• Title/Summary/Keyword: Piston cooling

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Performance Comparison of Collecting Efficiencies to Various Types of Piston Oil Cooling Gallery (피스톤 오일 냉각 유로 형태에 따른 수집효율 성능 비교)

  • Lee, Jeong-Keun;Chun, Sang-Myung;Joo, Dae-Heon;Ryu, Kwan-Ho
    • Tribology and Lubricants
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    • v.26 no.1
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    • pp.21-30
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    • 2010
  • In this research, it is investigated the collecting efficiency of jet oil to several types of piston oil cooling gallery by using recently developed PCJ (piston cooling jet) rig tester. So it will be selected for a better design of piston oil cooling gallery. The collecting efficiencies at each type of piston cooling galleries are measured under conditions of a few piston positions, and several oil jet pressures and oil viscosities. Furthermore, the type of jet cone will be compared for a few jet pressure conditions. The selected type of piston oil cooling gallery is planned to be applied to the target engine which is now developing to satisfy the EURO VI emission regulation.

Rig Tester Development for the Performance Validation of a Piston Oil Cooling Gallery (피스톤 오일 냉각 유로의 성능 검증을 위한 리그 시험기 개발)

  • Chun, Sang-Myung;Lee, Jeong-Keun;Joo, Dae-Heon;Ryu, Kwan-Ho;Ha, Dae-Hong
    • Tribology and Lubricants
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    • v.25 no.6
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    • pp.387-398
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    • 2009
  • The operation condition of recently designed pistons for high power and high speed diesel engine become more severe due to the increment of combustion pressure and temperature. So, in order to overcome high temperature, the application of the mono-metal cast aluminum alloy piston featuring an enclosed cast-in open cooling gallery has increased. In this research, it is developed a PCJ (piston cooling jet) rig tester, described the test procedure and validated the performance of sample piston cooling gallery design. Then the test rig will be used for developing the design technology of piston cooling gallery. The test rig is composed with oil reservoir and pumping system, oil jet system, piston fixing and moving system, collecting oil measuring system, and data measuring and recording system. It will be measured collecting efficiencies under conditions of a few piston positions, oil jet pressures and oil viscosities for a piston cooling gallery. Furthermore, the PCJ rig tester will be used for the optimum design of the oil cooling gallery which being applied to increase the cooling efficiency of pistons in diesel engines satisfying the EURO V emission regulation and the more.

Fatigue Life Analysis and Cooling Conditions Evaluation of a Piston for Large LPLi Bus Engines (LPG 액정분사식 대형 버스용 엔진 피스톤의 피로수명 해석과 냉각조건 평가)

  • 최경호;이부윤
    • Journal of Advanced Marine Engineering and Technology
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    • v.28 no.5
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    • pp.762-772
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    • 2004
  • Fatigue life of a Piston for large liquid Petroleum liquid injection(LPLi) bus engines is analyzed considering effects of cooling condition parameters : temperature of cooling water, and heat transfer coefficients at oil gallery and bottom surface of piston head. Temperature of the piston is analyzed with varying cooling conditions Stresses of the piston from two load cases of pressure loading. and pressure and thermal loading are analyzed Fatigue life under repeated peak pressure and thermal cycle is analyzed by the strain-life theory. For the two load cases, required loading cycles for engine life are defined, and loading cycles to failure and partial damages are calculated. Based on the resulting accumulated fatigue usage factors, endurance of the piston is evaluated and effects of varying cooling condition Parameters are discussed.

