Active Lateral Secondary Suspension in a High-Speed Train to Improve Ride Comfort
Active secondary suspension in trains has been studied for a number of years, showing promising improvements in ride comfort. However, due to relatively high implementation and maintenance costs, active technology is not being used in service operation to a large extent. The objective of this study...
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ndltd-UPSALLA1-oai-DiVA.org-kth-104322013-01-08T13:10:30ZActive Lateral Secondary Suspension in a High-Speed Train to Improve Ride ComfortengOrvnäs, AnneliKTH, Farkost och flygStockholm : KTH2009railwayactive suspensionride comfortsky-hookHinfmulti-body simulationson-track testsVehicle engineeringFarkostteknikActive secondary suspension in trains has been studied for a number of years, showing promising improvements in ride comfort. However, due to relatively high implementation and maintenance costs, active technology is not being used in service operation to a large extent. The objective of this study is to develop an active lateral secondary suspension concept that offers good ride comfort improvements and enables centring of the carbody above the bogies when negotiating curves at unbalanced speed. Simultaneously, the active suspension concept should be a cost-effective solution for future series production. The thesis consists of an introductory part and three appended papers. The introductory part describes the concept of active secondary suspension together with different actuator types and control methods. Further, the present simulation model and applied comfort evaluation methods are presented. The introductory part also comprises a summary of the appended papers, an evaluation of track forces and suggestions for further work. Paper A presents the initial development of an active lateral secondary suspension concept based on sky-hook damping in order to improve vehicle dynamic performance, particularly on straight tracks. Furthermore, a Hold-Off-Device (HOD) function has been included in the suspension concept in order to centre the carbody above the bogies in curves and hence avoid bumpstop contact. Preparatory simulations as well as the subsequent on-track tests in the summer of 2007 showed that the active suspension provides improved passenger ride comfort and has significant potential to be a cost-effective solution for future implementation. In Paper B, measurement results from on-track tests performed in 2008 are presented. The active secondary suspension concept was slightly modified compared to the one presented in the first paper. One modification was the implementation of a gyroscope in order to enable detection of transition curves and to switch off the dynamic damping in these sections. Ride comfort in the actively suspended carbody was significantly improved compared to that in the passively suspended car. The satisfactory results led to implementation of the active suspension system in long-term tests in service operation in the beginning of 2009. In Paper C, a quarter-car model in MATLAB has been used to investigate a more advanced control algorithm: H∞ instead of sky-hook. H∞ control provides more flexibility in the design process due to the possibility to control several parameters. In particular, this is done by applying weight functions to selected signals in the system. When comparing the two control strategies through simulations, the results show that H∞ control generates similar carbody accelerations at the same control force as sky-hook; however, the relative displacement displacement is somewhat lower. Licentiate thesis, comprehensive summaryinfo:eu-repo/semantics/masterThesistexthttp://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-10432urn:isbn:978-91-7415-300-2Trita-AVE, 1651-7660 ; 2009:22application/pdfinfo:eu-repo/semantics/openAccess |
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language |
English |
format |
Others
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sources |
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railway active suspension ride comfort sky-hook Hinf multi-body simulations on-track tests Vehicle engineering Farkostteknik |
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railway active suspension ride comfort sky-hook Hinf multi-body simulations on-track tests Vehicle engineering Farkostteknik Orvnäs, Anneli Active Lateral Secondary Suspension in a High-Speed Train to Improve Ride Comfort |
description |
Active secondary suspension in trains has been studied for a number of years, showing promising improvements in ride comfort. However, due to relatively high implementation and maintenance costs, active technology is not being used in service operation to a large extent. The objective of this study is to develop an active lateral secondary suspension concept that offers good ride comfort improvements and enables centring of the carbody above the bogies when negotiating curves at unbalanced speed. Simultaneously, the active suspension concept should be a cost-effective solution for future series production. The thesis consists of an introductory part and three appended papers. The introductory part describes the concept of active secondary suspension together with different actuator types and control methods. Further, the present simulation model and applied comfort evaluation methods are presented. The introductory part also comprises a summary of the appended papers, an evaluation of track forces and suggestions for further work. Paper A presents the initial development of an active lateral secondary suspension concept based on sky-hook damping in order to improve vehicle dynamic performance, particularly on straight tracks. Furthermore, a Hold-Off-Device (HOD) function has been included in the suspension concept in order to centre the carbody above the bogies in curves and hence avoid bumpstop contact. Preparatory simulations as well as the subsequent on-track tests in the summer of 2007 showed that the active suspension provides improved passenger ride comfort and has significant potential to be a cost-effective solution for future implementation. In Paper B, measurement results from on-track tests performed in 2008 are presented. The active secondary suspension concept was slightly modified compared to the one presented in the first paper. One modification was the implementation of a gyroscope in order to enable detection of transition curves and to switch off the dynamic damping in these sections. Ride comfort in the actively suspended carbody was significantly improved compared to that in the passively suspended car. The satisfactory results led to implementation of the active suspension system in long-term tests in service operation in the beginning of 2009. In Paper C, a quarter-car model in MATLAB has been used to investigate a more advanced control algorithm: H∞ instead of sky-hook. H∞ control provides more flexibility in the design process due to the possibility to control several parameters. In particular, this is done by applying weight functions to selected signals in the system. When comparing the two control strategies through simulations, the results show that H∞ control generates similar carbody accelerations at the same control force as sky-hook; however, the relative displacement displacement is somewhat lower. |
author |
Orvnäs, Anneli |
author_facet |
Orvnäs, Anneli |
author_sort |
Orvnäs, Anneli |
title |
Active Lateral Secondary Suspension in a High-Speed Train to Improve Ride Comfort |
title_short |
Active Lateral Secondary Suspension in a High-Speed Train to Improve Ride Comfort |
title_full |
Active Lateral Secondary Suspension in a High-Speed Train to Improve Ride Comfort |
title_fullStr |
Active Lateral Secondary Suspension in a High-Speed Train to Improve Ride Comfort |
title_full_unstemmed |
Active Lateral Secondary Suspension in a High-Speed Train to Improve Ride Comfort |
title_sort |
active lateral secondary suspension in a high-speed train to improve ride comfort |
publisher |
KTH, Farkost och flyg |
publishDate |
2009 |
url |
http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-10432 http://nbn-resolving.de/urn:isbn:978-91-7415-300-2 |
work_keys_str_mv |
AT orvnasanneli activelateralsecondarysuspensioninahighspeedtraintoimproveridecomfort |
_version_ |
1716510603172904960 |