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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Unsteady Turbulence Interaction in a Tip Leakage Flow Downstream of a Simulated Axial Compressor Rotor

Ma, Ruolong 22 July 2003 (has links)
The unsteady behavior of a tip leakage flow downstream of a simulated axial compressor rotor has been studied. The Virginia Tech low speed linear cascade wind tunnel was adapted to model the unsteady tip leakage flow produced by a rotor operating in the vortical wakes of a set of stator vanes. The cascade, consisting of 8 GE rotor B blades, has adjustable tip gap, inlet angle of 65.1 degrees, turning angle of 11.8 degrees and solidity of 1.076. The cascade Reynolds number, based on blade chord, was 393,000. A moving end wall was used to simulate the relative motion between rotor and casing, and vortex generators attached to the moving end wall were used to produce an idealized periodic unsteady vortical inflow similar to that shed by the junction of a row of inlet guide vanes. Measurements of the vortical inflow to the cascade produced by the generators and of the mean blade loading at the mid span are presented. The periodic and aperiodic behavior of the tip leakage flow downstream of the cascade, produced by this vortical disturbance, is also presented using phase and time averaged 3-component turbulence and pressure fluctuation measurements. These measurements are made for tip gap from 0.83% to 3.3% chord and streamwise locations from 0.772% to 1.117% blade spacing axially downstream of the cascade. The phase averaged inflow measurements reveal that the inflow produced by the vortex generators consists of a pair asymmetric counter-rotating vortices embedded in a thin (4.6% chord) endwall boundary layer. The vortices extend some 7.4% chord from the end wall. Their strength is about two orders smaller than the typical circulation of the tip leakage vortices produced by the cascade. Phase averaged single point three component hot-wire measurements downstream of the cascade reveal that the vortical inflow is, however, capable of producing significant large scale fluctuations in the size, strength, structure and position of the tip leakage vortex. These effects increase in magnitude with increase of tip gap. For small tip gaps these effects appear to be due to simple superposition between the inflow vortices and the tip leakage vortex. However for larger tip gaps these effects appear primarily a consequence of the inflow vortices interfering with the shedding of circulation from the blade tip. The fact that the circulation fluctuation is consistent with the inviscid unsteady loading prediction suggests that the inviscid response may be a major mechanism for generating the tip leakage unsteadiness. Although there is large periodic fluctuation in the tip leakage flow disturbed by the inflow, there is a larger aperiodic component. Two point correlation measurements and linear stochastic estimation are used to reveal the structure of this aperiodic part for a tip gap of 3.3% chord. The aperiodic fluctuation, containing most of the turbulence energy, is found appearing to be organized structures in large scale, and making the estimated instantaneous velocity field significantly different from the phase averaged periodic velocity field. Phase averaged pressure fluctuation measurements made using a microphone in the tip leakage vortex downstream of the cascade reveal that there are significant periodic fluctuating pressure waves and intense mean square fluctuation of the aperiodic fluctuating pressure. They are consistent with the measured periodic flow and aperiodic flow field respectively. These microphone measurements are validated using fluctuating pressure gradient estimates determined from the hot-wire measurements. / Ph. D.
2

Mean Loading and Turbulence Scale Effects on the Surface Pressure Fluctuations Occurring on a NACA 0015 Airfoil Immersed in Grid Generated Turbulence

Mish, Patrick F. 26 June 2001 (has links)
Detailed surface pressure measurements have been made on a NACA 0015 immersed in two grid generated homogenous flows at Re = 1.17 x 10⁶ for a = 0°, 4°, 8°, 12°, 16°, and 20°. The goal of this measurement was to reveal and highlight mean loading and turbulence scale effects on surface pressure fluctuations resulting from turbulence/airfoil interaction. Also, measurements are compared with the theory of Amiet (1976a,b). The surface pressure response shows a dependance on angle of attack, the nature of which is related to the relative chord/turbulence scale. The dependance on turbulence scale appears to be non-monotonic at low reduced frequencies, wr = Pi*f*c/U with both an increase and decrease in unsteady pressure magnitude occurring with increasing mean load. A reduced frequency overlap region exists at wr > 10 where the two different scale flows begin to produce similar effects on the surface pressure with increasing angle of attack manifesting as a rise in unsteady surface pressure magnitude. Also, the interaction of the full 3-dimensional wavenumber spectrum affects the distance over which pressure fluctuations correlate and the extent of correlation is affected by angle of attack as demonstrated in the chordwise and spanwise pressure correlation. Amiet's theory is shown to agree favorably with measurements in the leading edge region although demonstrates insufficiencies in predicting unsteady pressure phasing. / Master of Science
3

