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W2008162839 abstract "Abstract The paper describes the design and testing of an induction motor. The design for this machine, which is to produce 1500 hp continuously, was first calculated using a conventional equivalent circuit with analytically derived parameters. 2D finite element analysis was then used to obtain an optimum result. A thermal lumped circuit program was also employed to predict the temperature of the winding. Experimental results are given to validate the work. Introduction The AC drive system has been designed to meet the rugged demands of marine and drilling applications, the system replaces an earlier DC machine drive and employs the OEMV3000 [1] - Active Energy Management Drive to give virtually zero harmonic distortion of supply current and unity power factor. Many things can affect the smooth running of a process and produce adverse process conditions. In the past, the self-protection philosophy of variable speed drives resulted in drive tripping or shutting down. The level of intelligence and protection in the OEMV3000 means that these self-protecting trips are no longer necessary. This new drive system (Fig. 1.) can take intelligent action in the event of adverse process conditions, resulting in higher plant availability and warning of process problems before they occur. Motor Construction The machine has 6 poles. The double layer 10/12 corded stator winding is accommodated in 72 slots. The stator laminations are made from Losil material. Class H inverter grade wire is used so as to withstand the sharp impulse repetitive waveforms produced from the switching process at high frequencies. The rotor has 84 slots and carries copper bars. Fig. 1 The AC drive system(AVAIALBLE IN FULL PAPER) Design Strategy. This depends on the iteration between the electromagnetic equivalent circuit algorithm and the lumped circuit thermal design algorithm. These two packages are based on analytical methods and enable many design ideas to be examined in a short period of time. The aim is to try to optimise the overall design. The electromagnetic and thermal designs need to be considered at the same time because they are interdependent; the losses being dependent upon the temperature and the temperature on the losses. Electromagnetic finite element analysis is used to fine-tune the design. It enables the precise flux distribution and saturation levels to be determined and improves the accuracy of the predicted performance. A photograph of this new motor is shown in Fig.2." @default.
W2008162839 created "2016-06-24" @default.
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W2008162839 date "2003-05-05" @default.
W2008162839 modified "2023-09-25" @default.
W2008162839 title "1500 hp AC Drive Motor Design for Oil Field Drilling Operations" @default.
W2008162839 doi "https://doi.org/10.4043/15330-ms" @default.
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