Azimuthally Varying Noise Reduction Techniques Applied To Supersonic Jets
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Azimuthally Varying Noise Reduction Techniques Applied To Supersonic Jets
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Author : Nicholas S. Heeb
language : en
Publisher:
Release Date : 2015
Azimuthally Varying Noise Reduction Techniques Applied To Supersonic Jets written by Nicholas S. Heeb and has been published by this book supported file pdf, txt, epub, kindle and other format this book has been release on 2015 with categories.
An experimental investigation into the effect of azimuthal variance of chevrons and fluidically enhanced chevrons applied to supersonic jets is presented. Flow field measurements of streamwise and cross-stream particle imaging velocimetry were employed to determine the causes of noise reduction, which was demonstrated through acoustic measurements. Results were obtained in the over- and under- expanded regimes, and at the design condition, though emphasis was placed on the overexpanded regime due to practical application. Surveys of chevron geometry, number, and arrangement were undertaken in an effort to reduce noise and/or incurred performance penalties. Penetration was found to be positively correlated with noise reduction in the overexpanded regime, and negatively correlated in underexpanded operation due to increased effective penetration and high frequency penalty, respectively. The effect of arrangement indicated the beveled configuration achieved optimal abatement in the ideally and underexpanded regimes due to superior BSAN reduction. The symmetric configuration achieved optimal overexpanded noise reduction due to LSS suppression from improved vortex persistence. Increases in chevron number generally improved reduction of all noise components for lower penetration configurations. Higher penetration configurations reached levels of saturation in the four chevron range, with the potential to introduce secondary shock structures and generate additional noise with higher number. Alternation of penetration generated limited benefit, with slight reduction of the high frequency penalty caused by increased shock spacing. The combination of alternating penetration with beveled and clustered configurations achieved comparable noise reduction to the standard counterparts. Analysis of the entire data set indicated initial improvements with projected area that saturated after a given level and either plateaued or degraded with additional increases. Optimal reductions were 3-7dB depending on operating condition and observation angle. The fluidic enhancement of the low penetration chevrons indicated significant improvement in the overexpanded regime, with detrimental effect at higher conditions. Improvements were generally due to shock noise and turbulent mixing noise reductions caused by decreased shock strength and LSS growth inhibition. Investigation of azimuthal configurations indicated further improvements were achieved by the clustered configuration due to additional BSAN reductions caused by drastic modification of the shock cell structure due to elliptification of the jet cross section.
The Generation And Radiation Of Supersonic Jet Noise Future Studies For Definition Of Supersonic Jet Noise Generation And Reduction Mechanisms
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Author :
language : en
Publisher:
Release Date : 1972
The Generation And Radiation Of Supersonic Jet Noise Future Studies For Definition Of Supersonic Jet Noise Generation And Reduction Mechanisms written by and has been published by this book supported file pdf, txt, epub, kindle and other format this book has been release on 1972 with Jet planes categories.
Simulations Of The Flow Generated By Fluidic Inserts For Supersonic Jet Noise Reduction Based On Steady Rans Simulations
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Author : Matthew Kapusta
language : en
Publisher:
Release Date : 2015
Simulations Of The Flow Generated By Fluidic Inserts For Supersonic Jet Noise Reduction Based On Steady Rans Simulations written by Matthew Kapusta and has been published by this book supported file pdf, txt, epub, kindle and other format this book has been release on 2015 with categories.
