Design of bilateral Switched Reluctance linear generator

Chen, H.; Wang, X.; Lu, Shengli

doi:10.1109/epec.2010.5697236

“…Switched Reluctance machine system has the well application foreground for wind power generator [1], electric vehicle motor drive [2], oceanic generator [3], and so on. The pure hardware with digital IC chip [4], 8-bit single chip microprocessor [5], 16-bit single chip microprocessor [6], DSP [7] [8] and double MCUs [9] had been developed for the controller of some Switched Reluctance machine systems.…”

Section: Introductionmentioning

confidence: 99%

Control system of Switched Reluctance machines based on MCF5213

Chen

¹

,

Liu

²

,

Xie

³

et al. 2012

Proceedings of the 7th International Power Electronics and Motion Control Conference

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0

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In this paper, taking a three-phase 12/8 structure SR motor as its control object, the SR motor digital control system is designed based on MCF5213 which integrated the DSP computing power and MCU controller characteristics. This paper adopts the PWM voltage chopping control strategy with fuzzy logic algorithm and the angle position control strategy to realize rotor speed regulation control. The realization method of the system hardware structure and software are also introduced with verified the feasibility of the scheme through the experiment.

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“…Generally, the design of Switched Reluctance linear generator should be accomplished by analogy analysis between Switched Reluctance rotary generator and Switched Reluctance linear generator, and the modifications depending on its special characteristics. A design method similar with the design of rotary generator, is used in this example [1].…”

Section: Introductionmentioning

confidence: 99%

Design of Bilateral Switched Reluctance Linear Generator to Convert Wave Energy: Case Study in Sicily

Dio¹,

Franzitta²,

Milone³

et al. 2013

AMR

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The aim of this work is a case study of the adaptation bilateral switched reluctance linear generator to the exploitation of energy of the sea. This type of generator can be used to convert wave energy in electrical energy. In this paper we present an analytical sizing and FEM simulation. As for the results, analysis of the data extracted through the simulations it was possible to calculate the emf. The emf was calculated in two cases of motion of the slider: first hypothesis has set the constant speed while the second is a variable speed according to the law of an oscillatory motion of the sea.

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“…It has the advantages of no wear, no lubrication, low speed operation, and so on [14].When compared with the linear permanent magnet generator, the stator of the linear switched reluctance generator is composed of silicon steel laminated, it does not need to install permanent magnet, it is less affected by the external environment, and it can operate under the bad environment, such as high temperature, high corrosion, and other adverse environments, which is more suitable for ocean wave power generation. In the reference [15,16], the single-sided linear switched reluctance generator system is studied; the mutual inductance coupling linear switched reluctance generator has been studied in the reference [11] to improve the efficiency of power generation; Double-sided Linear Switched Reluctance Generator (DLSRG)is studied in the reference [17], which is used to improve the unilateral magnetic tension problem; in the reference [12]; and the optimal efficiency tracking control of generator is studied in detail, and the two-sided mutual inductance coupled switched reluctance generator is chosen as the object of study, which improves the influence of two-sided magnetic pull force.The purpose of this paper is to design a DLSRG based on improving the single-sided magnetic tension of the traditional single-sided linear switched reluctance generator and reducing the coupling characteristics of the phase winding, the structure of the motor is optimized, the electromagnetic characteristics and generation performance are studied. This paper is organized as follows: after the introduction, in Section 2 the basic structure and operation principle of DLSRG are given, in Section 3 Mathematical modeling is given, in Section 4 the electromagnetic characteristics of DLSRG is analyzed, in Section 5 the power generation simulation experiment along with the simulation experiment results are presented, and finally, in Section 6, the conclusions are drawn.…”

mentioning

confidence: 99%

“…It has the advantages of no wear, no lubrication, low speed operation, and so on [14].When compared with the linear permanent magnet generator, the stator of the linear switched reluctance generator is composed of silicon steel laminated, it does not need to install permanent magnet, it is less affected by the external environment, and it can operate under the bad environment, such as high temperature, high corrosion, and other adverse environments, which is more suitable for ocean wave power generation. In the reference [15,16], the single-sided linear switched reluctance generator system is studied; the mutual inductance coupling linear switched reluctance generator has been studied in the reference [11] to improve the efficiency of power generation; Double-sided Linear Switched Reluctance Generator (DLSRG)is studied in the reference [17], which is used to improve the unilateral magnetic tension problem; in the reference [12]; and the optimal efficiency tracking control of generator is studied in detail, and the two-sided mutual inductance coupled switched reluctance generator is chosen as the object of study, which improves the influence of two-sided magnetic pull force.…”

mentioning

confidence: 99%

Design and Research of Double-Sided Linear Switched Reluctance Generator for Wave Energy Conversion

Chen

¹

,

Cao

²

,

Ma

³

et al. 2018

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As a clean and renewable energy source, wave energy is of great significance in solving primary energy shortages and environmental pollution. Direct-drive wave power systems consisting of linear generators have attracted the attention of researchers from various countries. Linear Switched Reluctance Generator has the advantages of simple structure, sturdiness, reliable operation, suitable for harsh environments, and easy maintenance, aiming at the problem of single-sided magnetic pull force and serious coupling of phase winding of traditional linear switched reluctance generator, a Double-sided Linear Switched Reluctance Generator (DLSRG) for wave power generation is designed, and its electromagnetic characteristics (including coupling characteristics, magnetic saturation characteristics, and magnetic tension characteristics) are analyzed to verify the rationality of the structure and parameter selection. Finally, the power generation performance is studied. The joint simulation results show that the structure design of DLSRG is reasonable, overcomes the problem of single-sided magnetic pull force, the phase-to-phase coupling is negligible, and it has continuous power generation capability, and the power generation efficiency is as high as 80.6%. Therefore, DLSRG designed in this paper is suitable for wave power generation.

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Design of bilateral Switched Reluctance linear generator

Cited by 8 publications

References 3 publications

Control system of Switched Reluctance machines based on MCF5213

Control system of Switched Reluctance machines based on MCF5213

Design of Bilateral Switched Reluctance Linear Generator to Convert Wave Energy: Case Study in Sicily

Design and Research of Double-Sided Linear Switched Reluctance Generator for Wave Energy Conversion

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