• Title/Summary/Keyword: 환형 터빈

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Combustion Instability Analysis Using Network Model in an Annular Gas Turbine Combustor (네트워크 모델을 이용한 환형 가스터빈 연소기에서의 연소불안정 해석)

  • Pyo, Yeongmin;Yoon, Myunggon;Kim, Daesik
    • Proceedings of the Korean Society of Propulsion Engineers Conference
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    • 2017.05a
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    • pp.896-904
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    • 2017
  • Lean premixed combustion was successful in meeting current NOx emission regulations. However, these often leads to combustion instability. This phenomena results from the feedback relationship between heat release perturbations and acoustic pressure oscillations in the combustor. Researches on the combustion instability in an annular combustor have recently received great attention due to the enhanced NOx requirement in aero-engines. In this study, the thermoacoustic network model has been developed in order to calculate the acoustics for longitudinal as well as circumferential modes in the annular combustor. The combustion model in the network model is calculated by flame transfer function(FTF). Numerical and analytical results are compared to an measurement data.

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Combustion Instability Analysis Using Network Model in an Annular Gas Turbine Combustor (환형 가스터빈 연소기에서 네트워크 모델을 이용한 연소불안정 해석)

  • Pyo, Yeongmin;Yoon, Myunggon;Kim, Daesik
    • Journal of the Korean Society of Propulsion Engineers
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    • v.22 no.3
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    • pp.72-80
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    • 2018
  • Combustion instabilities are caused by the feedback relationship between heat release perturbations and acoustic pressure oscillations in the combustor. Studies on the combustion instability in an annular combustor have recently received great attention due to the enhanced NOx requirement in aero-engines. In this study, a thermoacoustic network model was developed in order to calculate the acoustic characteristics for various modes in the annular combustor. The network model is combined with flame transfer function(FTF) in order to calculate the stability of the combustor. Numerical results are compared with measurement data.

Numerical Analysis on Effects of Positioning and Height of the Contoured Endwall on the Three-Dimensional Flow in an Annular Turbine Nozzle Guide Vane Cascade (끝벽의 설치 위치 및 변형 높이에 따른 환형 터빈 노즐 안내깃 캐스케이드 내 3차원 유동에 미치는 영향에 관한 수치해석)

  • Lee, Wu-Sang;Kim, Dae-Hyun;Min, Jae-Hong;Chung, Jin-Taek
    • Proceedings of the KSME Conference
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    • 2007.05b
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    • pp.3247-3252
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    • 2007
  • Endwall losses contribute significantly to the overall losses in modern turbomachinery, especially when aerodynamic airfoil load and pressure ratio are increased. Hence, reducing the extend and intensity of the secondary flow structures helps to enhance overall efficiency. From the large range of viable approaches, a promising combination positioning and height of endwall contouring was chosen. The objective of this study is to document the three-dimensional flow in a turbine cascade in terms of streamwise vorticity, total pressure loss distribution and static pressure distribution on the endwall and blade surface and to propose an appropriate positioning and height of the endwall contouring which show best secondary, overall loss reduction among the simulated endwall. The flow through the gas turbine were numerically analyzed using three dimensional Navier-Stroke equations with a commercial CFD code ANSYS CFX-10. The result shows that the overall loss is reduced near the flat endwall rather than contoured endwall, and the case of contoured endwall installed at 30% from leading edge with height of 25% for span showed best performance.

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Development and Test of Gas Turbine Combustor for Ground Vehicle PPU(Primary Power Unit) (지상용 가스터빈 주동력장치(PPU) 연소기의 개발과 시험평가)

  • Lee, Dong-Hun;Lee, Kang-Yeop;Chen, Seung-Bae;Yang, Soo-Suk;Ko, Young-Sung;Choi, Seong-Man
    • Journal of the Korean Society for Aeronautical & Space Sciences
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    • v.33 no.8
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    • pp.111-121
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    • 2005
  • A 100kW class gas turbine combustor was developed and tested for PPU(Primary Power Unit) of ground vehicle. The combustor which employed annular-reverse type and pressure swirl atomizer was designed through 1-D analysis, 3-D thermal flow analysis and combustor performance was experimentally investigated on the combustor test rig. The test result was satisfactory. The developed combustor was also tested for environmental and endurance specification under engine adopted conditions and the application of a state-of-the-art gas turbine combustor to ground vehicle PPU turned out to be successful.

Flow Characteristics of Annular Gas Turbine Combustor (환형 가스터빈엔진 연소기 유동 특성 연구)

  • Woo S. P.;Jeung I. S.
    • Proceedings of the Korean Society of Propulsion Engineers Conference
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    • 2004.10a
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    • pp.36-40
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    • 2004
  • Experimental and numerical studies are carried out for inner flow of small gas turbine engine combustor at normal operating altitude and velocity. First of all inner flow and combustion phenomenon without a load is analyzed for understanding with various back pressure condition due to flight mode of smart UAV.

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An Experimental Study of the Performance on a Rotating Turbine with Various incidences (터빈입사각에 따른 회전하는 터빈의 성능에 관한 실험적 연구)

  • Cho, Chong-Hyun;Cho, Soo-Yong;Cho, Tae-Hwan
    • Journal of the Korean Society for Aeronautical & Space Sciences
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    • v.32 no.9
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    • pp.94-102
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    • 2004
  • An experimental study on a rotating turbine is conducted with various incidence angles in order to find an optimum incidence angle. The incidence angle is an important design parameter in turbine blade design. however, most of experiments were conducted in a linear or annual cascade row. The suggested incidence angles from the experiments conducted in cascade rows could be unsuitable as a design parameter in the design of rotating parts. In this study, various incidence angles are applied and the turbine performance is measured in a rotating state. Experimental results show that the incidence on the rotor has a great influence on the turbine efficiency. The range of applicable incidence becomes narrow when the turbine operates at high input power. In the case of the tested rotor, the optimum incidence is about $-12^{\circ}$.