The investigation of military jet noise prediction and reduction is an ongoing activity. Supersonic military jets radiate higher noise levels than commercial aircraft and are not subject to noise requirements. The noise generating mechanisms for high-speed jets are not entirely understood, making it difficult to set strict noise standards similar to those imposed for commercial aircraft. However, many noise reduction techniques have been applied to attempt to alleviate environmental and health concerns. Little success has been achieved to date for noise reduction of exhaust jets on supersonic tactical aircraft.A newly developed method involves a system that generates fluidic inserts in a supersonic nozzle flow to produce noise reduction. Numerical simulations have been performed for a military-style basline nozzle and with the noise reduction method of fluidic inserts used at a design Mach number of 1.65 and at various off design conditions. The purpose of the current numerical study is to provide insight for the flow field generated by the fluidic inserts used to reduce supersonic jet noise. The supersonic jet simulations are based on the use of high fidelity meshes combined with advanced CFD technology. Steady Reynolds-averaged Navier-Stokes (RANS) simulations are used to predict the flow field. Noise measurements have been performed experimentally and the results from the numerical simulations provide a correlation between aerodynamic properties and the corresponding noise reduction. The complex nozzle geometry is modeled using both an unstructured mesh and a multiblock structured mesh. The grids are generated by ANSYS ICEM and Gridgen respectively. The numerical simulations are performed using ANSYS CFX and Wind-US. The simulations with Wind-US use the Spalart-Allmaras turbulence model, while the simulations with ANSYS CFX use the Menter SST turbulence model. The results from the two flow solvers are compared and provide good agreement. The objective is to simulate a military-style nozzle, which resembles engines of the GE F404 family, with fluidic inserts. The purpose of the fluidic inserts is to alter the flow field similar to that of a hard wall corrugation in order to reduce components of noise radiation. The addition of the fluidic inserts increases the complexity of the flow field for the supersonic jet. The numerical simulations performed help to better distinguish the effects on the flow field due to the fluidic inserts. Preliminary work has been performed on a simpler geometry to provide further insight to the effect of the fluidic inserts on the supersonic jet flow field. These simulations are performed by fluid injection into a supersonic freestream over a flat plate. All numerical simulations used a freestream Mach number of 1.5. The numerical simulations used a wide range of pressure ratios for injecting the fluid into the supersonic freestream. By changing the pressure ratio of the fluid injection, the deflection of the freestream flow was better understood. Simulations on a full three dimensional nozzle with fluidic inserts were performed with conditions based on the preliminary studies. Parameters such as total pressure and total temperature provide a representation of the fluidic insert shape. Other integrated flow properties at the nozzle exit such as streamwise vorticity and pressure differential were used to correlate with the noise reduction seen in the experiments.
Simulation Of Supersonic Jet Noise Reduction Using Fluid Inserts For Low Bypass Ratio Turbofans
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Author : Chitrarth Prasad
language : en
Publisher:
Release Date : 2019
Simulation Of Supersonic Jet Noise Reduction Using Fluid Inserts For Low Bypass Ratio Turbofans written by Chitrarth Prasad and has been published by this book supported file pdf, txt, epub, kindle and other format this book has been release on 2019 with categories.
The design constraints on jet engines for high performance supersonic military aircraft require lower bypass ratios and supersonic exhaust velocities, which result in very high noise levels. This is a great concern to the US Navy as the noise generated from the jet exhaust of high performance supersonic military aircraft can affect the hearing and performance of personnel working in close proximity of the aircraft. There have been reports about the US Department of Veteran Affairs spending over hundreds of millions of dollars in disability payments for hearing loss compensation to former Navy personnel. In addition to this, jet noise is also a source of annoyance in communities in the vicinity of airbases and military training routes.Over the years, several noise reduction methods have been proposed with varying levels of success. The most effective noise reduction strategies include the installation of chevrons, and the use of corrugated seals, among many others. One primary disadvantage of these technologies is that they are passive technologies and cannot be switched off or modified after take-off and hence may reduce overall aircraft performance. An active, though steady, noise reduction technology is the use of fluid inserts in the divergent section of a converging-diverging nozzle. The fluid inserts consist of rows of injectors that inject a small amount of bypass air into the diverging section of the nozzle. It has been shown that by altering the configuration and operating conditions of the fluid inserts, noise reduction for both mixing and shock noise can be achieved. Since this blowing can be controlled, the fluid inserts can be switched off or modified after take-off to minimize any performance penalty to the aircraft.Although considerable experimental research has been performed to explore the effects of fluid inserts on the jet exhaust, the available data have been found to be insufficient to correlate the noise reduction with changes in the flow-field due to the noise reduction device. The present study is an extension to the previousresearch on fluid inserts that uses Large Eddy Simulation (LES) with the Ffowcs Williams-Hawkings (FWH) analogy for farfield noise prediction. The simulations are carried out using a commercially available CFD package, STAR-CCM+. The project aims to simulate and analyze the unsteady flow changes associated withthe noise reduction device to help understand the detailed mechanisms for the observed noise reductions.Different fluid insert configurations are used to analyze the effect of individual injector placement in a fluid insert on noise generation. It is observed that the changes in upstream noise correlate extremely well with the shock structure of the fluid insert jets downstream of the nozzle exit. Further insight into the noisereduction patterns is obtained by using two-point space time correlations and the use of the modal techniques such as Proper Orthogonal Decomposition on the near-field data on the FWH surface, which show that fluid inserts reduce the amplitude of the noise radiating coherent structures. Using Doaks Momentum Potential Theory, it is observed that the changes associated with fluid insertson the hydrodynamic and acoustic modes correlate well with the far-field noise reduction.