Analysis of Two-point Turbulence Measurements for Aeroacoustics

Wenger, Christian W. 06 January 1999 (has links)
Simultaneous two-point three-component four-sensor hot-wire velocity measurements taken in three flows of aeroacoustic interest are here analyzed. The analyses provide information on the turbulence structure of the flows as it would be encountered by hypothetical noise producing blades passing through the flows. Two-point measurements taken in the first flow, a lifting wake from a rectangular NACA 0012 half wing, are used to calculate space-time correlation functions and 'pointwise' wave number frequency spectra. Two upwash spectra, calculated for locations in the region of the wake that is roughly homogenous in the spanwise direction, are direct estimates of the full wave number frequency spectra at their locations. As such, they are used to perform aeroacoustic calculations, and the results are compared to results achieved using the von Kármán isotropic spectrum. Amiet's approximation, where the wave number frequency spectra can be represented by the correlation length scales is found to hold reasonably well for the measured spectra. The two-point measurements in the second flow, a vortex/blade-tip interaction, are analyzed to provide information useful to researchers of blade-wake interaction noise produced by helicopter rotors. Space-time correlation functions and wave number frequency spectra are calculated for five cuts through the region of interaction. The correlation functions provide information concerning the turbulence length scales found in the interaction region. The spectra are compared to the von Kármán isotropic spectrum and found to be greatly different. However, the spectra do bear some resemblance to spectra calculated in the spanwise homogenous region of the lifting wake. The two-point measurements taken in the third flow, the wake from a fan cascade, are analyzed to provide information of use to modelers of broadband noise produced through rotor wake/stator interactions. In particular, space-time correlation functions are calculated for a grid of two-point measurements, which allows the estimation of the turbulence structure as seen by a passing stator blade. Space-time correlation functions and wave number frequency spectra are calculated for various stator configurations. The implications of engine operating speed and stator configuration for broadband noise production are discussed. <i> [Vita removed March 2, 2012. GMc]</i> / Master of Science
4

Comparative Analysis of Serrated Trailing Edge Designs on Idealized Aircraft Engine Fan Blades for Noise Reduction

Geiger, Derek Henry 26 January 2005 (has links)
The effects of serrated trailing edge designs, designed for noise reduction, on the flow-field downstream of an idealized aircraft engine fan blade row were investigated in detail. The measurements were performed in the Virginia Tech low speed linear cascade tunnel on one set of baseline GE-Rotor-B blades and four sets of GE-Rotor-B blades with serrated trailing edges. The four serrated blade sets consisted of two different serration sizes (1.27 cm and 2.54 cm) and for each different serration size a second set of blades with added trailing edge camber. The cascade row consisted of 8 GE-Rotor-B blades and 7-passages with adjustable tip gap settings. It had an inlet angle of 65.1º, stagger angle of 56.9º and a turning angle of 11.8º. The tunnel was operated with a tip gap setting of 1.65% chord, with a Reynolds number based on the chord of 390,000. Blade loading measurements performed on each set of blades showed that it was slightly dependent on the serration shape. As the serration size was increased the blade loading decreased, but adding droop increased the blade loading. The Pitot-static cross-sections showed that flow-fields near the upper and lower endwalls cascade tunnel were similar with the baseline or the serrated blade downstream of the blade row. In the wake region, the individual trailing edge serrations tips and valleys could be seen. As the wake convected downstream, the individual tips and valleys became less visible and the wake was more uniform in profile. The tip leakage vortex was only minimally affected by the trailing edge serrations. This conclusion was further reinforced by the three-component hot-wire cross-sectional measurements that were performed from the lower endwall to the mid-span of the blade. These showed that the mean streamwise velocity, turbulence kinetic energy and turbulence kinetic energy production in the tip leakage region were nearly the same for all four serrated blades as well as the baseline. The vorticity in this region was a more dependent on the serration shape and as a result increased with serration size compared to the baseline. Mid-span measurements performed with the three-component hot-wire showed the spreading rate of the wake and the decay rate of the wake centerline velocity deficit increased with serration size compared to the baseline case. Drooping of the trailing edge only minimally improved the spreading and decay rates. This improvement in these rates was predicted to reduce the tonal noise at the leading edge of the downstream stator vane because the periodic fluctuation associated with the sweeping of the rotor blade wakes across it, was due to the pitchwise variation in the mean streamwise velocity. The wakes were further compared to the mean velocity and turbulence profiles of plane wakes, which the baseline and the smallest serration size agreed the best. As the serration size was increased and drooping was added, the wakes became less like plane wakes. Spectral plots at the wake centerline in all three velocity directions showed some evidence of coherent motion in the wake as a result of vortex shedding. / Master of Science
5

