Your search keyword '"transition location"' showing total 9 results

1. RANS analysis of the low-Reynolds number flow around the SD7003 airfoil

Author

Catalano, P. and Tognaccini, R.

Subjects

*AEROFOILS, *REYNOLDS number, *NUMERICAL analysis, *NAVIER-Stokes equations, *COMPUTATIONAL fluid dynamics, *TURBULENCE, *MATHEMATICAL models

Abstract

Abstract: This paper presents a numerical analysis of the incompressible flow at Reynolds number around the Selig–Donovan 7003 airfoil. The airfoil performances have been computed by the Reynolds averaged Navier–Stokes equations and large eddy simulations. The airfoil stall and preliminary post-stall have been obtained by both the methods. Some limitations of the RANS turbulence models for low-Reynolds number flows have been overcome by the SST-LR model, a recent modification of the well-known SST model. Large-eddy simulations have also been performed for a more detailed analysis of the results. The relevance in the stall mechanism of the laminar separation bubble arising on the airfoil is highlighted. The stall occurs when the laminar bubble present in the leading edge zone and a separated region forming on the central part of the airfoil join together. The SST-LR model returns the same stall mechanism as the large eddy simulation. Flows at low-Reynolds numbers can be simulated by the RANS methods, but the choice of the turbulence model is crucial. The SST-LR model has provided results in good agreement with the large eddy simulation and the available experimental data. [Copyright &y& Elsevier]

Published

2011

2. Transition Response Characteristics of Heat-Assisted Magnetic Recording and Their Performance With MTR Codes.

Author

Radhakrishnan, Rathnakumar, Erden, M. Fatih, Ching He, and Vasic, Bane

Subjects

*MAGNETIC recorders & recording, *LASERS, *ERROR analysis in mathematics, *CURVATURE, *MAGNETIC devices

Abstract

The response of a heat-assisted magnetic recording (HAMR) system is very sensitive to the laser spot position. The response is determined by transition characteristics like the center, curvature, and length. In this paper, by using the thermal Williams-Comstock model and the microtrack model, the effects of laser spot position on transition characteristics are investigated for both longitudinal and perpendicular recording from a read channel systems perspective. The general trend in their variation is determined and used to explain the resultant change in response. By simulation, we determine the post-Viterbi dominant error events for longitudinal HAMR system. Finally, we apply the well-known MTR codes to mitigate such errors and present their bit-error performance. [ABSTRACT FROM AUTHOR]

Published

2007

3. Experimental investigation of cooled turbine cascade with AJVGs

Author

Petersen, Anna

Subjects

air jet vortex generator, loss coefficient, infrared thermography, Straight turbine cascade, transition location, film cooling, Schlieren technique, Turbine

Abstract

DLR has to submit two deliverables in work package 4. These contain experimental investigations using several measurement techniques applied at a straight turbine cascade. The measurements are divided into two parts. The first deliverable includes measurements with and without cooling. The latter contains measurements with one of the former cooling configurations and air jet vortex generators (AJVG´s), additionally. This deliverable concerns the latter one. The profile contour was designed by RRD and handed over at the beginning of the project. Besides, other partners perform numerical simulations for these flow cases. The measurements are utilized to compare them with the numerical results. The following measurement techniques are applied in this report:  Schlieren technique  Infrared thermography  Wake traverses This report is subdivided in the description of the experimental setup, the metrology and the presentation of the measurements which will be done in the chapter “Results and Discussion.”

