Component Energy Efficiencies in a Novel Linear to Rotary Motion Inter-conversion Hydro-mechanism Running a Solar Tracker
A new mechanism interconverting linear and rotary motion was investigated for energy transfers among its components. It employed a gear-rack set, a Hooke coupling and a specially designed bladder-valve system that regulated the motion. The purpose was to estimate individual component mechanical effi...
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Taiwan Association of Engineering and Technology Innovation
2018-01-01
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| Series: | International Journal of Engineering and Technology Innovation |
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| Online Access: | http://ojs.imeti.org/index.php/IJETI/article/view/549 |
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doaj-41f17af03f7e44c899eae403d8e3ae652020-11-25T01:14:14ZengTaiwan Association of Engineering and Technology InnovationInternational Journal of Engineering and Technology Innovation2223-53292226-809X2018-01-0181287Component Energy Efficiencies in a Novel Linear to Rotary Motion Inter-conversion Hydro-mechanism Running a Solar TrackerKant Eliab Kanyarusoke0Jasson Gryzagoridis1Modify Elton Kaunda2Cape Peninsula University of TechnologyCape Peninsula University of TechnologyCape Peninsula University of TechnologyA new mechanism interconverting linear and rotary motion was investigated for energy transfers among its components. It employed a gear-rack set, a Hooke coupling and a specially designed bladder-valve system that regulated the motion. The purpose was to estimate individual component mechanical efficiencies as they existed in the prototype so that future reengineering of the mechanism could be properly targeted. Theoretical modelling of the mechanism was first done to obtain equations for efficiencies of the key components. Two-stage experimentation followed when running a solar tracker. The first stage produced data for inputting into the model to determine the efficiencies’ theoretical variation with the Hooke coupling shaft angle. The second one verified results of the Engineering Equation Solver (EES) software solutions of the model. It was found that the energy transfer to focus on was that between the Hooke coupling and the output shaft because its efficiency was below 4% http://ojs.imeti.org/index.php/IJETI/article/view/549bladderefficiencygear-rackHooke coupling |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Kant Eliab Kanyarusoke Jasson Gryzagoridis Modify Elton Kaunda |
| spellingShingle |
Kant Eliab Kanyarusoke Jasson Gryzagoridis Modify Elton Kaunda Component Energy Efficiencies in a Novel Linear to Rotary Motion Inter-conversion Hydro-mechanism Running a Solar Tracker International Journal of Engineering and Technology Innovation bladder efficiency gear-rack Hooke coupling |
| author_facet |
Kant Eliab Kanyarusoke Jasson Gryzagoridis Modify Elton Kaunda |
| author_sort |
Kant Eliab Kanyarusoke |
| title |
Component Energy Efficiencies in a Novel Linear to Rotary Motion Inter-conversion Hydro-mechanism Running a Solar Tracker |
| title_short |
Component Energy Efficiencies in a Novel Linear to Rotary Motion Inter-conversion Hydro-mechanism Running a Solar Tracker |
| title_full |
Component Energy Efficiencies in a Novel Linear to Rotary Motion Inter-conversion Hydro-mechanism Running a Solar Tracker |
| title_fullStr |
Component Energy Efficiencies in a Novel Linear to Rotary Motion Inter-conversion Hydro-mechanism Running a Solar Tracker |
| title_full_unstemmed |
Component Energy Efficiencies in a Novel Linear to Rotary Motion Inter-conversion Hydro-mechanism Running a Solar Tracker |
| title_sort |
component energy efficiencies in a novel linear to rotary motion inter-conversion hydro-mechanism running a solar tracker |
| publisher |
Taiwan Association of Engineering and Technology Innovation |
| series |
International Journal of Engineering and Technology Innovation |
| issn |
2223-5329 2226-809X |
| publishDate |
2018-01-01 |
| description |
A new mechanism interconverting linear and rotary motion was investigated for energy transfers among its components. It employed a gear-rack set, a Hooke coupling and a specially designed bladder-valve system that regulated the motion. The purpose was to estimate individual component mechanical efficiencies as they existed in the prototype so that future reengineering of the mechanism could be properly targeted. Theoretical modelling of the mechanism was first done to obtain equations for efficiencies of the key components. Two-stage experimentation followed when running a solar tracker. The first stage produced data for inputting into the model to determine the efficiencies’ theoretical variation with the Hooke coupling shaft angle. The second one verified results of the Engineering Equation Solver (EES) software solutions of the model. It was found that the energy transfer to focus on was that between the Hooke coupling and the output shaft because its efficiency was below 4%
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| topic |
bladder efficiency gear-rack Hooke coupling |
| url |
http://ojs.imeti.org/index.php/IJETI/article/view/549 |
| work_keys_str_mv |
AT kanteliabkanyarusoke componentenergyefficienciesinanovellineartorotarymotioninterconversionhydromechanismrunningasolartracker AT jassongryzagoridis componentenergyefficienciesinanovellineartorotarymotioninterconversionhydromechanismrunningasolartracker AT modifyeltonkaunda componentenergyefficienciesinanovellineartorotarymotioninterconversionhydromechanismrunningasolartracker |
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1725157952542736384 |