The candidate will be responsible for technical leadership and coordination of technical and schedule, aspects for the environmental design, analysis, and testing of assembly systems, subsystems, and components. Tasks include developing a Life Cycle Environmental Profile (LCEP) for system hardware, performing preliminary and final definition or determination of environmental requirements using field based measurements, previous program experience, or statistical climatic data.
Develops, implements, and maintains methods, operation sequence and processes in the fabrication of parts, components, sub-assemblies and final assemblies. Manages manufacturing engineering related projects, as required.
Develops, implements, and maintains methods, operation sequence and processes in the fabrication of parts, components, sub-assemblies and final assemblies; leads manufacturing engineering related projects as required.
The systems process engineer provides the business knowledge and technical skills to develop and implement applications and processes that enhance the ability of the organization to achieve business objectives.
Requires specialized depth and/or breadth of expertise. Interprets internal or external business issues and recommends best practices. Solves complex problems; takes a broad perspective to identify innovative solutions. Works independently, with guidance in only the most complex situations. May lead functional teams or projects.
Interfaces with advanced design, product engineering, quality, and other business partners on the design for manufacturability, process capability, and production builds of new product or product revisions.
Produce custom elevator design solutions of a moderate level of complexity in order to satisfy requirements. The responsibility area covers complete technical and visual solution and documentation for custom projects.
Responsible for designing, managing, implementing, maintaining and supporting computer communication networks within or between organizations to ensure secured network, maximum performance and availability for their users.
Lead the design of mechanical piping and instrument diagrams (P&IDs) for power plant systems including steam cycle systems, boiler feed and condensate, water treatment, fuel handling, hydraulic, heat transfer systems, conveying systems, and air and gas systems.