Virtual validation of gearbox breather by CFD simulation and correlation with testing
Virtual validation of gearbox breather by CFD simulation and correlation with testing
Gearbox power transfer efficiency is a major factor in overall powertrain efficiency of a passenger vehicle. With rapidly changing emission and fuel efficiency regulations, there is a push to increase the gearbox efficiency to improve the overall fuel economy of the vehicle. In case of an existing gearbox, efficiency can be improved by using the low viscosity lubrication oil.
Despite a benefit in increasing the gearbox efficiency, lowering down the viscosity of lubrication oil gives rise to few challenges with respect to its performance. One of these challenges is breather performance which defines that transmission oil should not come out of breather pipe in some pre-defined conditions during gearbox operation. As this validation is being carried out on proto parts when the complete system is ready, failure to satisfy the defined criteria for breather performance can lead to multiple trials. This further leads to extended design cycles for launching new passenger vehicles with better transmission efficiency and fuel economy into the market. Design cycle time can be reduced by using CFD simulation techniques for oil flow simulation to predict the breather performance in the early design stage.
Current paper describes a CFD simulation method developed for virtual validation of gearbox lubrication oil breather performance using ParticleWorks software. Simulation model consists of complete gearbox system with all the gears rotating, shift system, oil flow galleries and transmission housings. Input conditions to the CFD Model are as per the actual test conditions. CFD Simulation model is validated by correlating it with the actual oil flow using cut-section into the gearbox housing. Validated model is being used to carry out virtual validation of lubrication breather system of new design.
Singh, Bhupinder
bbadf43a-f5e2-4345-82dd-82d5a5aa107b
Chopra, Chandan
fa8a4672-b5d3-4341-86bf-ab277ca0c452
Choudhary, Ved Prakash
34827200-c6b2-436c-8436-65a19170e2f6
Baluch, Mohamad Bilal
92075bc2-a472-40ff-b840-0ec67e7dbfa2
Karna, Gaurav
69b87949-72d6-48fa-9ae2-a8cf51ec05a2
22 September 2021
Singh, Bhupinder
bbadf43a-f5e2-4345-82dd-82d5a5aa107b
Chopra, Chandan
fa8a4672-b5d3-4341-86bf-ab277ca0c452
Choudhary, Ved Prakash
34827200-c6b2-436c-8436-65a19170e2f6
Baluch, Mohamad Bilal
92075bc2-a472-40ff-b840-0ec67e7dbfa2
Karna, Gaurav
69b87949-72d6-48fa-9ae2-a8cf51ec05a2
Singh, Bhupinder, Chopra, Chandan, Choudhary, Ved Prakash, Baluch, Mohamad Bilal and Karna, Gaurav
(2021)
Virtual validation of gearbox breather by CFD simulation and correlation with testing.
Symposium on International Automotive Technology.
(doi:10.4271/2021-26-0321).
Record type:
Conference or Workshop Item
(Paper)
Abstract
Gearbox power transfer efficiency is a major factor in overall powertrain efficiency of a passenger vehicle. With rapidly changing emission and fuel efficiency regulations, there is a push to increase the gearbox efficiency to improve the overall fuel economy of the vehicle. In case of an existing gearbox, efficiency can be improved by using the low viscosity lubrication oil.
Despite a benefit in increasing the gearbox efficiency, lowering down the viscosity of lubrication oil gives rise to few challenges with respect to its performance. One of these challenges is breather performance which defines that transmission oil should not come out of breather pipe in some pre-defined conditions during gearbox operation. As this validation is being carried out on proto parts when the complete system is ready, failure to satisfy the defined criteria for breather performance can lead to multiple trials. This further leads to extended design cycles for launching new passenger vehicles with better transmission efficiency and fuel economy into the market. Design cycle time can be reduced by using CFD simulation techniques for oil flow simulation to predict the breather performance in the early design stage.
Current paper describes a CFD simulation method developed for virtual validation of gearbox lubrication oil breather performance using ParticleWorks software. Simulation model consists of complete gearbox system with all the gears rotating, shift system, oil flow galleries and transmission housings. Input conditions to the CFD Model are as per the actual test conditions. CFD Simulation model is validated by correlating it with the actual oil flow using cut-section into the gearbox housing. Validated model is being used to carry out virtual validation of lubrication breather system of new design.
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Published date: 22 September 2021
Venue - Dates:
Symposium on International Automotive Technology, 2021-09-29
Identifiers
Local EPrints ID: 509585
URI: http://eprints.soton.ac.uk/id/eprint/509585
PURE UUID: 762b2f7d-6128-438f-9dc0-1a8b965a9a2e
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Date deposited: 25 Feb 2026 18:03
Last modified: 26 Feb 2026 03:04
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Contributors
Author:
Bhupinder Singh
Author:
Chandan Chopra
Author:
Ved Prakash Choudhary
Author:
Mohamad Bilal Baluch
Author:
Gaurav Karna
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