• Title/Summary/Keyword: Oldham ring

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Performance analysis of scroll compressor considering eccentric mass of orbiting scroll (선회스크롤의 편심질량을 고려한 스크롤압축기의 성능해석)

  • 박승철;이진갑
    • Korean Journal of Air-Conditioning and Refrigeration Engineering
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    • v.11 no.5
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    • pp.605-614
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    • 1999
  • Orbiting scroll mass center is different from the basic circle's for the normal involute profile. As for the orbiting scroll balanced conditions, the dynamic modeling are set up. The influences on sealing, reaction forces between the moving elements and forces from the moving elements to the compressor frame are analyzed in this paper. The simulation and experiment results are presented.

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Analyses of Thrust Bearing in a Scroll Compressor Considering Oldham Ring (올댐링을 고려한 스크롤 압축기 스러스트 베어링의 해석)

  • Park, Sang-Shin;Lee, Seung-Ryoul
    • Tribology and Lubricants
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    • v.23 no.3
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    • pp.109-116
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    • 2007
  • A scroll compressor is on the increase in the use for the cooling and ambition machinery because of the advantages about high efficiency, low vibration and low noise. The design of thrust bearing for scroll compressor has depended on the experience. The lubrication considering the squeeze flow was applied for high side shell and low side shell of scroll thrust bearing. This work was based on governing fluid lubrication equation at the general coordinate. It shows the behavior for an orbiting scroll with direct numerical analysis using FDM. This study obtained the theoretical design value by finding load capacity and tilting angle of an orbiting scroll for thrust bearing in a scroll compressor. Especially this work performed the analysis about the design parameter. The program was written using Visual C++ to enhance user to change the design parameter easily. In particular the result value and the pressure profile were displayed as windows in every step for user to understand without difficulty.

Dynamic Behavior Analysis of Scroll Compressor Considering Leakage Flow (누설 유동을 고려한 스크롤 압축기의 동적 거동 해석)

  • Jeong, Young-Chul;Won, Seong-Gyu;Jeong, Weui-Bong
    • Proceedings of the Korean Society for Noise and Vibration Engineering Conference
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    • 2005.11a
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    • pp.417-420
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    • 2005
  • This paper presents an analytical method to evaluate the dynamic behavior of the scroll compressor. Unbalanced forces and moments act on the compressor body because of the reaction forces acting on rotating components like the orbiting scroll, Oldham coupling ring, and the crank shaft. The vibration of the compressor is induced by the forces and the moments. In this paper, through modeling of the leakage flow, solving the forces from the equations of motion of the moving parts, the analysis of vibration of the compressor was performed. According to the operating condition, the variation of acceleration of the compressor body were calculated and compared.

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Design of Scroll Expander for Electric Power Generation System using Organic Rankine Cycle with Biomass Energy Source (바이오매스를 에너지원으로 하는 유기냉매 사이클 스크롤 팽창기 발전 장치 설계)

  • Moon, J.H.;Yu, J.S.;Kim, H.J.;Cho, N.J.
    • Journal of Power System Engineering
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    • v.16 no.4
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    • pp.30-36
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    • 2012
  • A scroll expander has been designed to produce a shaft power from a R134a Rankine cycle for electricity generation. Heat was supplied to the Rankine cycle through a heat exchanger, which received heat from another cycle of water. In the water cycle, water was heated up in a boiler using biogenic solid fuel. The designed scroll expander was a horizontal type, and a trochoidal oil pump was employed for oil supply to bearings and Oldham-ring keys. For axial compliance, a back pressure chamber was created on the backside of the orbiting scroll base plate. Numerical study has been carried out to estimate the performance of the designed scroll expander. The expander was estimated to produce the shaft power of about 2.9 kW from a heat supply of 36 kW, when the temperature of R134a was $80^{\circ}C$ and $35^{\circ}C$ at the evaporator and condenser of the Rankine cycle, respectively. The expander efficiency was about 70.5%. When the amount of heat supply varied in the ranges of 7.5~55 kW, the expander efficiency changed in the range of 45.6~70.5%, showing a peak efficiency of 70.5% at the design shaft speed.