A Numerical investigation of Oil Jet in an Engine Piston (피스톤 냉각용 Oil Jet 유동 수치해석)

  • Li, Li;Kwon, Ji-Hyuk;Jung, Ho-Yun;Choi, Yoon-Hwan;Lee, Yeon-Won
    • Proceedings of the Korean Society of Marine Engineers Conference
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    • 2005.11a
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    • pp.33-34
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    • 2005
  • The internal state of an automotive engine is very severe. A piston exposes burnt gas of over $2000^{\circ}$ nd is shocked by high pressure at the time of explosion. Furthermore strong friction is caused by high speed motion. A study on the cooling of the piston requires because the cooling and lubrication of the piston has an effect on the life and efficiency of engine directly. The previous system of oil jet cooled only the bottom of the piston. In order to improve the cooling efficiency, the oil gallery is made inside the piston, and oil flows into the oil gallery. The flow rate of oil at the entrance of oil gallery is important because of the cooling efficiency. The purpose of this study is the investigation of fluid flow characteristics of oil jet and flow rate into the oil gallery.

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Flow Characteristics of Oil Jet for Cooling a Piston (피스톤 냉각용 엔진오일 제트 유동특성)

  • Li, L.;Lee, J.H.;Jung, H.Y.;Kim, J.H.;Lee, Y.W.
    • Journal of Power System Engineering
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    • v.10 no.4
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    • pp.50-55
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    • 2006
  • An efficient cooling system for a piston of an automotive engine is very important. Therefore a large capacity gasoline engine or diesel engine has adopted the direct injection cooling system to increase its cooling efficiency. In this direct cooling system, an cooling oil is injected to a piston directly using an oil jet and this cooling oil flows through an oil gallery inside the piston. Flow rate and injection accuracy of this cooling oil are very important because these are main factors that have influence on its efficiency. The purpose of this study is to understand the changes of flow characteristics with various curvatures and diameters of an outlet nozzle and to check whether engine oil enters into the oil gallery well or not. From this study, we found that secondary flow was formed in a curved part of jet due to centrifugal force and irregular flow pattern appeared at the jet outlet. This pattern has influence on flow characteristics of engine oil entering the gallery. These simulation results have a good agreement with experiments.

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A Study on Nozzle of Oil Jet using CFD (CFD를 이용한 Oil Jet의 노즐부 해석)

  • Jung, Ho-Yun;Kwon, Ji-Hyuk;Lee, Jong-Hoon;Choi, Yoon-Hwan;Lee, Yeon-Won
    • Proceedings of the Korean Society of Marine Engineers Conference
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    • 2005.06a
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    • pp.205-209
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    • 2005
  • Now a days Automobiles are becoming more important in our life, the study on piston of engine is needed because, piston's cooling and lubrication of piston have an effect on the life and efficiency of engine directly. So, this study is about nozzle part of oil jet for cooling piston in the automotive engine. Piston exposes combustion gas of over $2000^{\circ}C$ and is shocked high pressure at the time of explosion shortly. Furthermore strong friction occurs by high speed rotation. The cooling system is considered from oil jet to piston. The previous system cooled the lower part of piston only. So, efficiency was low. To improve this system, make the oil gallery in the piston, and oil flows into the gallery. The value of oil flow rate into the gallery is important. Consequently, the point of this study is the research of investigation of flow characteristics for variable Re number. This study has been modelled by a commercial CFD code FLUENT, allowing to assess its validity

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Hot Forging of an Engine Piston using Control Cooling (제어냉각 장치를 이용한 엔진피스톤 열간단조 공정에 관한 연구)

  • Lee, S. I.;Choi, D. H.;Lee, J. H.
    • Transactions of Materials Processing
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    • v.24 no.6
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    • pp.411-417
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    • 2015
  • The piston engine is an essential component in automobiles. Since the piston is used in a high temperature and high pressure environment, the piston needs to be manufactured to achieve high strength and high durability. In addition, cost reduction is also an important consideration. In conventional forging, an additional heat treatment after hot forging is necessary to ensure proper mechanical properties for heavy-duty engine pistons. The newly developed manufacturing method lowers production costs by saving manufacturing time and reduces energy consumption. The current paper describes the hot forging of an engine piston made from 38MnSiVS5 micro-alloyed steel using controlled cooling. The finite element analysis was used to check for possible problems and suitable press capacity. Hot forging experiments were then conducted on a 2500tons crank press to evaluate feasibility of the proposed material and process. To check the mechanical properties after hot forging, the forged specimens were tensile tested, and the microstructures were examined in order to compare the results with the conventionally forged material. The skirt region of the as-forged 38MnSiVS5 piston showed better material properties compared to the conventional material. In addition, the total production time was reduced by about 80% as compared to conventional forging.