Published

2016

4. Basic turbine cascade flow experiments

Author

Petersen, Anna

Subjects

loss coefficient, infrared, hot-film, Straight turbine cascade, transition location, film cooling, Schlieren technique, Turbine

Abstract

DLR has to submit two deliverables in Workpackage 4. These contain several measurement techniques applied at a straight turbine cascade. The measurements are divided in two parts. This report includes measurements with and without cooling. The second part contains measurements with the former cooling configuration and air jet vortex generators (AJVG ́s), additionally. The second report will be delivered at the end of the project. The profile contour was designed by RRD and handed over at the beginning of the project. Besides do other partners numerical simulations for these flow cases. The following measurement techniques are applied: Schlieren technique, Infrared thermography, Hot-wire anemometry, Pressure tapping’s, Wake traverses. The hot-wire anemometry was deployed to investigate the inflow conditions. These results were already handed over to the partners, who adopt the numerical part, for their inlet boundary conditions. The measurements are utilized to compare them with the numerical results. This report is subdivided in the description of the wind tunnel system, the metrology, a subsequent chapter about uncertainties estimations and the presentation of the measurements will be done in the chapter Results and Discussion.

Published

2015

5. 2次元翼流内の境界層遷移に及ぼす音響擾乱の影響

Author

Tokugawa, Naoko, Takagi, Shohei, Nishizawa, Akira, and Sakamaki, Tami

Subjects

遷移予測, 境界層遷移, 音響擾乱, 音響騒音, two dimensional wing flow, e(exp N) method, acoustic disturbance, transition prediction, 空間成長速度, 2次元翼流, 残留主流乱れ, acoustic noise, laminar turbulent transition, transition location, 層流-乱流遷移, e(exp N)法, spatial growth rate, boundary layer transition, residual free stream turbulence, 遷移位置

Abstract

航空宇宙技術研究所 27-29 Sept.2000 東京 日本, National Aerospace Laboratory 27-29 Sept.2000 Tokyo Japan, e(exp N)法を使用した遷移位置の予測には、空間成長速度Nに及ぼす外部擾乱の定量的評価が強く求められるため、2次元翼流れ内の層流-乱流遷移に及ぼす音響騒音の影響を実験的に検討した。最初に、同一モデルに対する自然遷移を異なる5風洞中で調べた。各因子の貢献度は分離不可能であるが、大音響騒音および/または大残留主流乱れを用いた風洞では早期遷移を観測した。そこで、測定胴内に設置したスピーカを使って人工音響騒音を導入した。大きな励起が遷移過程を促進することを確認した。Nと音圧レベル(SPL)間の経験的関係N=-0.6×SPL+74を提案した。, Influence of acoustic noise on laminar-to-turbulent transition in 2-D wing flow is investigated experimentally, since the quantitative evaluation of external disturbances on spatial growth rate N is intensively required to predict the transition location by the use of the e(exp N) method. At first, natural transition on an identical model is examined in five different wind tunnels. Early transition is observed in the wind tunnels with large acoustic noise and/or large residual free-stream turbulence, although the contribution of each factor is not separable. Therefore artificial acoustic noise is introduced by means of a loud speaker installed in the settling chamber. Larger excitation is confirmed to facilitate the transition process. An empirical relation between N and Sound Pressure Level (SPL) is proposed as N = -0.6 x SPL + 74., 資料番号: AA0028637014, レポート番号: NAL SP-48T

Published

2000

6. チャンネル流遷移の直接シミュレーション

Author

Yamamoto, Kiyoshi, Takahashi, Naoya, and Kanbe, Tsutomu

Subjects

遷移予測, initial disturbance, channel flow transition, DNS, e(exp N) method, チャンネル流, channel flow, エネルギーレベル, streamwise vortex, ストリーク構造, Tollmien-Schlichting波, ナビエ・ストークス方程式, turbulence transition, transition location, receptivity period, boundary layer transition, Fourier Chebyshev spectral method, nonlinear growth period, supercritical Reynolds number, 亜臨界レイノルズ数, 層流制御, 直接数値計算, 2次的不安定性, 乱流, 初期撹乱, direct numerical simulation, 超臨界レイノルズ数, トルミーン・シュリヒティング波, linear growth period, 線形増幅期, energy level, TS波, チェビシェフ・コロケーション法, 非線形増幅期, Navier Stokes equation, ラムダ渦, lamda vortex, フーリエ・チェビシェフ-スペクトル法, e(exp N)法, 数値風洞, 受容期, 縦渦, numerical wind tunnel, チャンネル流遷移, laminar flow control, Tollmien Schlichting wave, 境界層遷移, transient growth, 過渡的増幅型遷移, Chebyshev collocation method, 層流・乱流遷移, streak structure, TS wave, super critical transition, transition prediction, 直接シミュレーション, 超臨界遷移, transient growth type transition, sub critical transition, subcritical Reynolds number, laminar turbulent transition, turbulent, 乱流遷移, 亜臨界遷移, 遷移位置, secondary instability, 過渡的増幅

