In the dynamic landscape of engineering and product development, leveraging cutting-edge technology is crucial for staying ahead of the competition. Introducing Poisson & Youngs Engineering, a pioneering startup specializing in Design Calculations, Finite Element Analysis (FEA) and CAD services. With a commitment to excellence, innovation, and client satisfaction, we aim to transform the way businesses approach engineering simulations and design optimization.
Pressure Vessels and Tanks
Project Portfolio
Design of Steel Bins for Storage of Bulk Materials - IS 9178
The scope of work is to design and perform FEA on 550 Mton capacity Sulphur pastilles storage Silo for integrated refinery expansion project, IOCL Panipat refinery, Haryana, India.
The Design calculations are performed according to IS 9178- Criteria for Design of Steel Bins for Storage of Bulk Materials - Part 3: Bins Designed for Mass Flow and Funnel Flow
Owner: INDIAN OIL CORPORATION LIMITED (IOCL)
PMC: Engineers India Limited (EIL)
Wind and Seismic Load Analysis of Pressure Vessel
The scope of the FEA was to evaluate the structural integrity of the HBL tank subjected to seismic and wind load condition as per SIN 1726-2012 Indonesian standard and ASCE 7-10.
Shell Material: DUPLEX S32304
Support structure: ASTM A36
Design Optimization, Industrial Code Qualification of Mixer Tank.
Four Pressure vessels and tanks are supplied by ANDRITZ Paper and pulp industry to a seismic active zone in Indonesia. The scope of the FEA was to evaluate the structural integrity of the four Pressure vessels and Tank subjected to seismic and wind load condition as per SIN 1726-2012 Indonesian standard and
ASCE 7-10.
Fatigue and Creep Analysis of process column as per ASME
The scope of FEA is to evaluate the structural integrity of process column as per ASME section VIII division 2 The process column is 25m in height and 5m in diameter. Apart from the operating loads (MAWP, Vacuum pressure design temperature, nozzle loads, hydrostatic load, self weight), the process column is subjected to external platform loads acting on the support structure and vacuum rings. Due to this complex loading, structural integrity of the process column was evaluated using FEA technique. Design changes are recommended through detailed understanding of the failure modes at the shell-platform interface.
