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#hiring Reliability Engineer - Maintenance & Trend Analysis - St. Louis, with Security Clearance, Saint Louis, United States, fulltime #jobs #jobseekers #careers #SaintLouisjobs #Missourijobs #ITCommunications Apply: https://lnkd.in/gCmKsJhc Reliability Engineer - Facilities Maintenance & Trend Analysis As Reliability Engineer specializing in Maintenance and Trend Analysis, you will be responsible for overseeing and optimizing the maintenance processes, analyzing trends in equipment performance, and implementing strategies to enhance reliability. You will work closely with facilities maintenance teams, operations, and other stakeholders to ensure that our equipment operates efficiently, minimizes downtime, and extends its operational life. The successful candidate will play a critical role in ensuring the reliability and efficiency of our systems and equipment through comprehensive analysis and strategic maintenance planning. If you possess a strong background in engineering principles, coupled with a keen analytical mindset and a passion for optimizing performance, we invite you to apply for this exciting opportunity. Key Responsibilities: Maintenance Planning & Execution Develop and implement maintenance strategies that maximize equipment reliability and minimize downtime. Schedule and coordinate routine maintenance activities to ensure minimal disruption to operations. Evaluate and improve preventive maintenance plans and procedures. Maintenance Planning and Execution: Develop and implement proactive maintenance strategies to maximize the reliability and longevity of assets, equipment, and systems. Collaborate with maintenance teams to ensure timely execution of scheduled maintenance activities. Ensure all equipment is being maintained in accordance with OEM requirements and industry standards. Trend Analysis: Collect and analyze data on equipment performance, failure rates, and maintenance costs. Identify trends and patterns in equipment behavior to proactively address potential issues. Utilize predictive maintenance tools and technologies to forecast equipment failures. Utilize advanced data analysis techniques to identify trends and patterns in equipment performance, reliability, and failure rates. Analyze historical data to predict and prevent potential equipment failures and downtime. Conduct thorough root cause analysis investigations to identify the underlying causes of equipment failures and reliability issues. Develop and implement corrective actions to address root causes and prevent recurrence. Maintain the project's Trend analysis program as required by the customer. Root Cause Analysis: Conduct root cause analysis of equipment failures to determine the underlying issues. Recommend and implement corrective actions to prevent recurring problems. Collaborate with cross-functional teams to address systemic is

Career progression for a maintenance engineer can vary depending on the industry, company size, and individual career goals, but here's a general outline of how it might evolve with experience: 1-3 Years: Entry-Level Maintenance Engineer Role: Learn the basics of equipment maintenance, troubleshooting, and repair. Responsibilities: Perform routine maintenance tasks, assist senior engineers, and respond to equipment breakdowns. Skills Development: Gain hands-on experience, become familiar with maintenance management systems, and develop technical problem-solving skills. 4-6 Years: Mid-Level Maintenance Engineer Role: Take on more complex tasks and responsibilities. Responsibilities: Lead maintenance projects, oversee preventive maintenance programs, and analyze equipment performance data. Skills Development: Develop leadership skills, project management abilities, and a deeper understanding of systems and machinery. 7-10 Years: Senior Maintenance Engineer Role: Manage larger projects and mentor junior engineers. Responsibilities: Oversee maintenance teams, implement advanced maintenance strategies, and ensure compliance with safety regulations. Skills Development: Enhance strategic planning skills, gain experience in budget management, and refine troubleshooting techniques. 11-15 Years: Maintenance Engineering Manager / Lead Engineer Role: Lead the maintenance department or team. Responsibilities: Develop and manage maintenance policies, budget allocation, and strategic planning. Ensure team effectiveness and equipment reliability. Skills Development: Strengthen leadership and management skills, focus on cost management, and develop expertise in long-term planning and resource allocation. 15+ Years: Maintenance Director / Chief Engineer Role: Oversee multiple teams or entire maintenance departments at a higher level. Responsibilities: Develop and execute long-term maintenance strategies, oversee major projects, and align maintenance goals with overall business objectives. Skills Development: Focus on high-level strategic planning, organizational leadership, and cross-departmental collaboration. Beyond 20 Years: Executive or Specialized Roles Role: Transition into executive management or specialized technical roles. Responsibilities: May involve roles such as VP of Operations, Director of Engineering, or specialized consultancy. Focus on enterprise-wide strategies, policy development, and industry innovation. Skills Development: Enhance executive leadership skills, strategic vision, and industry-specific expertise. Throughout your career, pursuing further education, certifications (like PMP, Six Sigma, or specific technical certifications), and staying current with industry trends can enhance your career progression. Networking and continuous learning are key to advancing in this field.