Abstract

航空宇宙技術研究所 16-18 Jun. 1999 東京 日本, National Aerospace Laboratory 16-18 Jun. 1999 Tokyo Japan, チャンネル流の層流-乱流遷移を並列計算機上で直接数値シミュレーションを行った。シミュレーションは、基本流と様々なレイノルズ数に対応する異なるエネルギーレベルの小さな撹乱の和で与えられる初期流れで開始する。超臨界レイノルズ数の場合、以下の2つの機構により遷移が起こる。ひとつは初期撹乱が非常に小さい場合、流れの中で成長するトルミーン・シュリヒティング波であり、もうひとつは初期撹乱が大きい場合、流れの方向に軸を持つ縦渦の過渡的増幅である。一方、亜臨界レイノルズ数では、初期撹乱が非常に大きい場合にのみ過渡的増幅により遷移が起こる。過渡的増幅型遷移を引き起こす初期撹乱のエネルギーレベルは、レイノルズ数の-7/2乗に比例することが見出された。, Laminar-turbulent transition of channel flow is directly simulated on a parallel computer. The simulations are started with initial flows given as the basic flow plus small disturbances with different energy levels for various Reynolds numbers. In the case of supercritical Reynolds numbers, the transition is triggered by two mechanisms: one is Tollmien-Schlichting waves growing in the flow when initial disturbances are very small, and the other is transient growth of stream-wise vortices when initial disturbances are rather large. On the other hand, for subcritical Reynolds numbers, transition is triggered by the transient growth only when initial disturbances are considerably large. It is found that the energy levels of initial disturbances, which can trigger the transient-growth type transition, are proportional to -7/2 power of the Reynolds number., 資料番号: AA0001961054, レポート番号: NAL SP-44

Published

1999

7. Study on supersonic laminar flow control on a warped delta wing

Author

Ogoshi, Hirokage, Inagaki, Kenjiro, Ishida, Yoji, Yoshida, Kenji, and Noguchi, Masayoshi

Subjects

数値流体力学, lift to drag ratio, computational fluid dynamics, stability analysis, 安定解析, 層流境界層, transition location, flow visualization, laminar boundary layer, laminar flow control, 流れの可視化, suction, 超音速層流流れ, warped delta翼, 層流制御, 揚抗比, 圧力分布, friction drag, pressure distribution, warped delta wing, CFD解析, 摩擦抗力, 吸い込み, supersonic laminar flow, CFD analysis, 遷移位置

Abstract

航空宇宙技術研究所 24-26 Jun. 1998 東京 日本, National Aerospace Laboratory 24-26 Jun. 1998 Tokyo Japan, 超音速輸送機(SST)の揚抗比改善のためには摩擦抗力を低減する必要があるので、実際の空気動力学的設計への応用の観点から、Warp形状翼に関する超音速層流制御効果について検討してきた。今回、実験によりマッハ数M=1.4における吸い込みに起因する大幅な低減を実験的に確認し、また層流境界層の安定性を数値計算的に解析した。, Since the friction drag of an SST (Supersonic Transport) must be reduced to improve the lift-to-drag ratio, supersonic laminar flow control on a warped wing has been investigated from a viewpoint of applying it to real aerodynamic design. Then large reduction due to suction at M = 1.4 was experimentally confirmed and the stability of laminar boundary layer was numerically analyzed., 資料番号: AA0001958040, レポート番号: NAL SP-41