Refinement of Microstructures for Aluminum Piston through Ultrasonic Melt Treatment (초음파 용탕처리를 이용한 알루미늄 피스톤의 조직 미세화)

  • Lee, Sang-Hwa;Jung, Jae-Gil;Lee, Jung-Moo;Cho, Young-Hee;Yoon, Woon-Ha;Ahn, Yong-Sik;Yun, Dong-Chun;Lee, Jeong-Keun;Ryu, Kwan-Ho
    • Journal of Korea Foundry Society
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    • v.36 no.2
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    • pp.53-59
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    • 2016
  • The effects of ultrasonic melt treatment on the microstructures of aluminum piston were examined at five observation parts having different cooling rates. The microstructure of aluminum piston consisted of primary Si, eutectic Si, and various types of intermetallic compounds. Regardless of cooling rate, the ultrasonic melt treatment transformed dendritic eutectic cells to equiaxed eutectic cells and it decreased the sizes of eutectic Si and intermetallic compounds that exist at eutectic cell boundaries. In the absence of ultrasonic treatment, coarse primary Si particles were severely segregated and its size was increased with decreasing the cooling rate. The ultrasonic treatment decreased the size of primary Si particles from $25.5{\sim}31.0{\mu}m$ to $17.6{\sim}23.1{\mu}m$, depending on the cooling rate. In the presence of ultrasonic treatment, relatively fine primary Si particles were homogeneously distributed throughout the piston. In addition, the ultrasonic treatment increased the population density and area fraction of fine primary Si particles.

A Performance test of Stirling Cryocooler by Frequency Characteristics (스터링 냉동기의 주파수 특성에 의한 성능평가에 관한 연구)

  • Park, Seong-Je;Hong, Yong-Ju;Kim, Hyo-Bong;Go, Deuk-Yong;Go, Gun-Seop;Kim, Jong-Hak
    • 연구논문집
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    • s.30
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    • pp.25-32
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    • 2000
  • A free piston and free displacer(FPFD) Stirling cryocooler for cooling infrared and cryo-sensors is currently under development at KIMM(Korea Institute of Machinery & Materials). A Stirling cryocooler is relatively compact, reliable, commercially available, and uses helium as a working fluid. The FPFD stirling cryocooler consists of two compressor pistons driven by linear motors which makes pressure waves and a pneumatically driven displacer piston with regenerator. The FPFD Stirling cryocooler employs 1) the Stirling cycle for refrigeration, 2) linear for driving the cryocooler, 3) spring and gas support systems, and 4) fine gap for clearance seals. It is the most suitable design for a mechanical cryocooler utilized in night vision environment. In order to get optimum operating frequency, natural frequency of piston and displacer, optimum phase angle between piston and displacer, cooling capacity, performance tests of the Stirling cryocooler by the frequency characteristics were performed.

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Numerical Analysis for Temperature Distribution and Thermal Stresses in a Turbocharged Large CNG Engine Piston (터보과급 대형 CNG기관 피스톤의 온도분포와 열응력 해석)

  • Kim, Yang-Sul;An, Su-Chul
    • Journal of the Korean Institute of Gas
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    • v.12 no.4
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    • pp.58-62
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    • 2008
  • The purpose of this paper is to establish a standard finite element analysis model of a piston by carrying out three dimensional modeling of a series six-cylindered CNG engine's piston to forecast temperature distribution at stationary state and the following thermal stress and variation, and cross checking it with existing analysis. Also, in order to evaluate the affects of the cooling system to the piston's heat load, the paper analyzed piston's temperature and thermal stress distribution according to the cooling water temperature changes and the following variations. As a result, the maximum temperature was found at the center of the crown in the piston and the maximum thermal stress occurred from the lower part of the piston.

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