Reliability engineers play an essential role in creating highly reliable products that operate trouble-free throughout their useful life. Maintenance Reliability Engineers are responsible for identifying bad actors, conducting RCM studies, and providing inputs for decision-making stages related to asset life cycles. They also participate in the development of design and installation specifications and ensure effective utilization of applicable predictive and non-destructive tests to identify and isolate inherent reliability problems. If you're looking for a detail-oriented engineer to help you maintain cost reduction and improve product reliability, consider hiring a Maintenance Reliability Engineer. #reliabilityengineering #reliability

Are Maintenance Engineers in Demand? Yes, maintenance engineers are generally in demand. Industries such as manufacturing, energy, and facilities management rely on these professionals to ensure the smooth operation of machinery and equipment. The demand for maintenance engineers stems from the ongoing need to prevent breakdowns, conduct regular inspections, and optimize the performance of critical systems. As industries continue to grow and technology advances, the demand for skilled maintenance engineers remains steady, making it a field with promising career opportunities. In line with present needs, there is an anticipated 8% growth in the number of maintenance engineers from 2020 to 2030. This translates to an average of approximately 152,300 job openings each year during this period, as reported by The Better Business Bureau.

Good opportunity here

Top 5 Reasons Maintenance Process Maps are Required High-level maintenance process maps aretools that guide the process from start to finish. While there may be a need for specific steps for certain tasks, a high-level map serves as a baseline or foundation. Maintenance Processes are required to ensure everyone is performing work the same way every time. Failure Reporting, Analysis, and Corrective Action System Process High-level maintenance process maps aretools that guide the process from start to finish. While there may be a need for specific steps for certain tasks, a high-level map serves as a baseline or foundation. Maintenance Processes are required to ensure everyone is performing work the same way every time. Maintenance and Reliability Process Map Proactive Maintenance Process Map (Source: Rules of Thumb for Maintenance and Reliability Engineers) by Ricky Smith CMRP, CRL and Keith Mobley 2. Process maps should be defined to ensure continuous improvement is practical and effective. Proactive Maintenance Process 3. All Stakeholders should be involved in creating Process Maps Maintenance Manager Maintenance and Reliability Engineers Maintenance Supervisors Maintenance Planners Senior Maintenance Technicians Storeroom Leadership 4. Adjust process maps as needed to improve your process or processes. 5. Apply Known Process Mapping Symbols to ensure everyone understands the symbols.

MAINTENANCE ENGINEERING AND MANAGEMENT #maintenanceengineering #engineering #maintenancemanagement #management

Intelligent Maintenance approach leads to the Optimal zone. It’s not prudent for the maintenance manager to strive for 100% planned maintenance. Ideally, an organization should have minimum 85% planned maintenance activities than unplanned. Mature Engineering management understands how to determine the best mix of preventive maintenance, predictive maintenance, proactive repairs, and run-to-failure approaches. #RELIABILITY_CENTERED_MAINTENANCE #RELIABILITY

10 Essential Skills for An Operations Engineer 1. Operational Management: Proficient in overseeing and managing day-to-day operations of power plants. 2. Troubleshooting: Skilled in identifying and resolving operational issues efficiently. 3. Safety Compliance: Knowledgeable about safety protocols and ensuring compliance with industry regulations. 4. Maintenance Planning: Expertise in planning and executing maintenance activities to ensure optimal plant performance. 5. Process Optimization: Ability to analyze and improve processes to enhance overall plant efficiency. 6. Team Collaboration: Effective collaboration with cross-functional teams to achieve operational goals. 7. Emergency Response: Preparedness and quick response to emergencies, ensuring minimal downtime. 8. Data Analysis: Utilizing data analysis tools to monitor plant performance and identify areas for improvement. 9. Technical Aptitude: Proficient in understanding and operating complex machinery and equipment within power plants. 10. Continuous Learning: Commitment to staying updated on the latest industry trends, technologies, and best practices.