Linear metro with single-sided linear induction motor (SLIM) propulsion and wheel on rail support and guidance came into service in April of 1990 in Osaka and December of 1991 in Tokyo and then it is now constructed or planed at Yokohama, Kobe and Fukuoka in Japan. As the new traffic system is used widely, it becomes one of the most important subjects to decrease the energy consumption.
In this paper, design of the SLIM for the linear metro is formulated as the constrained nonlinear programming problem and optimum design is carried out for maximizing the efficiency. Seven parameters are chosen as independent variables, such as number of poles, pole pitch, stack height, secondary aluminum sheet thickness, overhang length, slot width/slot pitch and rated slip. Output KW/input KVA, maximum flux density in teeth, temperature rise, primary length, stack height, overhang length, maximum thrust and vertical force are selected as constraint function.
In the optimization procedure, the performance characteristics are formulated using space harmonic analysis taking into account end effect, skin effect and air gap leakage. The accuracy of the formulas is verified by experimental results.
It is effective for increasing the efficiency to adopt the copper reaction plate and decrease the mechanical clearance as small as possible.
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