?url_ver=Z39.88-2004&rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Adc&rft.title=Torque+Improvement+for+Modified+Double+Stator+Switched+Reluctance+Machines&rft.creator=Gao%2C+Zhong&rft.creator=Rossi%2C+Alessandro&rft.creator=Sundharam%2C+Yugesh&rft.creator=Li%2C+Yuxiao&rft.creator=Ye%2C+Zechen&rft.creator=Jiang%2C+Haoran&rft.creator=Zhang%2C+Siyuan&rft.creator=Asef%2C+Pedram&rft.creator=Cai%2C+Shun&rft.description=This+study+advances+the+design+of+double+stator+switched+reluctance+machines+(DSSRMs)+by+focusing+on+mitigating+torque+ripple+to+improve+efficiency+and+promote+broader+application.+The+research+undertakes+a+comprehensive+literature+review%2C+establishes+a+baseline+design%2C+and+employs+iterative+enhancements+alongside+advanced+2D+and+3D+model+simulations+using+SolidWorks+and+ANSYS+Maxwell+software.+Significant+findings+include+a+torque+ripple+reduction+of+up+to+9%25%2C+an+increase+in+peak+torque%2C+and+optimised+magnetic+flux+distribution%2C+achieved+through+adjustments+in+rotor+segment+geometry+and+electromagnetic+force+balancing+methods.+The+outcomes+highlight+the+critical+role+of+magnetic+force+analysis%2C+3D+modelling%2C+and+dynamic+testing+in+enhancing+DSSRM+performance%2C+establishing+a+foundation+for+future+optimisations+in+design+and+materials+for+environmental+and+operational+sustainability.&rft.subject=electric+machines%2C+switched+reluctance+machine&rft.publisher=Institute+of+Electrical+and+Electronics+Engineers+(IEEE)&rft.date=2024-11-01&rft.type=Proceedings+paper&rft.language=eng&rft.source=+++++In%3A++Proceedings+of+the+59th+International+Universities+Power+Engineering+Conference.++(pp.+pp.+1-6).++Institute+of+Electrical+and+Electronics+Engineers+(IEEE)+(2024)++++(In+press).++&rft.format=text&rft.identifier=https%3A%2F%2Fdiscovery.ucl.ac.uk%2Fid%2Feprint%2F10196828%2F1%2FTorque_Improvement_for_Modified_Double_Stator_Switched_Reluctance_Machines.pdf&rft.identifier=https%3A%2F%2Fdiscovery.ucl.ac.uk%2Fid%2Feprint%2F10196828%2F&rft.rights=open