Reliability-Centered Maintenance (RCM)
Defining and implementing RCM
Criticality analysis for equipment
Balancing preventive and predictive maintenance
Practical workshop on RCM application
Unit 4: Failure Analysis and FMEA
Failure modes and effects analysis principles
Fault tree analysis (FTA)
Root cause failure analysis (RCFA)
Case studies of major failures
Unit 5: Predictive and Condition-Based Maintenance
Vibration, oil, and thermal analysis techniques
IoT and sensor-based monitoring
Predictive analytics for maintenance
Practical labs on predictive maintenance tools
Unit 6: Asset Performance and Optimization
Key performance indicators for maintenance
Reliability and availability metrics
Life cycle cost analysis
Optimization models for asset performance
Unit 7: Spare Parts and Inventory Management
Spare parts criticality assessment
Stock optimization strategies
Linking inventory with reliability goals
Best practices in supply chain for maintenance
Unit 8: Digitalization in Maintenance and Reliability
Role of CMMS and EAM systems
Digital twins in maintenance planning
AI and machine learning for predictive reliability
Industry 4.0 applications
Unit 9: Safety, Compliance, and Risk Management
Maintenance and HSE integration
Regulatory compliance frameworks
Risk management in reliability engineering
Case studies of compliance and safety
Unit 10: Cost Management in Maintenance
Budgeting for maintenance programs
Cost-benefit analysis of maintenance strategies
Linking costs to performance outcomes
Lean practices in maintenance
Unit 11: Continuous Improvement and Benchmarking
Applying Six Sigma in maintenance
Benchmarking against global leaders
Lessons from world-class reliability programs
Building a culture of improvement
Unit 12: Capstone Maintenance and Reliability Project
Group-based reliability strategy design
Developing a predictive maintenance roadmap
Presenting plans to stakeholders
Action roadmap for organizational adoption
Closing Call to Action
Join this ten-day training course to master maintenance planning and reliability engineering, ensuring your organization reduces downtime, improves efficiency, and optimizes asset performance.
The Maintenance Planning and Reliability Engineering Training Courses in Madrid offer professionals a comprehensive foundation in the methods, tools, and strategic practices required to enhance asset performance, minimize downtime, and ensure long-term operational reliability. As industries increasingly depend on complex equipment and continuous operations, effective maintenance planning and reliability engineering have become critical components of organizational success. These programs are designed for maintenance managers, reliability engineers, operations supervisors, planners, and technical specialists seeking to strengthen their ability to develop and implement robust maintenance strategies.
Participants explore the core principles of maintenance planning, including preventive and predictive maintenance, work order management, resource allocation, spare parts optimization, and computerized maintenance management systems (CMMS). The courses emphasize structured maintenance processes that improve efficiency, enhance asset availability, and reduce lifecycle costs. Through hands-on exercises, real-world case studies, and analytical assessments, attendees gain practical experience planning maintenance activities and optimizing maintenance workflows.
These reliability engineering training programs in Madrid also cover advanced tools and methodologies such as reliability-centered maintenance (RCM), failure modes and effects analysis (FMEA), root cause analysis (RCA), and reliability modeling. Participants learn how to evaluate failure patterns, monitor asset health, and implement reliability strategies that improve system resilience and operational performance. The curriculum integrates technical depth with strategic planning, ensuring participants can align maintenance initiatives with organizational objectives and long-term asset management goals.
Attending these training courses in Madrid provides a dynamic and collaborative learning environment enriched by expert instructors and international perspectives. The city’s strong engineering and industrial networks create an ideal setting for discussing emerging maintenance technologies, digital monitoring solutions, and global best practices in reliability engineering. By completing this specialization, professionals will be equipped to enhance asset performance, implement effective maintenance programs, and support reliable, efficient, and sustainable operations across a wide range of industrial sectors.