Your search keyword '"Kwon, Munseong"' showing total 3 results

1. Design improvement for suction shape in rotary compressor.

Author

Kim, Joonhyung, Kwon, Munseong, Park, Jaewoo, Park, Sunghyuk, and Hwang, Woong

Subjects

COMPRESSOR performance, AIR conditioning, AIR compressors, THERMODYNAMIC cycles, ENERGY consumption

Abstract

Rotary compressors applied to heating and cooling cycles accounts for a large proportion of the total energy consumed in the system. Therefore, improving compressor efficiency is crucial in order to reduce energy consumption. Design review and improvement efforts have primarily focused on compression and discharge parts with high pressure. However, due to the limitations in design improvements for the compression and discharge parts, enhancements for other components are necessary to further increase compressor efficiency. In this study, the design of the suction part of the rotary compressor was modified using FSI (Fluid-Structure Interact) analysis scheme. In order to improve the design of the suction shape, new suction shape types were devised as alternatives to the existing through type. Both the newly devised C-type and E-type suction shapes presented an increase in cooling capacity due to reduced suction resistance, with the E-type demonstrating greater improvement compared to the C-type. Consequently, a verification of the effect based on the detailed design dimensions was further conducted for the E-type suction shape. The final selected improved model increased the suction flow rate by approximately 2.5% compared to the base model. This indicates that significant improvement for the compressor efficiency can be achieved through modifying designs in parts other than the compression and discharge sections. In addition, a design improvement process was established to analyze internal flow using FSI analysis. [ABSTRACT FROM AUTHOR]

Published

2024

2. Evaluation of Oil Supply System for Rotary Compressor using Two-phase flow analysis

Author

Kim, Joonhyung, Kwon, Munseong, Park, Jaewoo, Kim, Joonhyung, Kwon, Munseong, and Park, Jaewoo

Published

2022

3. Design Optimization for Discharge Valve in a Rotary Compressor

Author

Kim, Joonhyung, Kwon, Munseong, and Heo, Hyolim

Subjects

Discharge valve, Fluid-structure interaction(FSI), Rotary compressor, Design optimization, Response surface method(RSM)

Abstract

Rotary compressor used for refrigerant compression is the core equipment for room air conditioners(RACs). For an energy efficient RACs, energy efficiency metrics is moving to seasonal performance evaluation. And the compressor efficiency at low load conditions is getting more important than high load conditions. Therefore, compression efficiency under low load conditions is a major indicator of overall operational efficiency. This paper presents a design optimization procedure to improve the efficiency of a rotary compressor under low load condition using response surface method(RSM) and fluid-structure interaction(FSI) technique. Three shape dimensions associated with the discharge valve system were selected as design parameters, fifteen design points were planned using Box-Behnken scheme. The performance of each design point was evaluated by numerical analysis using FSI for the composition of response surface. In order to ensure the reliability, FSI techniques used in the performance evaluation were established through verification with PV test data. The optimum model for the valve system was derived by analyzing the constructed response surface. The responsibility of the optimum model was improved because it had relatively low stiffness compared to the base model. As a result, compression efficiency increased as the energy loss caused by the unstable behavior of the base model was reduced.

Published

2021