7 YEARS OF PROFESSIONAL EXPERIENCE
General Experience
Sept 2011 – Present Experience in construction engineering for offshore oil/gas facilities, onshore/coastal oil/gas facilities (compressor stations, and gas pipelines, Oil Sands facility), petro/chemical plants, pumping stations, and manufacturing facilities.
Lead Engineer for the Produced Water Treating on the Vito Floating Production System (FPS) Project, Mississippi Canyon Block 939. The project is premised on the FPS processing 120,000 bbl/day oil (total liquid capacity 140,000 bbl/day) with up to 750 MMSCFD gas injection and recycle. Key responsibilities consist of: Primary engineering interface with the Project Engineers for the Produced Water Treating packages. Prepare and modify mechanical drawings (P&IDs, GA’s, and PFDs) and lists (drawing list, MTOs, Tie-in, etc.). Knowledgeable of Shell’s DEPs and Project Specifications. Develop technical specifications for assigned packages. Consult with vendors to determine the proper selection of mechanical equipment. Prepared design calculations for ASME SEC.VIII Div. I/II pressure vessels, and ASME Code for Pressure Piping B31, etc. Ensure compliance to the company's quality control manual as per ASME SEC.VIII Div. I and all customer and statutory requirements. Maintain accurate procurement records.
Lead Engineer for the Water Treatment Plant for Shell Canada Limited Peace River In Situ Expansion Carmon Creek Project. This project is premised on expanding the current Peace River Complex to ultimately achieve between 120 and 150 kbopd production capacity. This will be met by constructing a new Central Processing Facility (CPF) to handle the fluids coming from the field and separate them into water to generate steam, acid gas for disposal and diluted bitumen for export. Key responsibilities consist of: Primary engineering interface with the Project Engineers and Veolia (Water Treatment Plant Contractor) for assigned packages. Coordinate the design deliverables review and approvals with other disciplines. Coordinate engineering interfaces between Shell and Veolia for assigned packages. Coordinate any required technical deviations and technical queries. Lead the resolution of design issues. Assist the project engineer in the resolution of Shell Furnished Equipment (SFE) and Site RFI’s and quality non-conformance reports during the equipment fabrication and construction phase. Knowledgeable of Shell’s DEPs and Project Specifications. Develop technical specifications for assigned package. Prepared and submitted (CSA Standard B-51 Boiler, pressure vessel and pressure piping code, ASME Code for Pressure Piping B31) pressure piping design and (CSA Standard B-51 Boiler, pressure vessel and pressure piping code, ASME SEC.VIII Div. I) pressure vessel design registration packages to various Safety Authorities in the provinces of Canada, such as ABSA (Alberta Boilers Safety Association).
Support Engineer for the Shell’s Kulluk and Noble’s Discoverer winterization-construction project-Seattle, WA. Key responsibilities consist of: Mechanical quality assurance oversight and detailed daily progress reports during the retrofit of the drill rig, Kulluk. Coordinated and worked with the drill rig operator and shipyard construction leads in order to resolve any and all unsafe, undocumented, or not meeting standard/spec. mechanical related issues.
Lead Engineer for SEPCo Waterflood Expansion Project. This project is premised on increasing the instantaneous capacity of the waterflood system on the MARS A TLP facility. Key responsibilities consist of: Provide support and assistance with facility shutdown. Plan, schedule, conduct and coordinate meetings with team to ensure tasks are completed and a proper follow-up is provided. Prepare and modify mechanical drawings (P&IDs, GA’s, and PFDs) and lists (drawing list, MTOs, Tie-in, etc.). Determine the proper selection of mechanical equipment. Maintain accurate procurement records.
Support Engineer for SEPCo MARS Gas Lift Phase II Project. This project includes the installation of a gas lift compressor and associated auxiliary equipment. Key responsibilities consist of: Provide support and assistance with facility shutdown. Prepare and modify mechanical drawings (P&IDs, GA’s, and PFDs) and lists (drawing list, MTOs, Tie-in, etc.). Review Engineering drawings and material procurement orders for compliance with code and project specifications. Consult with vendors to determine the proper selection of mechanical equipment. Maintain accurate procurement records.
Support Engineer for LLOG MC-547-A Facility Modification Project. This project includes several modifications and installations of piping spools and valves to aid in increased platform production and efficiency. Key responsibilities: Modified design as per client’s scope to increase efficiency of facility. Conducted facility walk-throughs to provide accurate modifications, and updates to the model and mechanical drawings. Performed design calculations for PSVs, etc. Created mechanical/structural construction work packs for scheduled shut down. Created and maintained a log for materials, specialty items and equipment. Provided support and assistance with facility shutdown.
Support Engineer for Omega Refining Plant Upgrade Project. This project includes modifications and installation of piping and a Wiped Film Evaporator System. Key responsibilities: Conducted facility walk-throughs to provide accurate modifications, and updates to the model and mechanical drawings. Created specifications for API 650 Storage Tanks and Suction Heater. Review Engineering drawings and material procurement orders for compliance with code and project specifications. Consulted with vendors to determine the proper selection of mechanical equipment.
Jul 2008 – Aug 2011 Experience in the design of pressure vessels, piping and modular skid design, with emphasis on produced water treatment equipment (traditional separators), and hydrocarbon filtration (gas / oil separation) per ASME Code Section VIII Division I and ASME B31.3.
Create and update engineering design drawings using AutoCAD.
Perform calculations either manually or by using Compress 6310 Software to design filtration equipment.
Determine the proper element material (polypropylene, cellulose, CS, 304/316SS, Teflon, etc.) for specific filtration...
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