04379nam 2200925z- 450 991058593850332120231214132822.0(CKB)5600000000483097(oapen)https://directory.doabooks.org/handle/20.500.12854/91204(EXLCZ)99560000000048309720202208d2022 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierPerformance of Induction MachinesBaselMDPI - Multidisciplinary Digital Publishing Institute20221 electronic resource (222 p.)3-0365-4785-1 3-0365-4786-X Induction machines are one of the most important technical applications for both the industrial world and private use. Since their invention (achievements of Galileo Ferraris, Nikola Tesla, and Michal Doliwo-Dobrowolski), they have been widely used in different electrical drives and as generators, thanks to their features such as reliability, durability, low price, high efficiency, and resistance to failure. The methods for designing and using induction machines are similar to the methods used in other electric machines but have their own specificity. Many issues discussed here are based on the fundamental achievements of authors such as Nasar, Boldea, Yamamura, Tegopoulos, and Kriezis, who laid the foundations for the development of induction machines, which are still relevant today. The control algorithms are based on the achievements of Blaschke (field vector-oriented control) and Depenbrock or Takahashi (direct torque control), who created standards for the control of induction machines. Today’s induction machines must meet very stringent requirements of reliability, high efficiency, and performance. Thanks to the application of highly efficient numerical algorithms, it is possible to design induction machines faster and at a lower cost. At the same time, progress in materials science and technology enables the development of new machine topologies. The main objective of this book is to contribute to the development of induction machines in all areas of their applications.Technology: general issuesbicsscHistory of engineering & technologybicsscLIMslip frequencylinear induction motorautomatic train operationrotor field-oriented angle errorindirect rotor field-oriented controlinduction machine drivesmodel-based predictionlinear induction motorsfinite element analysisend effectinduction machineselectrical machinesthermal modelingsoft magnetic materialthermal conductivityinduction motorsolid rotoreffective parametersfinite element methodmodelling of ring induction motorsMonte Carlo methodaccurate modellinginduction machineelectromagnetic modelsmodel selectionoptimizationartificial neural networkspattern searchevolutionary strategysimulated annealingartificial neural networkfourth central momenthomogeneity analysisinduction motorsmechanical unbalanceone broken rotor barouter-race bearing faultstartup transient currenttwo broken rotor barsthree-phase induction motorsquirrel-cage rotorenergy efficiencymotor performancedynamic modelMatlab/Simulinkrotor windingstator windingTechnology: general issuesHistory of engineering & technologyPalka Ryszardedt1293866Palka RyszardothBOOK9910585938503321Performance of Induction Machines3022799UNINA