Experimental Investigation Of Noise Reduction In Supersonic Jets Due To Jet Rotation And To Nozzle Geometry Changes
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Author :
language : en
Publisher:
Release Date : 1999
Experimental Investigation Of Noise Reduction In Supersonic Jets Due To Jet Rotation And To Nozzle Geometry Changes written by and has been published by this book supported file pdf, txt, epub, kindle and other format this book has been release on 1999 with categories.
An Analysis Of Noise Reduction In Supersonic Jets By Fluid Insert Nozzles
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Author : Venkata Rajeshwar Majety
language : en
Publisher:
Release Date : 2018
An Analysis Of Noise Reduction In Supersonic Jets By Fluid Insert Nozzles written by Venkata Rajeshwar Majety and has been published by this book supported file pdf, txt, epub, kindle and other format this book has been release on 2018 with categories.
The primary objective of this research is to analyze the noise reduction obtained with the use of fluid insert nozzles in heated supersonic jets. In this regard, the far-field pressure data of two types of nozzles (baseline and fluid inserts) are used to investigate and validate the spatiotemporal characteristics of the radiation field, and to determine the sound reduction obtained. Further, to gain a better understanding of the noise radiated, the polar correlation technique is used to determine the location and relative strengths of the noise sources. The results of this research can be summarized as follows: the fluid insert nozzles reduce the overall sound radiated by a maximum amount of 10 dB and 4 dB respectively in the downstream and upstream directions of the jet flow. The highest levels of sound are radiated in the downstream directions of the jet flow for all the nozzle cases. The greatest amount of noise reduction is obtained in the 60 azimuthal plane. Irrespective of the nozzle type, significant noise source strength is located within ten nozzle diameters downstream from the nozzle exit. As the frequency increases, the highest peak of the noise source strength distribution moves closer to the nozzle exit.
The Generation And Radiation Of Supersonic Jet Noise Summary Of Supersonic Jet Noise Studies
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Author :
language : en
Publisher:
Release Date : 1972
The Generation And Radiation Of Supersonic Jet Noise Summary Of Supersonic Jet Noise Studies written by and has been published by this book supported file pdf, txt, epub, kindle and other format this book has been release on 1972 with Jet planes categories.
Supersonic Transport Noise Reduction Technology Summary Phase 1 Summary Of Ge4 Sst Acoustic Suppression Research
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Author :
language : en
Publisher:
Release Date : 1972
Supersonic Transport Noise Reduction Technology Summary Phase 1 Summary Of Ge4 Sst Acoustic Suppression Research written by and has been published by this book supported file pdf, txt, epub, kindle and other format this book has been release on 1972 with categories.
