An Experimental Investigation of the Effects of Base Bleed in Axisymmetric Supersonic Flow PDF Download
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Author: Tarun Mathur
Publisher:
ISBN:
Category :
Languages : en
Pages : 228
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Book Description
Base bleed is a technique wherein a small quantity of fluid is injected into the base region of a projectile to reduce the base drag. The effects of base bleed on the near-wake flowfield of a cylindrical afterbody in a Mach 2.5 flow have been investigated in the present study. This experimental study is aimed at better understanding the complex fluid dynamic interactions occurring in the near-wake due to base bleed and is motivated by the lack of detailed velocity and turbulence data in this flowfield. The experimental techniques used include static pressure measurements, schlieren and shadowgraph photography, and two-component laser Doppler velocimetry (LDV). The comprehensive LDV mean velocity and turbulence measurements obtained during this study provide valuable insight into the physics of the base bleed mechanism and constitute a benchmark data set to aid analytical and computational efforts in modeling and predicting supersonic base flows. Static pressure measurements show that with increasing bleed flow rate, the average base pressure increases initially, attains a peak value near an injection parameter of I = 0.0148, and then decreases with further increase in I. The peak base pressure ratio at the optimum bleed condition is 18.5% higher than the blunt base case and 5.7% higher than for a 5 degree boattailed afterbody. Axial LDV traverses show peaks in turbulent kinetic energy along the centerline at the forward and rear stagnation point locations. Centerline measurements also indicate the near-disappearance of the primary recirculation region near the optimum bleed condition. Detailed mean velocity and turbulence data were obtained in the entire near-wake flowfield for three different bleed cases corresponding to low bleed, slightly pre-optimal bleed, and slightly post-optimal bleed conditions. These measurements indicate that the bleed flow provides at least some of the fluid required for shear layer entrainment and shields the base annulus from the outer shear layer and the primary recirculation region, leading to an increase in base pressure. There is an overall reduction in turbulence levels throughout the base bleed flowfields relative to the near-wake flowfields of blunt-based and boattailed afterbodies. With increasing bleed, the formation of a strong bleed jet shear layer and secondary recirculation region near the base annulus offsets the benefits of base bleed, leading to a drop in the base pressure. At all bleed conditions, the normal stress distribution is highly anisotropic with the axial component dominating the near-wake turbulence field. The net benefits of base bleed are maximized at the optimum bleed condition, which corresponds to the highest base pressure, the disappearance of the primary recirculation region, and the lowest turbulence and entrainment levels in the near-wake flowfield.
Author: Tarun Mathur
Publisher:
ISBN:
Category :
Languages : en
Pages : 228
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Book Description
Base bleed is a technique wherein a small quantity of fluid is injected into the base region of a projectile to reduce the base drag. The effects of base bleed on the near-wake flowfield of a cylindrical afterbody in a Mach 2.5 flow have been investigated in the present study. This experimental study is aimed at better understanding the complex fluid dynamic interactions occurring in the near-wake due to base bleed and is motivated by the lack of detailed velocity and turbulence data in this flowfield. The experimental techniques used include static pressure measurements, schlieren and shadowgraph photography, and two-component laser Doppler velocimetry (LDV). The comprehensive LDV mean velocity and turbulence measurements obtained during this study provide valuable insight into the physics of the base bleed mechanism and constitute a benchmark data set to aid analytical and computational efforts in modeling and predicting supersonic base flows. Static pressure measurements show that with increasing bleed flow rate, the average base pressure increases initially, attains a peak value near an injection parameter of I = 0.0148, and then decreases with further increase in I. The peak base pressure ratio at the optimum bleed condition is 18.5% higher than the blunt base case and 5.7% higher than for a 5 degree boattailed afterbody. Axial LDV traverses show peaks in turbulent kinetic energy along the centerline at the forward and rear stagnation point locations. Centerline measurements also indicate the near-disappearance of the primary recirculation region near the optimum bleed condition. Detailed mean velocity and turbulence data were obtained in the entire near-wake flowfield for three different bleed cases corresponding to low bleed, slightly pre-optimal bleed, and slightly post-optimal bleed conditions. These measurements indicate that the bleed flow provides at least some of the fluid required for shear layer entrainment and shields the base annulus from the outer shear layer and the primary recirculation region, leading to an increase in base pressure. There is an overall reduction in turbulence levels throughout the base bleed flowfields relative to the near-wake flowfields of blunt-based and boattailed afterbodies. With increasing bleed, the formation of a strong bleed jet shear layer and secondary recirculation region near the base annulus offsets the benefits of base bleed, leading to a drop in the base pressure. At all bleed conditions, the normal stress distribution is highly anisotropic with the axial component dominating the near-wake turbulence field. The net benefits of base bleed are maximized at the optimum bleed condition, which corresponds to the highest base pressure, the disappearance of the primary recirculation region, and the lowest turbulence and entrainment levels in the near-wake flowfield.
Author: Jeff Lee Herrin
Publisher:
ISBN:
Category :
Languages : en
Pages : 476
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Book Description
Author: Jeff Lee Herrin
Publisher:
ISBN:
Category :
Languages : en
Pages : 208
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Book Description
Author: Gordon Lee Thorn
Publisher:
ISBN:
Category : Fluid dynamics
Languages : en
Pages : 70
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Book Description
Author: Ramlala P. Sinha
Publisher:
ISBN:
Category :
Languages : en
Pages : 197
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Book Description
Author: Kenneth K. Kuo
Publisher: Taylor & Francis
ISBN: 9780891169376
Category : Science
Languages : en
Pages : 336
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Book Description
Includes papers presented at a symposium, which represent the state-of-the-art in the development of base bleed projectiles and related research, and are from recognized experts in the field. The papers have undergone a thorough review process.
Author:
Publisher:
ISBN:
Category : Aerodynamics
Languages : en
Pages : 52
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Author: Ram Sinha
Publisher:
ISBN:
Category :
Languages : en
Pages : 70
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Book Description
Results of an experimental and theoretical investigation of the near wake in an axisymmetric flow past a slender body at Mach number 3.92 with and without base injection are presented. For the experimental part centerline distributions of pressure, temperature, Mach number, velocity, and concentration were obtained. Turbulent as well as laminar flow fields were investigated for the zero injection case. Base injection problem was studied only in the turbulent flow case using gaseous hydrogen, helium, nitrogen, and argon as injectants. A special effort was made to study the variation of pressure, velocity, and Mach number at the base with base injection. For the theoretical part an expression was developed to calculate the centerline distribution of turbulent viscosity from experimental profiles using full Navier-Stokes equations; flow fields with non-zero pressure gradients were considered. Using this expression, centerline viscosity distributions for various cases of wake flow and coaxial mixing were calculated and the results compared with those obtained from the empirical models. (Author).
Author: Milton A. Beheim
Publisher:
ISBN:
Category : Axial flow
Languages : en
Pages : 44
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Book Description
A theoretical and experimental investigation has been conducted of the pressure distribution on the surface of either a circular cylinder or a truncated cone located within the base region of another circular cylinder at Mach number 2. A similar analysis of pressure distribution was made for rearward-facing two-dimensional steps, and theoretical results were compared with experimental results of earlier investigations. Theoretical base-pressure ratios of two-dimensional steps agreed well with experimental results; however, as a result of the simplifying assumptions made for axisymmetric configurations, only a range of values for theoretical base-pressure ratio could be calculated within which the experimental results were expected to occur. The data generally followed the trends predicted by the theory, and deviations apparently could be explained.
Author:
Publisher:
ISBN:
Category : Aeronautics
Languages : en
Pages : 710
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Book Description
