FEA Based Methodology to Optimize Sealing Performance in Fuel Vapor Emission Valves 2021-26-0203
As per current global trends, low tailpipe and evaporative emissions is a major focus area in automotive development. This has led to imposition of stringent emission limits on both tailpipe and evaporative emission norms. In the field of evaporative emissions, the fuel valves must meet zero-leak of fuel to canister requirement under different operating conditions. Corresponding sealing design iterations and evaluating the performance through lab testing is time and cost consuming. Present study considers FEA based sealing analysis considering elastomeric-plastic interface using ANSYS®. The designs are evaluated by comparing surface contact of seal with valve orifice. In present study, different combinations of shape, size of plastic and elastomeric parts, material stiffness, axis position of elastomeric & plastic parts and use of supporting structure for elastomeric parts were evaluated. A methodology is provided to optimize seal design to meet zero-leak (<0.05 ccm) of fuel requirement by using right combinations of all above parameters. The results of the methodology were validated with actual prototype build and testing.
Citation: Pote, M., Pethe, A., Ostrosky, J., and Mohite, S., "FEA Based Methodology to Optimize Sealing Performance in Fuel Vapor Emission Valves," SAE Technical Paper 2021-26-0203, 2021, https://doi.org/10.4271/2021-26-0203. Download Citation
Author(s):
Mayur Pote, Anushri Pethe, James Ostrosky, Sanjay Mohite
Affiliated:
Eaton India Innovation Center LLP, Eaton India Innovation Centre LLP, Eaton Industries Inc.
Pages: 6
Event:
Symposium on International Automotive Technology
ISSN:
0148-7191
e-ISSN:
2688-3627
Related Topics:
Valves
Seals and gaskets
Parts
Elastomers
Emissions
Plastics
Exhaust pipes
Finite element analysis
Optimization
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