Report to the Discipline Engineers Team Lead and work under his overall supervision and directions.
The reliability engineer is responsible for adhering to the life cycle asset management (LCAM) process throughout the entire life cycle of new assets.
Guides efforts to ensure reliability and maintainability of equipment, processes, utilities, facilities, controls and safety/security systems.
Develops engineering solutions to repetitive failures and all other problems that adversely affect plant operations. These problems include capacity, quality, cost or regulatory compliance issues. To fulfil this responsibility, the reliability engineer applies:
Data analysis techniques that can include:
Statistical process control;
Reliability modelling and prediction;
Fault tree analysis;
Weibull analysis;
Six Sigma (6σ) methodology;
Root cause analysis (RCA) and root cause failure analysis (RCFA),
Failure reporting, analysis and corrective action system (FRACAS).
Professionally and systematically defines, designs, develops, monitors and refines an asset maintenance plan that includes value-added preventive maintenance tasks.
Effective utilization of predictive and other non-destructive testing methodologies designed to identify and isolate inherent reliability problems.
Provides technical support to production, maintenance management and technical personnel.
Applies value analysis to repair/replace, repair/redesign and make/buy decisions.
Monitor plant/equipment trends to ensure the best possible operation and reduction of planned/unplanned downtime.
Propose and monitor key performance indicators in accordance with the Best Maintenance Practices.
reduce technical stoppages in equipment or areas of common occurrence (priority given to areas of the highest incidence or impact). Ensure the systematic review of all line, processes, and utilities that are critical to the business and those where failure can have an unacceptable impact on safety, personnel safety, food safety, environment, or compliance with the law.
Encourage close teamwork between all functions.
Ensure the implementation of all repairs/modifications resulting from Gap assessments, plant audits, and notifications and loss improvement activities.
Ensure that the equipment history, damage code and root cause analysis are completed correctly and analysed regularly for trends.
Update/Optimize Reliability Engineering tools and guidelines, to minimize unplanned and Planned Downtime, ensure a common approach, administration, and training.
Facilitate the evolution/refinement of Maintenance activities to minimize planned and unplanned downtime (PM’s, changeovers, etc.).
This position also requires working knowledge of TPM-PM, Downtime Recording Systems and SAP-PM, and broad experience in multiple Engineering and Maintenance positions. Willingness to embrace new technologies, analysis techniques, and lead improvements is also required.
Benchmarks equipment reliability performance against industry metrics.
Identifies equipment deficiencies using statistical report data measuring site equipment performance.
Reviews and analyses existing predictive and preventive maintenance tasks and schedules to ensure optimal use of manpower and equipment.
Lead the site condition monitoring and predictive maintenance program to enhance mechanical integrity.
Develop processes, policies and procedures for maintenance and plant engineering.
Rationalize PM schedules based on need and sound engineering practice.
Leads component failure analysis program.
Provides technical expertise and coaching to implement prevention methods.
Root-cause and Root-cause Failure Analysis (RCA, RCFA).
Creates Equipment Reliability Strategies based upon Top Opportunity List, Critical Equipment List, and identified plant/business needs.
Validates Electronic Recording and Reporting System (ERS) implementation and closes gaps to improve/sustain reliability improvement.
Evaluates effectiveness of individual aspects of the PPM program by showing quantitatively the impact of failures and Predictive Preventive Maintenance (PPM).
Optimizes PPM activities, on an on-going basis, to support overall productivity improvements.
Develops and maintains, as requested, a model that identifies the unit operations, equipment, process, etc. that identifies the value of opportunities for improvement.
Uses reliability engineering principles and tools (Weibull, RCI, FMEA) to identify and eliminate negative reliability trends and equipment performance.
Participates in plant health study and efforts to implement corrective action to maintain or improve plant health.
Develops and implements the Facility Reliability Strategy.
Serves as RCI Team Leader with proven RCI skills, coaches others in RCI facilitation and ensures strong RCI/CAPA fundamentals are practiced within the unit.
Provides front end loading support for plant Turnarounds.
Provide input and guidance to other engineers, technicians, and plant personnel on critical Reliability Principles, Predictive and Preventive Maintenance Strategies, and Operating Principles of common rotating and fixed equipment.
Identify, Plan, and Execute component-level Reliability Improvement Projects as necessary to incrementally improve plant performance.
Support the plant-wide lubrication program and work to continuously improve the program by implementing industry best practices.
Review engineering specifications/drawings and propose design modifications to improve reliability within cost and other performance requirements.
Oversee/interact with maintenance regarding maintenance repairs, repair plans, equipment installation, quality assurance requirements, etc.
SAP PM Key user- responsible for work management business process and new enhancements, custodian of the existing CMMS functionality, to ensure that all functions and processes are working in a good manner.
Ensuring compliance with health and safety legislation.
SPA for maintaining MTBF equipment.
Accountable to track and develop way forward to investigate and rectify failure of equipment.
Monitor and track top 10 bad actors of major equipment.
Namizədə tələblər
Minimum 5 years of hands-on verifiable experience in rotating and static equipment at manufacturing facility (chemical industry preferred), Engineering and/or Maintenance, Reliability and Manufacturing field with direct experience in leading and engaging technicians with equipment modifications and improvements in a production and/or manufacturing environment. TPM experience, Maintenance Planning and/or supervision a plus.
Bachelor’s and/or master’s degree in engineering (Industrial, Mechanical, Electrical, Process, Chemical or equivalent) strongly preferred or equivalent work experience and relevant certifications (i.e., SMRP, CMRP and ICML certification desired or willingness to complete in 12 months).
Advanced knowledge of Azerbaijani, English & Russian
Recognized skills in Engineering and Maintenance.
Knowledge, understanding, and passion for continuous improvement methodologies.
Knowledge and understanding of the cost drivers of Maintenance in manufacturing operations.
Good working knowledge of CMMS systems (SAP preferred) with the ability to mine and analyze data for trends/reports.
Knowledge of the different crafts skills, duties, and capabilities.
Knowledge of Process Safety Management (PSM).
Knowledge of mechanical and electrical systems, preventive and predictive maintenance technologies, and condition monitoring and fixed time maintenance strategies.
Familiarity with Non-Destructive Testing methods.
Working within a Computerized Maintenance Management System (CMMS).
Willingness to be available and on call 24/7 as needed due to business conditions.
Other preferred skills.
Familiarity with international standards such as API510&570&653, ASMEB31.1&B31.3, NBIC, NACESP0294.
Working with Highly Hazardous Chemicals/High Hazard Process.
Manufacturing experience which includes exposure to Safety, Health, Environment, Quality, Maintenance and Continuous Improvement systems and tools.
Root Cause Failure Analysis and Incident investigations