Published

1999

8. Numerical prediction of transition location using the e(exp N) method

Author

Atobe, Takashi and Yamamoto, Kiyoshi

Subjects

後退平板, 線形安定性解析, N factor, e(exp N) method, linear stability analysis, 後退円柱, 翼周りの流れ, transition location, swept cylinder, advanced supersonic airplane, N値, e(exp N)法, wing surface flow, 横流れ不安定, 翼面流れ, boudary layer transition, 境界層遷移, flow around a wing, 圧力分布, 次世代超音速機, pressure distribution, Sally code, crossflow disturbance, swept plate, Sallyコード, 遷移位置

Abstract

航空宇宙技術研究所 24-26 Jun. 1998 東京 日本, National Aerospace Laboratory 24-26 Jun. 1998 Tokyo Japan, e(exp N)法に基づく層流-乱流遷移予測システムを開発する目的で、NASAが開発したSallyコードを詳細に検討した。このコードは様々な形の問題に使用できるが、数値的精度はあまり保証していないことが判った。, In order to develop a prediction system of laminar-turbulent transition based on e(exp N) method, the Sally code, which was developed by NASA, is investigated in detail. It is found that, although this code can be used for the objects with variety shapes, the accuracy of numerical results are unfavorable., 資料番号: AA0001958042, レポート番号: NAL SP-41

Published

1999

9. Influence of the external disturbances on natural transition in boundary layers on NACA0012 airfoil

Author

Tokugawa, Naoko, Takagi, Shohei, Ueda, Yoshine, and Ido, Atsushi

Subjects

遷移予測, 境界層遷移, NACA0012 airfoil, dynamic pressure, Preston tube, turbulence, transition prediction, surface temperature, 風洞試験, 騒音, acoustic noise, 動圧, 赤外写真法, 乱流, 空間増幅率, transition location, NACA0012翼型, 表面温度, プレストン管, wind tunnel test, boundary layer transition, infrared photography, 遷移位置, total growth rate

Abstract

e(sup N)法を用いた2次元および3次元境界層の乱流遷移位置の予測において外乱の影響を定量的に評価するため、一様流の残留乱れTuおよび騒音レベルSPLと遷移位置における撹乱の空間増幅率Nの相関関係を実験的に調べた。気流特性が異なる3つの風洞で同一の矩形翼NACA0012模型の遷移計測を実施した。その結果、模型を2次元と3次元形態のどちらに設置しても、NはTuの対数とSPLの1次関数で表されるが、外乱に対する感度は翼断面や後退角に依存することがわかった。この相関関係を用いることにより2次元の場合には遷移位置の予測精度が翼弦長の10％程度向上することが期待される。また低亜音速境界層の遷移位置検出手法として、赤外線力メラを用いた表面温度分布計測が有効であり、横流れ定在渦も可視化可能であることを示した。, A series of experimental investigations have been carried out to examine the influence of free-stream turbulence and acoustic noise on laminar-to-turbulent transition in boundary layers on an NACA0012 airfoil. The quantitative evaluation of the influence on the total growth rate N of the most amplified disturbance obtained from the e(sup N) method at the transition location is made in an empirical relation between the total growth rate N and both the residual turbulence Tu and the sound pressure level SPL. Consequently, the transition location is detected as a linear equation N = C(sub Tu) x ln(Tu) + C(sub SPL) x SPL + C for not only 2-D case with zero angles of both sweep and attack but also 3-D case with non-zero angles of both sweep and attack, though each coefficient in N depends on geometrical configuration of airfoil such as cross-sectional shape and swept angle. Accuracy of predicted chord length is expected to be improved 10 percent by use of the obtained empirical relation. Surface temperature measurement technique by use of infrared camera is shown to be efficient and useful for transition detection in low subsonic flow. Usefulness is also shown in visualizing cross-flow stationary vortices growing in 3-D boundary layer., 資料番号: AA0049194000, レポート番号: JAXA-RR-05-017

Published

2006