SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1529599920> ?p ?o ?g. }

Showing items 1 to 72 of 72 with 100 items per page.

W1529599920 abstract "In this study two new technologies are investigated with a view to improving the efficiency and reducing the vibrations of large electrical machines. These machines are used for high powered industrial applications.Individually controlled conductors are part of an active stator project that Converteam Ltd are developing. This involves individual conductors located in each stator slot that can be controlled separately. These replace traditional polyphase windings in order to provide a high level of control over the operation of the machine. A linear magneto-mechanical finite element model has been used here to show that this control method can enable a 44% reduction in the copper loss from the machine compared to a sinusoidal supply whilst maintaining the same operational torque. This method introduces extra Fourier harmonics into the excitation pattern supplied to the machine that are not present in the supply current to traditional polyphase windings. These extra harmonics utilize saliency advantageously to produce torque. However, they also increase the vibration of the stator and may increase hysteresis loss in the iron.The bimorph concept is an idea that is unique to this thesis. This concept involves individually controlled conductors positioned through the root of each stator tooth. On application of a relatively small power input tothese conductors a magnetic field is created in the stator which distorts the existing magnetic field. Under certain conditions, the magnetostriction phenomenon causes the teeth to act as a vibration absorber. The effect of this method on the Maxwell forces in the air gap is small. This enables the cancellation of components of vibration of the stator whilst the machine torque is maintained. This is a vibration control method suited to high frequency vibrations where the deformed shape of the stator includes a rocking motion of the teeth and where the resultant stator vibrations lead to tonal noise emission from the machine.This thesis investigates the two technologies mentioned above with a magnetomechanical finite element model and two experimental investigations. The thesis also contains background information relevant to this study including an introduction to electrical machines and power electronics, noise radiation and sources of noise in electrical machines, finite element modelling, vibrations of electrical machines and vibration absorbers." @default.
W1529599920 created "2016-06-24" @default.
W1529599920 creator A5008883196 @default.
W1529599920 date "2010-05-17" @default.
W1529599920 modified "2023-09-27" @default.
W1529599920 title "Mitigation of vibration in large electrical machines" @default.
W1529599920 hasPublicationYear "2010" @default.
W1529599920 type Work @default.
W1529599920 sameAs 1529599920 @default.
W1529599920 citedByCount "1" @default.
W1529599920 countsByYear W15295999202013 @default.
W1529599920 crossrefType "dissertation" @default.
W1529599920 hasAuthorship W1529599920A5008883196 @default.
W1529599920 hasConcept C119599485 @default.
W1529599920 hasConcept C121332964 @default.
W1529599920 hasConcept C127413603 @default.
W1529599920 hasConcept C135628077 @default.
W1529599920 hasConcept C144171764 @default.
W1529599920 hasConcept C165801399 @default.
W1529599920 hasConcept C188414643 @default.
W1529599920 hasConcept C198394728 @default.
W1529599920 hasConcept C202374169 @default.
W1529599920 hasConcept C24890656 @default.
W1529599920 hasConcept C2776529397 @default.
W1529599920 hasConcept C30403606 @default.
W1529599920 hasConcept C66938386 @default.
W1529599920 hasConcept C78519656 @default.
W1529599920 hasConcept C96157337 @default.
W1529599920 hasConcept C97355855 @default.
W1529599920 hasConceptScore W1529599920C119599485 @default.
W1529599920 hasConceptScore W1529599920C121332964 @default.
W1529599920 hasConceptScore W1529599920C127413603 @default.
W1529599920 hasConceptScore W1529599920C135628077 @default.
W1529599920 hasConceptScore W1529599920C144171764 @default.
W1529599920 hasConceptScore W1529599920C165801399 @default.
W1529599920 hasConceptScore W1529599920C188414643 @default.
W1529599920 hasConceptScore W1529599920C198394728 @default.
W1529599920 hasConceptScore W1529599920C202374169 @default.
W1529599920 hasConceptScore W1529599920C24890656 @default.
W1529599920 hasConceptScore W1529599920C2776529397 @default.
W1529599920 hasConceptScore W1529599920C30403606 @default.
W1529599920 hasConceptScore W1529599920C66938386 @default.
W1529599920 hasConceptScore W1529599920C78519656 @default.
W1529599920 hasConceptScore W1529599920C96157337 @default.
W1529599920 hasConceptScore W1529599920C97355855 @default.
W1529599920 hasLocation W15295999201 @default.
W1529599920 hasOpenAccess W1529599920 @default.
W1529599920 hasPrimaryLocation W15295999201 @default.
W1529599920 hasRelatedWork W1999903072 @default.
W1529599920 hasRelatedWork W2007046636 @default.
W1529599920 hasRelatedWork W2019783170 @default.
W1529599920 hasRelatedWork W2025485057 @default.
W1529599920 hasRelatedWork W2032586238 @default.
W1529599920 hasRelatedWork W2042819795 @default.
W1529599920 hasRelatedWork W2055943843 @default.
W1529599920 hasRelatedWork W2076621963 @default.
W1529599920 hasRelatedWork W2110564487 @default.
W1529599920 hasRelatedWork W2121954375 @default.
W1529599920 hasRelatedWork W2181840097 @default.
W1529599920 hasRelatedWork W2185903856 @default.
W1529599920 hasRelatedWork W2334995458 @default.
W1529599920 hasRelatedWork W2482790493 @default.
W1529599920 hasRelatedWork W2552472218 @default.
W1529599920 hasRelatedWork W2586634069 @default.
W1529599920 hasRelatedWork W2802026300 @default.
W1529599920 hasRelatedWork W1996082968 @default.
W1529599920 hasRelatedWork W2844235607 @default.
W1529599920 hasRelatedWork W2962263383 @default.
W1529599920 isParatext "false" @default.
W1529599920 isRetracted "false" @default.
W1529599920 magId "1529599920" @default.
W1529599920 workType "dissertation" @default.