• Title/Summary/Keyword: 프리피스톤 엔진

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An Efficiency Characteristic of 1kW Linear Generator for Free-Pision Engine (프리피스톤 엔진용 1kW급 리니어 발전기의 효율 특성 연구)

  • Choi, Dong-Min;Lim, Hee-Su;Noh, Tae-Seok;Oh, Si-Duck
    • Proceedings of the KIEE Conference
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    • 2007.07a
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    • pp.1037-1038
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    • 2007
  • 프리피스톤 기관은 크랭크가 없는 엔진을 동력원으로 리니어 발전기를 구동시켜 전기에너지를 생성하는 시스템으로 기존 왕복 구동식 기관에 비해 기계적 손실이 작고, 팽창 에너지를 최대한 활용할 수 있는 고효율 기관으로 평가되고 있다. 또한 프리피스톤 기관은 가솔린, 디젤, 수소, 천연가스와 같은 청정 연료를 사용할 수 있기 때문에, 최근 에너지 수급 문제 및 대체 에너지원으로 활용할 수 있다는 장점을 가지고 있다. 프리피스톤 기관에 적용되는 리니어 발전기의 경우 기존 회전형 발전기보다 효율은 다소 떨어지는 단점은 있으나, 동력 변환을 하지 않는 리니어 엔진에 적용할 경우에는 효율적 이득을 볼 수 있다. 본 논문에서는 리니어 발전기의 성능 측정을 위한 시험 장치를 구성하고, 프리피스톤용 기관에 적용되는 평판형 및 원통형 타입의 리니어 발전기의 손실 및 효율 특성을 비교하였다.

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A Basic Study on the Dynamic Characteristics of Free-Piston Hydrogen Fueled Engine (프리-피스톤 수소기관의 동적 운전특성에 관한 기초연구)

  • Kim, Y.Y.;Lee, Jong T.
    • Journal of Hydrogen and New Energy
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    • v.14 no.4
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    • pp.283-290
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    • 2003
  • To clarify the cause of backfire occurrence and realize a hydrogen fueled engine linear alternator system, dynamic characteristics of a free-piston hydrogen engine were analyzed and compared with those of conventional reciprocating engines. It was found that the mean velocity and acceleration of a free-piston engine were higher than those of reciprocating engines. Piston displacement and compression ratio were varied with the change of the fuel mass flow rate. Therefore, the operational stability and controllability were the most important thinks of the development of a free-piston hydrogen engine.

The Research About Free Piston Linear Engine with Artificial Neural Network (인공 신경망을 이용한 프리피스톤 리니어 엔진의 연구)

  • AHMED, TUSHAR;HUNG, NGUYEN BA;LIM, OCKTAECK
    • Journal of Hydrogen and New Energy
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    • v.26 no.3
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    • pp.294-299
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    • 2015
  • Free piston linear engine (FPLE) is a promising concept being explored in the mid-20th century. On the other hand, Arficial neural networks (ANNs) are non-linear computer algorithms and can model the behavior of complicated non-linear processes. Some researchers already studied this method to predict internal combustion engine characteristics. However, no investigation to predict the performance of a FPLE using ANN approach appears to have been published in the literature to date. In this study, the ability of an artificial neural network model, using a back propagation learning algorithm has been used to predict the in-cylinder pressure, frequency, maximum stroke length of a free piston linear engine. It is advised that, well-trained neural network models can provide fast and consistent results, making it an easy-to-use tool in preliminary studies for such thermal engineering problems.

The Research about Free Piston Linear Engine Fueled with Hydrogen using Numerical Analysis (수소를 연료로 사용한 프리피스톤 리니어 엔진의 수치해석에 관한 연구)

  • Nguyen, Ba Hung;Oh, Yong-Il;Lim, Ock-Taeck
    • Journal of Hydrogen and New Energy
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    • v.23 no.2
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    • pp.162-172
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    • 2012
  • This paper presents a research about free piston linear engine (FPLE) fueled with hydrogen, in which, the numerical models are built to simulate the operation during the full stroke of the engine. Dynamic model, linear alternator model and thermodynamic model are used as the numerical models to predict piston velocity, in-cylinder pressure and electric power of FPLE. The spark timing and air gap length are changed to provide information for the prediction. Beside, the heat transfer problem is also investigated in the paper. The results of research are divided by two parts, including motoring mode and firing mode. The result of motoring mode showed that there is validation between simulation and experiment for volume and pressure in cylinder. For firing mode, by increasing spark timing, the velocity of piston, peak pressure and electric power also increase respectively. Beside, when increasing air gap length, the electric power increases accordingly while the motion of piston is not symmetric. The effect of heat transfer also observed clearly by reducing of the peak pressure, velocity of piston and electric power.

