A novel approach to tube design via von Mises probability distribution
A novel approach to tube design via von Mises probability distribution
Discharge tube is a critical component in a reciprocating compressor that carries the refrigerant. It also transmits vibrations from compressor body to housing, making the design of tube a complex engineering problem combining static, modal and flow behaviour. This study proposes a novel design algorithm for discharge tube, to decrease the dependency on the trial-and-error approach commonly used by manufacturers. The computational approach creates a tube that connects the inlet and outlet using von Mises probability distribution. The created geometries are checked for static and dynamic properties using FEA. The algorithm continues until a candidate design passes the imposed thresholds. The candidate designs perform similarly to benchmark in evaluated aspects, demonstrating promising results. The presented algorithm is successful in generating alternative tube designs from scratch and can accommodate varying requirements. The main novelty of this study is the development of a comprehensive decision algorithm that considers multiple engineering parameters simultaneously.
design algorithm, Discharge tube, finite element analysis, reciprocating compressor, von Mises probability distribution
319-337
Oral, Atacan
dcec66a4-6f4a-4b2d-b9b8-9b1e866b066f
Subasi, Omer
2842eb31-4759-4b33-a197-97066e1b42f5
Ozturk, Caglar
70bbd3bd-fc56-48e8-8b5e-00d5270c1526
Lazoglu, Ismail
dde74a90-ccd3-452a-a4cf-6dbc8841caf3
Subay, Şehmuz Ali
0cc13459-4016-4ceb-a00f-afbb6f693754
Oral, Atacan
dcec66a4-6f4a-4b2d-b9b8-9b1e866b066f
Subasi, Omer
2842eb31-4759-4b33-a197-97066e1b42f5
Ozturk, Caglar
70bbd3bd-fc56-48e8-8b5e-00d5270c1526
Lazoglu, Ismail
dde74a90-ccd3-452a-a4cf-6dbc8841caf3
Subay, Şehmuz Ali
0cc13459-4016-4ceb-a00f-afbb6f693754
Oral, Atacan, Subasi, Omer, Ozturk, Caglar, Lazoglu, Ismail and Subay, Şehmuz Ali
(2022)
A novel approach to tube design via von Mises probability distribution.
Engineering Optimization, 56 (3), .
(doi:10.1080/0305215X.2022.2152808).
Abstract
Discharge tube is a critical component in a reciprocating compressor that carries the refrigerant. It also transmits vibrations from compressor body to housing, making the design of tube a complex engineering problem combining static, modal and flow behaviour. This study proposes a novel design algorithm for discharge tube, to decrease the dependency on the trial-and-error approach commonly used by manufacturers. The computational approach creates a tube that connects the inlet and outlet using von Mises probability distribution. The created geometries are checked for static and dynamic properties using FEA. The algorithm continues until a candidate design passes the imposed thresholds. The candidate designs perform similarly to benchmark in evaluated aspects, demonstrating promising results. The presented algorithm is successful in generating alternative tube designs from scratch and can accommodate varying requirements. The main novelty of this study is the development of a comprehensive decision algorithm that considers multiple engineering parameters simultaneously.
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More information
Accepted/In Press date: 15 November 2022
e-pub ahead of print date: 14 December 2022
Keywords:
design algorithm, Discharge tube, finite element analysis, reciprocating compressor, von Mises probability distribution
Identifiers
Local EPrints ID: 490867
URI: http://eprints.soton.ac.uk/id/eprint/490867
ISSN: 0305-215X
PURE UUID: 67095ee8-c0dc-4aa2-9c3d-63ee5f63ec10
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Date deposited: 07 Jun 2024 16:39
Last modified: 08 Jun 2024 02:11
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Contributors
Author:
Atacan Oral
Author:
Omer Subasi
Author:
Caglar Ozturk
Author:
Ismail Lazoglu
Author:
Şehmuz Ali Subay
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