Safety Related Tanks, Heat Exchangers, Degasifier Columns, Motor Control Centers (MCCs), Electrical Panels, Air Handling Units, Air Tanks, Battery Racks, Local Panels, Pumps, and other equipment/components. Perform advanced Finite Element Analysis (FEA) of structures, system, and components (SSCs) for normal operation and accident conditions.
Depending on the complexity of the SSC, the dynamic seismic analysis can be performed by the Equivalent Static Load Method, the Response Spectra method, or the Time History method of analysis.Our Transportation Engineering Department is focused on making the transportation system to the public safe, rapid, and reliable (SRR). The services included making this vision a reality are shown below.
Here at Triskelion Engineering we strive to find ways to make the architect's vision a reality when other engineers say it is impossible. Triskelion Engineering Telecommunications Department strives for a strong network with the telecommunications companies.
Depending on the complexity of the SSC, the dynamic seismic analysis can be performed by the Equivalent Static Load Method, the Response Spectra method, or the Time History method of analysis.Our Transportation Engineering Department is focused on making the transportation system to the public safe, rapid, and reliable (SRR). The services included making this vision a reality are shown below.
Here at Triskelion Engineering we strive to find ways to make the architect's vision a reality when other engineers say it is impossible. Triskelion Engineering Telecommunications Department strives for a strong network with the telecommunications companies.
Services
Working in the AP1000 Auxiliary Equipment Engineering group as the lead of the seismic equipment mounting loading evaluations activities.
In charge of performing usage calculations, which seismically evaluated equipment mounting for most of the AP1000 Auxiliary Equipment including Safety Related Tanks, Heat Exchangers, Degasifier Columns, Motor Control Centers (MCCs), Electrical Panels, Air Handling Units, Air Tank Package, Battery Racks, Local Panels, Pumps, and other equipment/components. Recommended mounting details for abnormal conditions.
In charge of performing usage calculations, which seismically evaluated equipment mounting for most of the AP1000 Auxiliary Equipment including Safety Related Tanks, Heat Exchangers, Degasifier Columns, Motor Control Centers (MCCs), Electrical Panels, Air Handling Units, Air Tank Package, Battery Racks, Local Panels, Pumps, and other equipment/components. Recommended mounting details for abnormal conditions.
Seismic Equipment Qualification (SEQ) Group in charge of providing seismic structural engineering construction completion assessment of the SEQ Structures, Systems, and Components (SSCs).
Prepared and reviewed Calculations, Design Basis, Design Criteria, and Specifications to comply with industry codes and standards.
Performed component failure analysis.
Investigated issues with the current design at the non-operating Nuclear Plant.
Developed and presented a road map for the seismic structural qualification program to investigate and resolve current issues with the Site Specific Required Response Spectra (SSRRS) and the impact to the structures and equipment.
Prepared and reviewed Calculations, Design Basis, Design Criteria, and Specifications to comply with industry codes and standards.
Performed component failure analysis.
Investigated issues with the current design at the non-operating Nuclear Plant.
Developed and presented a road map for the seismic structural qualification program to investigate and resolve current issues with the Site Specific Required Response Spectra (SSRRS) and the impact to the structures and equipment.
Shaw Group (CB&I), US DOE Savannah River Site, Aiken, SC, Equipment Seismic Qualification (ESQ), Mix Oxide Fuel Fabrication Facility (MFFF) or MOX to produce nuclear fuel, which will be a mix of Uranium and Plutonium.
Performing seismic equipment qualification duties, including seismic qualification to IEEE STD 344, embed and base plate analysis, connection design, steel design, and component failure analysis.
Performed seismic structural calculations and evaluations using applicable codes and standards like IBC, UBC, ASCE, ACI, AISC N690, AISC ASD & LRFD, AWS, SMACNA, ASME VIII, ASME B31.3 and others.
Performing seismic equipment qualification duties, including seismic qualification to IEEE STD 344, embed and base plate analysis, connection design, steel design, and component failure analysis.
Performed seismic structural calculations and evaluations using applicable codes and standards like IBC, UBC, ASCE, ACI, AISC N690, AISC ASD & LRFD, AWS, SMACNA, ASME VIII, ASME B31.3 and others.
Telecommunications, Miami, FL and King of Prussia, PA.
Market Engineer: Reviewed and approved engineering work performed in the market, day-to-day work activities, priorities, budgets, and schedules.
Provided technical direction and guidance at the market level to Bechtel staff, market manager and all local architectural engineering subcontractors performing the design work.
Coordinated, organized, managed and controlled engineering work at the market level.
Received reviews and verified that all site candidate information packages and radio frequency datasheets were complete before proceeding with the zoning drawings and/or detailed construction drawings.
Market Engineer: Reviewed and approved engineering work performed in the market, day-to-day work activities, priorities, budgets, and schedules.
Provided technical direction and guidance at the market level to Bechtel staff, market manager and all local architectural engineering subcontractors performing the design work.
Coordinated, organized, managed and controlled engineering work at the market level.
Received reviews and verified that all site candidate information packages and radio frequency datasheets were complete before proceeding with the zoning drawings and/or detailed construction drawings.
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