A Numerical Simulation for the Spring Hardness of a Free Piston Linear Engine (프리피스톤 리니어엔진의 스프링경도에 따른 수치해석연구)

  • Hung, Nguyenba;Oh, Yong-Il;Park, Kyu-El;Lim, Ock-Taeck
    • Journal of Hydrogen and New Energy
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    • v.23 no.4
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    • pp.404-411
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    • 2012
  • This research numerically analyses the effects of the damping device on the operation characteristics of a free piston linear engine. In this paper, the free piston linear engine uses spring as a damping device. The investigated parameter is spring hardness which is varied at 0.5, 1, 2.9, and 14.7 N/mm. The effects of spring hardness on the dynamic characteristic, thermodynamic characteristic and electric power of the engine are investigated. Beside, the equivalent ratio is also changed to provide more information for this study. The simulation results show that, by increasing spring hardness from 0.5 to 14.7 N/mm, all of parameters related to dynamic characteristic such as piston velocity, acceleration, displacement, and frequency increase accordingly. Beside, the peak pressure in the cylinder and electric power are also increased when increasing spring hardness. The tendency is also observed at varied equivalent ratios.

Identification of Damping Characteristics of Free-piston Stirling Engines via Nonlinear Dynamic Model Predictions (프리피스톤 스털링 엔진의 동역학 모델 예측을 통한 비선형 부하 감쇠 특성에 관한 고찰)

  • Sim, Kyuho;Kim, Dong-Jun
    • Transactions of the Korean Society for Noise and Vibration Engineering
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    • v.26 no.3
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    • pp.248-257
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    • 2016
  • Recently, researches on the free-piston Stirling engines(FPSEs) are actively investigated. FPSEs have merits in its light weight, simple structure, and little need for maintenance, thus becoming a promising solution for the power conversion of renewable energy and waste heat recycle. This paper presents the methodology that estimates damping coefficients using analytical models of linear and nonlinear dynamics for FPSEs, and validates the methodology by comparing with existing experimental results. The analysis model predicts an operable range of linear damping coefficients forming limit cycles by using the root locus, and time responses obtained by numerical integration determines nonlinear damping coefficients. The model predictions are compared with experimental results of the well-known FPSE B-10B. We also investigate the damping characteristics regarding heater temperatures and power piston motions.

The Characteristics of Backfire for a Free-Piston Hydrogen Fueled Engine with Reverse Uni-flow Scavenging (Reverse uni-flow 소기방식을 갖는 2행정 프리피스톤 수소기관의 역화 현상에 관한 연구)

  • Byun, Chang-Hee;Choi, Kwan-Yeon;Back, Dae-Ha;Lee, Jong-Tae
    • Journal of Hydrogen and New Energy
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    • v.21 no.2
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    • pp.98-103
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    • 2010
  • In order to develop two-stroke free-piston hydrogen engine to obtain high thermal efficiency and low emission, backfire occurrence have to be prevented. In this research, backfire characteristics are analyzed as functions of the intake valve opening timing and compression chamber pressure under piston by using RICEM (Rapid Intake Compression Expansion Machine) that has reverse uni-flow scavenging. As the result, reverse uni-flow scavenging is advantage about back fire. but, it exists suitable intake valve opening timing and its timing become known that equivalence ratio 1 retard until the piston rises. Also, To rise chamber pressure of lower piston, this does not cause backfire occurs in equivalent ratio 0.6 observed back fire. Therefore, 2cycle hydrogen fueled free-piston engine is undesirable scavenging compression by compressing the piston.

A Study of Design and Dynamic Characteristics of Compact Linear Engine for Porable Powerpack (휴대용 파워팩을 위한 소형 세라믹 리니어 엔진 설계 및 동적 특성에 관한 연구)

  • Oh, Yong-Il;Kim, Gang-Chul;Lim, Ock-Taeck
    • Journal of Hydrogen and New Energy
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    • v.22 no.4
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    • pp.512-519
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    • 2011
  • Current rechargeable battery cannot provide high energy density and the operational durations required. But linear engine/generators provide high energy density for portable power applications because fuel is more high density. In this paper, we suggest that basic design of powerpack using linear engine for assisting power output. Efficiency is relatively high because linear engine don't have crank mechanism compared with rotary engine. We made prototype engine and had experiments to know moving characteristic about the Linear Engine. It was possible to operate velocity at 50 Hz at the firing and pressure in cylinder was 16bar.

A Study for Development of Compact Powerpack used Hydrogen (수소를 연료로 하는 소형 파워팩 개발에 관한 연구(I))

  • Kim, Nam-Yuer;Kim, Gang-Chul;Lim, Ock-Taeck
    • Journal of Hydrogen and New Energy
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    • v.21 no.4
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    • pp.321-327
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    • 2010
  • Current rechargeable battery cannot provide high energy density and the operational durations required. But linear engine/generators provide high energy density for portable power applications because fuel is more high density. In this paper, we suggest that basic design of powerpack using linear engine for assisting power output. Efficiency is relatively high because linear engine don't have crank mechanism compared with rotary engine. We made prototype engine and had experiments to know moving characteristic about the Linear Engine. It was possible to operate velocity at 50 Hz at the firing and pressure in cylinder was 16bar.