A development program for a commercial supersonic aircraft and engines was sponsored by the Federal Aviation Administration during a five-year period from 1966 through 1971. The unique propulsion system, an afterburning turbojet, required acoustic suppression techniques to reduce its noise levels to those federally regulated for subsonic aircraft. An acoustic suppression research program was conducted by the General Electric Company to develop technology applicable to prototype and commercial supersonic engines. Primary emphasis was on jet noise suppressor development through model and engine testing. Various systems were studied including ejector pumping, simple mechanical primary and secondary suppressors, fluid injectants, multi-element tube nozzles, acoustically treated ejectors, highly segmented annular plug nozzles, etc. A research study on fundamental jet noise generation and reduction mechanisms was conducted at the General Electric Corporate Research and Development Center. In addition, investigatory tests were conducted for identification of total system noise. Application of a choked inlet and an open A sub 8 exhaust cycle were studied for noise reduction. Source turbomachinery noise generation and suppression through treatment application were investigated. This report summarizes the acoustic and aerodynamic technology with emphasis toward development of guidelines for future applications.
Supersonic Jet Noise Reductions Predicted With Increased Jet Spreading Rate
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Author :
language : en
Publisher:
Release Date : 1995
Supersonic Jet Noise Reductions Predicted With Increased Jet Spreading Rate written by and has been published by this book supported file pdf, txt, epub, kindle and other format this book has been release on 1995 with categories.
Development Of The Fluid Insert Noise Reduction Method Investigating Azimuthal Asymmetry
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Author : Jessica Morgan
language : en
Publisher:
Release Date : 2018
Development Of The Fluid Insert Noise Reduction Method Investigating Azimuthal Asymmetry written by Jessica Morgan and has been published by this book supported file pdf, txt, epub, kindle and other format this book has been release on 2018 with categories.
Supersonic tactical aircraft engines create a high amplitude noise environmentthat leads to hearing loss for military personnel working on aircraft carriers andnoise complaints around military bases. Between hearing loss compensation andnoise lawsuits, aircraft jet noise costs the US government a substantial amountof money every year. The US military is highly invested in developing jet noisereduction technology to mitigate these issues and their corresponding costs. PennState has developed an on-demand noise reduction method that uses fluid inserts.These inserts inject steady secondary air into the diverging section of a converging divergingnozzle. The fluid inserts generate streamwise vortices that break up thelarge scale turbulent structures that are the primary source of noise. In addition,the air injected by the fluid inserts weakens the shock cell structure that exists fornon-perfectly expanded jets causing a reduction in the broadband shock associatednoise. The fluid insert noise reduction method has shown up to a 5 dB noise benefitin the peak noise direction in laboratory small-scale testing. The purpose of thisdissertation is to further the development of the fluid insert noise reduction methodin preparation for eventual full-scale implementation.Development of this method includes: exploring the design by increasing the numberof fluid corrugations and investigating azimuthal asymmetry, taking Particle ImageVelocimetry (PIV) flow measurements to better understand the injector and coreinteractions, conduct moderate 1/7 scale experiments (a 5 time scale increase)to study the methods performance at larger scales, and determine the thrustperformance loss of the aircraft due to the operation of the injectors.The experiments and calculations of this dissertation reveal some key aspects ofthe fluid insert noise reduction method. Azimuthal asymmetry has little effecton the peak noise reduction. A more important factor is the azimuthal angularseparation between fluid corrugations. The fluid corrugations have to be sufficientlyspaced to allow the shear layer to thicken and penetrate into the core flow causinga reduction in the peak noise from large scale turbulence structures. There is a 4dB peak noise reduction when the fluid corrugations have a 120 degree angular separationwhich decreases down to only 1 dB noise reduction when the fluid corrugations are30 degrees apart. There are differences in noise reduction benefit between the small andmoderate scale testing. The small scale testing shows up to a 5.5 dB peak noisereduction while the moderate scale has a maximum of 4 dB peak noise reduction.The moderate scale results are very promising for full scale implementation. Lastly,it is concluded that the fluid inserts reduce the thrust by less than 2% when using5% of the total flow with the potential for even better performance.
