Dynamic Analysis and Mechanical Structure Improvement of Submersible Rotor

Ran, Xiaohe; Zhao, Meng; Shang, Jing; He, Chun

doi:10.1109/access.2019.2910830

Cited by 8 publications

(4 citation statements)

References 22 publications

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“…Using uniformly distributed load of 5 N, tensile stresses and deflections were obtained for all cases. Many types of stresses and deflections in all directions for this shaft are obtained and discussed as following: In figures (3,4,5,6) when the eccentricity (e = 0.1x10 -3 ) the value of Von Mises stress (σ von ) begins from (33) Mpa at (N= 1000 R.P.M) and reach to (36.5) Mpa at (N= 4400 R.P.M) but (under the same conditions) in the case of the eccentricity (e = 0.3x10 -3 ) will be (43) Mpa at (N= 1000 R.P.M) and reach to (161) Mpa at (N= 4400 R.P.M). In figures (7,8,9,01), when the eccentricity (e = 0.1x10 -3 ) the value of (σ 3 ) stress begin from (-39.4) Mpa at (N= 1000 R.P.M) and reach to (-41.7) Pa at (N= 4400 R.P.M) but (under the same conditions) in the case the eccentricity (e = 0.3x10 -3 ) will be (-51.1) Mpa at (N= 1000 R.P.M) and reach to (-203) Mpa at (N= 4400 R.P.M).…”

Section: Resultsmentioning

confidence: 99%

“…Also, they found a small effect of eccentricity distance on the stability of the rotor. Xiaohe Ran et ai [5] are enhance the shaft-rotor system by using two improvement schemes which are rotor stiffness, rotor strength as well as the effect of uni-lateral magnetic extension on the deflected rotor. They used finite element method (ANSYS) to modal, investigate stress and extended unilateral magnetic.…”

Section: ][2]mentioning

confidence: 99%

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Stress Analysis of a Rectangular Shaft Carrying a Rotor System Due to Eccentricity

Hammo

2023

SVU-International Journal of Engineering Sciences and Applicati

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Rotating machinery is used in several mechanical system affected by exogenous or endogenous vibration due to unbalance, misalignment and cracks, which leads to generate extra forces on shaft and bearings. This research is dedicated to study the unbalance and dissimilarity of shaft on both stresses and deflections of rotor supported by a film of oil bearing. Different rotational speeds (1000 -4400) rpm and unbalance effects (0.0001-0.0003) m, have been considered. A dynamic model system of the shaft has a rectangular crosssection of (30 x 15) mm 2 and with a mass of 6 kg. The parameters of rotor-shaft, which represented by the value of stiffness coefficients and journal bearing represented by both stiffness and damped coefficients were simulated using MATLAB/ Simulink software, so that, the reaction forces are calculated. Finite Element Program (ANSYS) has been used to analysis of the stresses for the shaft and bearings produced eccentricity and rotation.

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Section: Resultsmentioning

confidence: 99%

Section: ][2]mentioning

confidence: 99%

Stress Analysis of a Rectangular Shaft Carrying a Rotor System Due to Eccentricity

Hammo

2023

SVU-International Journal of Engineering Sciences and Applicati

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“…The paper showed that saturation effects, flow on the d and q axes, and other factors must be considered in analyses using the FEM to obtain accurate evaluated motor parameters. FEM analysis can also be used to improve the assessment of interference to reduce the breakdown of rotary axes in PMSM, by evaluating the stress to which the engine will be subjected through simulation [19]. In [20], the variation in the slots' design through an optimization process was also presented using the FEM for the design of a motorcycle engine equivalent.…”

Section: Introductionmentioning

confidence: 99%

Electric Field Evaluation Using the Finite Element Method and Proxy Models for the Design of Stator Slots in a Permanent Magnet Synchronous Motor

et al. 2020

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The efficiency of electric motors is being improved every day and projects with design variations can improve their performance. Among electric motors, the Permanent Magnet Synchronous Machine (PMSM) is being increasingly used, because of its growing use in electric vehicles. Simulating design variations using the Finite Element Method (FEM) can improve PMSM design, and by optimizing the parameters based on the FEM, even better results can be achieved. The design of the PMSM stator slots must be evaluated, as conductors are accommodated and an electrical potential is applied at this location. The FEM parameters are varied, and the results can be used to build an approximate model, known as a proxy model. The proxy model can then be used in a mathematical programming problem to optimize the design of stators that have less electric field in certain regions, thus reducing the chance of developing a failure. The results of the proposed methodology show that its application is promising for machine design and can also be used for the design of other systems.

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“…A mechanical design of a PM motor with inside-out configuration for future 737 class hybrid-electric aircrafts was carried in [12]. To reduce the breakage of the rotating shaft for submersible PMSM, two improved schemes with optimal mechanical structures were proposed and verified in [13].…”

Section: Introductionmentioning

confidence: 99%

Mass Optimization Method of a Surface-Mounted Permanent Magnet Synchronous Motor Based on a Lightweight Structure

Zhang

2020

IEEE Access

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To solve the problem that the propulsion motor of the solar-powered aircraft is difficult to meet the high-torque-density requirement, the mass optimization method of a surface-mounted permanent magnet synchronous motor (SPMSM) based on a lightweight structure is proposed in this paper. According to the motor load generated by propeller, the strength and stiffness analytical models of the mechanical structure are established. By correlating the mechanical dimensions with the electromagnetic dimensions, a full-scale parametric model of SPMSM is obtained. A 4kW and a 167W SPMSMs are designed based on the parametric model. Analysis results show that with the increase of the ratio of motor diameter to length, the motor mass firstly decreases and then increases, and there is a minimum value. The validity of the lightweight structure and analytical models are verified by the finite element models (FEM) and prototypes.

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Dynamic Analysis and Mechanical Structure Improvement of Submersible Rotor

Cited by 8 publications

References 22 publications

Stress Analysis of a Rectangular Shaft Carrying a Rotor System Due to Eccentricity

Stress Analysis of a Rectangular Shaft Carrying a Rotor System Due to Eccentricity

Electric Field Evaluation Using the Finite Element Method and Proxy Models for the Design of Stator Slots in a Permanent Magnet Synchronous Motor

Mass Optimization Method of a Surface-Mounted Permanent Magnet Synchronous Motor Based on a Lightweight Structure

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