Numerical investigation of air vehicle noise propagation effects

Βίτσας, Παναγιώτης 07 June 2013 (has links)
The growth that aviation has seen in the last decades has drawn the attention on the environmental impact of aircraft. An important part of this environmental impact is the noise emitted by air vehicles, which is considered rather significant for community annoyance. The generation and propagation of air vehicle noise are two different areas of interest, which require accurate prediction in order to control the emitted noise levels. The present thesis employs numerical methods in order to investigate various air vehicle noise propagation effects. It is divided in two parts: the far field and the near field study. Each of these studies is concentrated on the sound propagation mechanisms that are dominant for each case and uses a numerical method that is best suited for it in terms of mechanisms incorporated and cost effectiveness. The far-field study of this thesis focuses on the nonlinear propagation of helicopter rotor noise using the Burgers equation, a well known one direction propagation method. The Burgers equation incorporates geometrical spreading, atmospheric absorption and nonlinear distortion effects. Towards this study, the HELISHAPE descent case experimental database is used. Blade Vortex Interaction (BVI) noise, the dominant noise contributor during descent, is mainly examined. It is shown that advancing side BVI noise is affected by nonlinear distortion, while retreating side BVI noise is not. For some frequency bands the difference between linear and nonlinear calculations can be as high as 7 dB. Based on signal characteristics at source, two quantities are derived. The first quantity (termed polarity) is based on the pressure gradient of the source signal and can be used to determine whether a BVI signal will evolve as an advancing or a retreating side signal. The second quantity (termed weighted rise time) is a measure of the impulsiveness of the BVI signal and can be used to determine at which frequency nonlinear effects start to appear. Finally, polarity and weighted rise time are shown to be applicable in cases of BVI noise generated from different blade tips, as well as, in cases of non-BVI noise. However, employment of the Burgers equation can be time consuming to be included in routine calculations. It also requires knowledge of the initial pressure time signal. The power spectrum alone, which is usually known, is not sufficient. In order to overcome these difficulties, three prediction methods are presented that are based on the Burgers equation. These are: i) a numerically generated database, ii) correlation equations and iii) the phase assignment method. Near field propagation of air vehicle noise requires different treatment than far field. The effects which are mainly affecting the propagation are geometrical spreading, convection and refraction effects due to the flow field, as well as reflections and diffraction on the air vehicle surfaces. Towards these objectives, a new low-order flow/acoustics interaction method for the prediction of sound propagation and diffraction in unsteady compressible flow using adaptive 3-D hybrid grids is investigated. The total field is decomposed into the flow field described by the Euler equations, and the acoustics field described by the Nonlinear Perturbation equations. The method is shown capable of predicting monopole sound propagation, while employment of acoustics-guided adapted