The Analysis of Two-phase Flow in a Lean Direct Injection Gas-turbine Combustor (희박연료 직접분사(Lean Direct Injection) 가스터빈 연소기의 이상유동 분석)

  • Lee, Kyobin;Kim, Jong-Chan;Sung, Hong-Gye
    • Journal of the Korean Society for Aeronautical & Space Sciences
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    • v.47 no.3
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    • pp.204-211
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    • 2019
  • The analysis on two-phase flow in a Lean Direct Injection(LDI) combustor has been investigated. Linearized Instability Sheet Atomization(LISA) and Aerodynamically Progressed Taylor Analogy Breakup(APTAB) breakup models are applied to simulate the droplet breakup process in hollow-cone spray. Breakup model is validated by comparing penetration length and Sauter Mean Diameter(SMD) of the experiment and simulation. In the LDI combustor, Precessing Vortex Core(PVC) is developed by swirling flow and most droplets are atomized along the PVC. It has been confirmed that all droplets have Stokes number less than 1.0.

Performance Characteristics of Velocity Compound Supersonic Impulse Turbine with the Rotor Overlaps (속도 복합형 초음속 충동형 터빈의 동익 오버랩에 따른 성능특성)

  • Cho, Jong-Jae;Kim, Kui-Soon;Jeong, Eun-Hwan
    • Journal of the Korean Society of Propulsion Engineers
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    • v.15 no.1
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    • pp.19-28
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    • 2011
  • As a preview study, present research analysed the performance characteristics of a velocity compound supersonic impulse turbine with the rotor overlaps before adapting the overlap has the best turbine performance. This research was conducted for the turbine with square cross-section nozzles instead of axisymmetric nozzles and wrap around nozzles. Through 3-dimensional flow analysis for the turbine by a commercial flow analysis package, tip overlap case was more effective to improve the turbine performance than case hub overlap, and overlap case applied the hub and tip of the rotor had the largest improvement for the turbine performance in the cases. In case of overlap for the 2nd stage rotor, improvement of the turbine performance was not visibly large. Because, generated power in the 2nd stage is 22~23% of whole generated turbine power.

Acoustic Analysis in an Annular Gas Turbine Combustor (GT24) Network Modeling Approach (네트워크 모델링 기법을 이용한 환형 가스터빈 연소기(GT24)에서의 음향장 해석)

  • Jaewoo Jang;Hyungu Roh;Daesik Kim
    • Journal of ILASS-Korea
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    • v.28 no.3
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    • pp.119-125
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    • 2023
  • In this research, a network model was developed to predict combustion instability in an annular gas turbine combustor (GT24) for power generation. The model consisted of various acoustic elements such as several ducts and area changes which could represent a real combustor with a complex geometry, applied mass, momentum, and energy equations to each element. In addition, a one-dimensional network model through a cylindrical coordinate system has been proposed to predict various acoustic modes. As a result of the analysis, the key resonant frequencies such as longitudinal, circumferential, and complex modes were derived from the EV combustor of GT24, and the reliability of the current model was verified through comparison with the 3D Helmholtz solver.

Flow and Heat Transfer Characteristics of Acoustically Excited Axisymmetric Impinging Jet (음향여기된 축대칭 충돌제트의 유동 및 열전달 특성)

  • 조형희;이창호
    • Proceedings of the Korean Society of Propulsion Engineers Conference
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    • 1997.11a
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    • pp.8-9
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    • 1997
  • 산업의 발달과 환경에 대한 관심이 높아짐에 따라 고효율, 저공해인 가스터빈의 응용범위가 넓어지고 있는 추세이다. 가스터빈 기관의 효율을 높이기 위해서는 터빈 입구온도를 높이는 것이 필수적인데 이는 재질에 의해 제한 받게 되고 이 때문에 효과적인 냉각방법의 필요성이 대두되었다 충돌제트는 국소적으로 높은 열/물질 전달 효과를 얻을 수 있어서 터빈 블레이드 냉각과 연소기 벽면 냉각에 효과적으로 응용 될 수 있다. 이러한 충돌제트의 냉각효과는 제트출구의 초기조건에 매우 민감한데 Kelvin-Helmholts 불안정은 불안정한 자유전단층에서 자연적인 와류생성(roll up)과 개개의 와류고리 형성의 원인이 되고 이 고리의 성장과 병합(pairing)은 제트의 유동특성에 상당히 영향을 미친다. 제트주위에 생성되는 이러한 와류에 의해 제트중심에서 속도와 난류강도가 변하게 된다. 이러한 제트초기의 불안정성은 하류에서의 와류성장에 영향을 끼치기 때문에 와류의 조절에 의한 충돌 면에의 열 전달 효과 상승을 기대할 수 있다. 이 조절방법은 크게 두 가지로 나눌 수 있는데 하나는 제트주의 환형관에 이차유동을 가하여 와류를 직접 제어함으로써 자유전단류(free shear layer flow)의 안정성 원리를 이용하여 열 전달을 촉진하는 것이고 다른 하나는 음향여기(acoustic exitation)를 사용하여 제트주위의 와류형성을 조절하는 것인데, 자연적으로 형성되는 와류의 주파수(와류의 고유주파수)나 부조화 주파수(subharmonic)로 음향여기 시키는 경우 제트 주위 와류는 더욱 증폭되고 그렇지 않은 경우 제트주위 와류의 형성이 억제되어 더 긴 제트코어의 길이 및 제트코어 주위에서 작은 크기의 와류들이 형성된다.

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