Daria Kepsu scite author profile

Daria Kepsu

5Publications

18Citation Statements Received

44Citation Statements Given

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Affiliations

ABB (Finland), Lappeenranta-Lahti University of Technology

Publications

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Design and Manufacturing of a Modular Low-Voltage Multimegawatt High-Speed Solid-Rotor Induction Motor

Kurvinen

Petrov

et al. 2021

IEEE Trans. on Ind. Applicat.

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High-speed solid-rotor induction machines (HSIMs) are popular within high-speed (HS) applications because of their high rotor structural integrity and their fairly well-established manufacturing process guaranteeing high quality series products. Designing a new HS electric machine requires a multidisciplinary team to accomplish the machine performance desired. In case of a HS machine design, the components and applied materials often reach their physical limits at the rated operating condition. Therefore, the design process is highly iterative and, thus, a systematic approach has a high potential to reduce the time of the design phase significantly. In this article, a systematic design process is proposed for a modular, multimegawatt (MMW) HSIM with three radial active magnetic bearings. The process includes a traditional multidisciplinary design flow with extra critical aspects of MMW HS machines: manufacturability, bearing system, housing, and operating unit. In addition, the manufactured machine is reported. The proposed systematic design process is described, including several multidisciplinary critical design aspects of HS machinery.

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Comparison of the Performance of Different Asynchronous Solid-Rotor Constructions in a Megawatt-Range High-Speed Induction Motor

Kurvinen

Petrov

et al. 2019

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Modeling and Loss Analysis of 160 kW 30000 Rpm Bearingless Surface Permanent Magnet Motor

Kepsu

Jastrzębski

Porhonen

2018

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Interdisciplinary Design of a High-Speed Drivetrain for a Kinetic Compressor in a High-Temperature Heat Pump

Kepsu¹,

Kurvinen

Tiainen

et al. 2021

IEEE Access

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Bearingless motor (BM) technology offers a competitive solution to active magnetic bearings (AMBs) in high-speed applications. A bearingless drivetrain (BDT) working as a part of a kinetic compressor in a heat pump exceeding 0.5 MW and 25 000 rpm is open for questions: how should the geometry, materials and parameters be chosen without exceeding electromechanical and thermal limits; what rotor configuration suits the heat pump; how can the working fluid of the heat pump be used in the motor cooling? This paper presents the interdisciplinary design process of a BDT as a part of the compressor of a high temperature heat pump (HTHP). The motor -as the core driving the compressor of the heat pump, each interacting with the other, bringing about various design challenges -design process is summarized in a flowchart and subsequently elaborated. Dimensioning rules for the bearingless structures are presented. Finite element analysis (FEA) is used in evaluating the considered surface and interior permanent magnet BM structures. Different stack materials are considered and preliminary electromechanical optimization by a genetic algorithm is carried out. To ensure structural rigidity, FEA of electromagnetic, mechanical, thermal, and rotor dynamic performance is conducted. FEA of drive losses is carried out and cooling alternatives are considered, based on which temperature distributions and thermal stresses with the chosen cooling arrangements are calculated again with FEA. Power and performance of the structures are discussed. As a result of the analyses, a suitable hermetic motor design is chosen for the HTHP compressor drive INDEX TERMS Bearingless motor, interdisciplinary, multiobjective optimization, electromagnetic analysis, high-speed, high-temperature heat pump application, kinetic compressor, rotor dynamics, thermal analysis, thermal stresses I. INTRODUCTION

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Competitive technology analysis of a double stage kinetic compressor for 0.5 MW heat pumps for industrial and residential heating

Jastrzębski

Kepsu

Putkonen

et al. 2021

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Daria Kepsu

Design and Manufacturing of a Modular Low-Voltage Multimegawatt High-Speed Solid-Rotor Induction Motor

Comparison of the Performance of Different Asynchronous Solid-Rotor Constructions in a Megawatt-Range High-Speed Induction Motor

Modeling and Loss Analysis of 160 kW 30000 Rpm Bearingless Surface Permanent Magnet Motor

Interdisciplinary Design of a High-Speed Drivetrain for a Kinetic Compressor in a High-Temperature Heat Pump

Competitive technology analysis of a double stage kinetic compressor for 0.5 MW heat pumps for industrial and residential heating

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