grid refinement improves the accuracy of capturing the acoustic field. Interaction of sound with solid boundaries is also examined in terms of reflection and diffraction. Sound propagation through an unsteady flow field is examined using static and dynamic flow/acoustics coupling demonstrating the importance of the latter. Proof of concept for the new method is provided by its application to the case of a conventional jet transport airplane, examining the effect of flow field and wing shielding on the near field noise levels. During the aforementioned noise investigation and analysis, results on Blade Wake Interaction (BWI) noise were also reached. Presently, the mechanism of BWI noise generation, as well as the corresponding prediction model, are still under consideration. Helicopter rotor BWI noise is known to be significant during take-off and level flight, while less attention has been given to descent flight conditions, where BVI noise is dominant. Through signal analysis of the HELISHAPE descent case acoustic database, the rotor azimuthal region responsible for BWI noise is localized and the dominance of BVI noise in the BWI frequency region is shown. Coherence analysis of the blade pressure data indicate significant chordwise coherence in the 3 to 4 Struhal number range and absence of acoustic dipoles in the BWI frequency range. The findings of this study support BWI prediction models based on Amiet’s theory and suggest that BWI noise can be ignored for predictions of rotor noise in descent flight conditions. / Η ανάπτυξη που συναντάται στην αεροπλοΐα τις τελευταίες δεκαετίες έχει τραβήξει την προσοχή στην περιβαλλοντολογική επίδραση των αεροσκαφών. Ένα σημαντικό μέρος αυτής της επίδρασης είναι ο θόρυβος των αεροχημάτων ο οποίος ευθύνεται κατά ένα μεγάλος μέρος για την ενόχληση του πληθυσμού στις περιοχές των αεροδρομίων και όχι μόνο. Η δημιουργία και η διάδοση του θορύβου αεροχημάτων είναι δύο διαφορετικές περιοχές ενδιαφέροντος, οι οποίες απαιτούν ακριβή πρόβλεψη στην προσπάθεια ελέγχου των εκπεμπόμενων ηχητικών επιπέδων. Η παρούσα διατριβή χρησιμοποιεί αριθμητικές μεθόδους για τη μελέτη της διάδοσης του θορύβου αεροχημάτων. Χωρίζεται δε σε δύο μέρη: τη μελέτη του μακρινού και του κοντινού πεδίου. Καθεμία από αυτές τις μελέτες επικεντρώνεται στους μηχανισμούς ηχητικής διάδοσης που είναι κυρίαρχοι σε κάθε περίπτωση και χρησιμοποιεί μια αριθμητική μέθοδο που ταιριάζει καλύτερα όσο αναφορά την απόδοσή της και τους μηχανισμούς που εξετάζονται. Η μελέτη μακρινού πεδίου εστιάζεται στη μη-γραμμική διάδοση θορύβου ρότορα ελικοπτέρου με τη χρήση της εξίσωσης Burgers, μιας γνωστής μεθόδου υπολογιστικής διάδοσης ήχου σε μία διεύθυνση. Η εξίσωση Burgers περικλείει τα φαινόμενα της γεωμετρικής εξασθένισης, ατμοσφαιρικής απορρόφησης και μι-γραμμικής στρέβλωσης. Σε αυτή τη μελέτη χρησιμοποιήθηκαν τα δεδομένα του πειράματος HELISHAPE. Ο θόρυβος από αλληλεπίδραση πτερυγίου-στροβίλου (BVI noise), ο οποίος είναι ο κυρίαρχος αεροδυναμικός θόρυβος στην περίπτωση της καθοδικής πτήσης, είναι αυτός που εξετάστηκε κυρίως. Αποδείχθηκε ότι ο θόρυβος BVI στην πλευρά του προχωρούντος πτερυγίου (advancing side) επηρεάζεται σημαντικά από τα μη-γραμμικά φαινόμενα σε αντίθεση με την πλευρά του υποχωρούντος πτερυγίου (retreating side). Μερικές μπάντες συχνοτήτων έδειξαν διαφορές μεταξύ γραμμικής και μη-γραμμικής διάδοσης έως και 7dB. Βασιζόμενοι στα χαρακτηριστικά των σημάτων, δύο νέα μεγέθη ορίστηκαν. Το πρώτο από αυτά, με το όνομα πολικότητα (polarity) βασίζεται στην παράγωγο