Maintenance Reliability Engineer (214710) MSEE, BSEE, CMRP / Chemical, Pulp/Paper / Will relo
Highly skilled Reliability Engineer / Leader who has an EIT-Engineer in Training Certification; a CMRP – Certified Maintenance Reliability Professional Certification and a Masters and Bachelors in Electrical Engineering. His expert-level experience in reliability engineering for manufacturing operations, power generation, protection, and instrumentation makes him a must-interview candidate for you. I could go on, but the resume details say it all. . He is single and willing to relocate for the right permanent role opportunity!!! His exceptional experience includes:
• Responsible for leading a team of 70 maintenance technicians, supervisors, and managers through strategic and tactical execution of reliability-centered maintenance strategies, identifying, and developing proactive maintenance strategies for assets to increase plant productivity.
• Provided support for the electrical infrastructure and power systems across GP facilities as part of a team that concentrated on sharing knowledge and guidance of electrical power system protection, control, and health monitoring.
• Managed the installation, maintenance, repair, and testing of a wide range of electrical equipment such as protective relaying, critical power systems, generators, motors, transformers, control panels, cables, temporary power equipment, and associated MCC and switchgear in the plant.
• Lead root cause analysis (RCA) to evaluate the causes of equipment failures; recommending and implementing corrective actions to prevent future failures through the facilitation of root cause analysis of the electrical distribution system and equipment failures, implementing corrective action using effective diagnostic tools and root cause analysis.
• Developed key asset strategies for motors, drives, PLCs, various instrumentation devices, transformers, rectifiers, capacitor banks, and MCCs, monitoring oil analysis, room corrosion and airflow, and motor brushes on DC synchronous motors performance daily.
• Responsible for creating electrical protection, control, and physical layout design deliverables. including performing power system modeling and arc flash hazard analysis.
• Directly responsible for the development and implementation of reliability center maintenance applications, design, and documentation of all electrical infrastructure within Substations’ medium and high voltage distribution and transmission systems.
• Responsible for the overall detailed design of reliable equipment installation, circuit breakers, reclosers, fuses, switches, switchgear, transformers, and other major and ancillary substation equipment.
Interfaced with area Maintenance Engineers and provide power distribution engineering support for all aspects of manufacturing including coordination of medium voltage and low voltage PMs for 3 substations
• Managed the installation, maintenance, repair, and testing of a wide range of electrical equipment such as protective relaying, critical power systems, generators, motors, transformers, control panels, cables, temporary power equipment, and associated MCC and switchgear in the plant.
• Developed strategies and implemented maintenance plans for medium and low-voltage electrical equipment including electrical distribution cables, 480V switch gear, breakers, transformers, critical power equipment, uninterrupted power supplies, motors, electric heat tracing devices, and variable frequency drives.
• Lead root cause analysis (RCA) to evaluate the causes of equipment failures; recommending and implementing corrective actions to prevent future failures through the facilitation of root cause analysis of the electrical distribution system and equipment failures, implementing corrective action using effective diagnostic tools and root cause analysis.
• Developed key asset strategies for motors, drives, PLCs, various instrumentation devices, transformers, rectifiers, capacitor banks, and MCCs, monitoring oil analysis, room corrosion and airflow, and motor brushes on DC synchronous motors performance daily.
• Responsible for various protection schemes, troubleshooting and correcting of non-working schemes during testing and commissioning activities on reliability upgrades in energized transmission stations.
• Developed Isolation plans and procedures for the removal of existing equipment such as protective relays, relay panels, AC/DC panels, battery systems, breakers, transformers, SSVTs, CCVTs, PTs, CTs, Linear Couplers.
• Performed routine and special electrical testing of power transformers, voltage regulators, generators, and circuit breakers from different manufacturers (ABB, Siemens, Waukesha, SMIT, GE, and others).
• Electrical Engineering
• Instrumentation / Controls
• Equipment Installation
• Capital Projects
• Procurement of Equipment
• Specifying Equipment
• Troubleshooting Equipment
• Electrical Troubleshooting
• Process Engineering
• Reverse Engineering
• Project Engineering
• CMMS Software
• Upgrading Equipment
• Testing Electrical Equipment
• Extra-High Voltage (EHV) – > 230 kV but < 1000 kV • High Voltage (HV) – Class of voltages from 100 kV to 230 kV • Medium Voltage (MV) – > 1000 V but l< 100 kV
• Low Voltage (LV) – voltage 1000 V or less
• Creating Electrical Protection, Control, and Physical Layout Design Deliverables
• AC/DC panels
• PLC’s
• DC Motors
• Power Generation
• Power Plants
• Power System Analysis
• Load Flow, Coordination
• Short Circuit Studies
• Protection And Control Systems
• Switchgear
• Circuit Breakers
• Reclosers
• Fuses
• Switches
• Substations
• Voltage Regulators
• Control Panels
• Cables Critical Power Equipment
• Drives
• Power Distribution Engineering Support For All Aspects Of Manufacturing
• Relay Panels
• Battery Systems
• VFD Drives
• DCS
• Generators
• Transformers
• Major And Ancillary Substation Equipment
• Rectifiers
• Capacitor Banks
• Procurement Packages
• Circuit Analysis
• Critical Infrastructure Protection
• Project Engineering
• Commissioning
• Developing Proactive Capabilities to Address Problems Before They Cause Downtime
• Reviewing Technical Drawings
• Routine And Special Electrical Testing of Power Transformers, Voltage Regulators, Generators, and Circuit Breakers from Different Manufacturers (ABB, Siemens, Waukesha, SMIT, GE, And Others
• Compiling Technical Documents
• Control System Design
• Project Planning
• Developing Obsolescence Solutions for Components
• Electrical Design
• Equipment Reliability Engineering
• Equipment Qualification
• Equipment Modification
• Spare Parts Support
• Team Leadership
• Technical Manual Development
Education / Certifications
• MS-Electrical Engineering
• BS -Electrical Engineering
• AS -Electrical Engineering Technology
• EIT-Engineer in Training
• Level 3 Thermographer
• Maintenance Reliability Professional
• Pdm. Certifications
• Risk and Reliability Engineer
• Electrical Safety Compliance Professional
• NETA Electrical Testing Technician Level 3
• Cat 2 Vibration Analyst
• Level 3 Airborne Ultrasound
• Level 2 Machine Lubricant Analyst