της ακουστικής πίεσης του αρχικού σήματος και μπορεί να προσδιορίσει αν το σήμα θα διαδοθεί σαν προχωρούν ή υποχωρούν. Το δεύτερο μέγεθος, με το όνομα ζυγισμένος χρόνος ανόδου (weighted rise time) είναι μια εκτίμηση της παλμικότητας του σήματος BVI και μπορεί να χρησιμοποιηθεί για να προσδιορίσει την περιοχή συχνοτήτων όπου τα μη-γραμμικά φαινόμενα θα ξεκινήσουν να εμφανίζονται. Αυτά τα μεγέθη αποδείχθηκε ότι μπορούν να χρησιμοποιηθούν και σε περιπτώσεις θορύβου BVI άλλων πτερύγων, καθώς και σε μη-BVI σήματα. Ωστόσο, η χρήση της εξίσωσης Burgers μπορεί να είναι χρονοβόρα αν συμπεριληφθεί σε υπολογισμούς ρουτίνας. Ακόμη προϋποθέτει γνώση του αρχικού σήματος ακουστικής πίεσης. Το ηχητικό φάσμα από μόνο του, που συνήθως είναι γνωστό, δεν είναι αρκετό. Για να ξεπεραστούν αυτές οι δυσκολίες, παρουσιάζονται τρεις μέθοδοι πρόβλεψης οι οποίες βασίζονται στην εξίσωση Burgers. Αυτές είναι: i) μια υπολογιστικά δημιουργημένη βάση δεδομένων ii) εξισώσεις συσχετίσεων και iii) η μέθοδος της ανάθεσης φάσης. Η μελέτη διάδοσης θορύβου στο κοντινό πεδίο απαιτεί διαφορετική μεταχείριση από το μακρινό πεδίο. Τα φαινόμενα που την επηρεάζουν περισσότερο είναι αυτά της γεωμετρικής εξασθένισης, μεταφοράς και περίθλασης λόγω του ροϊκού πεδίου, καθώς και ανάκλαση και διάθλαση στις επιφάνειες του αεροχήματος. Για το λόγο αυτό μελετάται μια νέα μέθοδος χαμηλής τάξης ακρίβειας, αλληλεπίδρασης ροϊκού-ακουστικού πεδίου για την διάδοση και διάθλαση ήχου σε ασταθή συμπιεστή ροή με τη χρήση 3D υβριδικού πλέγματος. Το ολικό πεδίο διαχωρίζεται στο ροϊκό πεδίο περιγραφόμενο από τις εξισώσεις Euler και το ακουστικό πεδίο από τις μη-γραμμικές εξισώσεις διαταραχών. Η μέθοδος αποδεικνύεται ικανή να προβλέψει την ηχητική διάδοση μονοπόλου, ενώ η χρήση προσαρμοσμένου πλέγματος βελτιώνει την ακρίβεια του ηχητικού πεδίου. Η αλληλεπίδραση ήχου και στερεών επιφανειών εξετάζεται επίσης σχετικά με τα φαινόμενα ανάκλασης και διάθλασης. Εξετάζεται ακόμα η διάδοση ήχου σε ασταθές ροϊκό πεδίο χρησιμοποιώντας στατική και δυναμική σύζευξη και αποδεικνύεται η σημαντικότητα της δεύτερης. Απόδειξη χρηστικότητας της νέα μεθόδου επιδεικνύεται με την εφαρμογή για την περίπτωση συμβατικού επιβατηγού αεροσκάφους, όπου εξετάζονται τα φαινόμενα της επίδρασης της ροής και της ηχητικής κάλυψης της πτέρυγας στα ηχητικά επίπεδα του κοντινού πεδίου. Κατά τη διάρκεια των παραπάνω ακουστικών διερευνήσεων, επιτεύχθηκαν ακόμα κάποια αποτελέσματα πάνω στον θόρυβο λόγω αλληλεπίδρασης πτερυγίου-απορεύματος (BWI noise). Μέχρι τώρα ο ακριβής μηχανισμός του θορύβου BWI, όπως και το αντίστοιχο μοντέλο πρόβλεψης, αποτελεί θέμα μελετών. Ο θόρυβος BWI στα ελικόπτερα είναι γνωστό ότι είναι σημαντικός στις περιπτώσεις ανοδικής και επίπεδης πτήσης, ενώ μικρή βαρύτητα έχει δοθεί στην περίπτωση της καθοδικής πτήσης λόγω της κυριαρχίας του BVI θορύβου. Μέσω ανάλυσης σημάτων του HELISHAPE για τη περίπτωση της καθοδικής πτήσης, εντοπίστηκε η περιοχή του δίσκου του ρότορα υπεύθυνη για τον θόρυβο BWI και δείχθηκε η επίδραση του θορύβου BVI στην περιοχή συχνοτήτων BWI. Ανάλυση συνοχής (coherence analysis) των αεροδυναμικών πιέσεων των πτερυγίων έδειξε σημαντικές τιμές στη περιοχή τιμών 3 με 4 αριθμών Struhal και απουσία ακουστικών διπόλων στην περιοχή συχνοτήτων του BWI. Τα ευρήματα της παρούσας μελέτης υποστηρίζουν το μοντέλο πρόβλεψης θορύβου BWI που βασίζεται στη θεωρία του Amiet και προτείνουν ότι ο θόρυβος BWI μπορεί να αγνοηθεί στις προβλέψεις θορύβου ρότορα σε συνθήκες καθοδικής πτήσης.

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