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Numerical simulation of a low-emission gas turbine combustor using KIVA-II (1992)

Yang, S. L. ; Chen, R. ; Cline, M. C. ; [et al.]

Chichester : Wiley-Blackwell

International Journal for Numerical Methods in Fluids 15 (1992), S. 865-881

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ISSN: 0271-2091

Keywords: Gas turbine combustors ; CFD ; Emissions ; Airblast atomizers ; Dilution jet mixing ; Engineering ; Engineering General

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Mechanical Engineering, Materials Science, Production Engineering, Mining and Metallurgy, Traffic Engineering, Precision Mechanics

Notes: A numerical study was performed to investigate chemically reactive flows with sprays inside a staged turbine combustor (STC) using a modified version of the KIVA-II code. This STC consists of a fuel nozzle (FN), a rich-burn (RB) zone, a converging connecting pipe, a quick-quench (QQ) zone, a diverging connecting pipe and a lean-combustion (LC) zone. From the computational viewpoint, it is more efficient to split the STC into two subsystems, called FN/RB zone and QQ/LC zones, and the numerical solutions were obtained separately for each subsystem. This paper addresses the numerical results of the STC which is equipped with an advanced airblast fuel nozzle. The airblast nozzle has two fuel injection passages and four air flow passages. The input conditions used in this study were chosen similar to those encountered in advanced combustion systems. Preliminary results generated illustrate some of the major features of the flow and temperature fields inside the STC. Velocity, temperature and some critical species information inside the FN/RB zone are given. Formation of the co- and counter-rotating bulk flow and the sandwiched-ring-shaped temperature field, typical of the confined inclined jet-in-cross-flow, can be seen clearly in the QQ/LC zones. The calculations of the mass-weighted standard deviation and the pattern factor of temperature revealed that the mixing performance of the STC is very promising. The temperature of the fluid leaving the LC zone is very uniform. Prediction of the NOx emission shows that there is no excessive thermal NOx produced in the QQ/LC zones for the case studied. From the results obtained so far, it appears that the modified KIVA-II code can be used to guide the low-emission combustion experiments.

Additional Material: 15 Ill.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/fld.1650150803

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Paper (German National Licenses)

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2

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Computation of steady nozzle flow by a time-dependent method (1974)

Cline, M. C.

In: Other Sources

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Publication Date: 2011-08-16

Description: The equations of motion governing steady, inviscid flow are of a mixed type, that is, hyperbolic in the supersonic region and elliptic in the subsonic region. These mathematical difficulties may be removed by using the so-called time-dependent method, where the governing equations become hyperbolic everywhere. The steady-state solution may be obtained as the asymptotic solution for large time. The object of this research was to develop a production type computer program capable of solving converging, converging-diverging, and plug two-dimensional nozzle flows in computational times of 1 min or less on a CDC 6600 computer.

Keywords: FLUID MECHANICS

Type: AIAA Journal; 12; Apr. 197

Format: text

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3

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Computation of the Shuttle solid booster nozzle start-up transient flow (1985)

Wilmoth, R. G. ; Cline, M. C.

In: Other Sources

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Publication Date: 2011-08-19

Keywords: SPACECRAFT PROPULSION AND POWER

Type: Journal of Propulsion and Power (ISSN 0748-4658); 1; 321-328

Format: text

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The analysis of nonequilibrium, chemically reacting, supersonic flow in three dimensions using a bicharacteristics method. (1973)

Cline, M. C. ; Hoffman, J. D.

In: Other Sources

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Publication Date: 2011-08-16

Description: A second-order numerical method of characteristics based on a bicharacteristics scheme was developed for the evaluation of steady, supersonic, nonequilibrium, chemically reacting flows. The absolute accuracy and order of accuracy of the method was shown by comparisons with spherical source flow and axisymmetric, nonequilibrium flows. Numerical results were obtained for elliptical and super-elliptical nozzles. These results illustrate the complex nature of three-dimensional flows and the inadequacy of quasi-three-dimensional methods which neglect cross flows.

Keywords: FLUID MECHANICS

Type: Journal of Computational Physics; 12; May 1973

Format: text

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Stability aspects of diverging subsonic flow (1980)

Cline, M. C.

In: Other Sources

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Publication Date: 2011-08-17

Description: The paper describes the computation of two-dimensional, subsonic, diverging internal flows and how they differ from the corresponding converging flows. Such diverging or decelerating flows occur in such obvious places as subsonic diffusers and inlets; however, such flows also occur in supersonic nozzles in the presence of a normal shock. The flow instability and its relation to the numerical method used, boundary conditions, and viscous effects are assessed both analytically and numerically. The inviscid flow is shown to be physically unstable and a poor representation of the true viscous flow.

Keywords: AERODYNAMICS

Type: AIAA Journal; 18; May 1980

Format: text

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Computation of high Reynolds number internal/external flows (1983)

Cline, M. C. ; Wilmoth, R. G.

In: Other Sources

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Publication Date: 2011-08-18

Description: (Previously cited in issue 17, p. 2878, Accession no. A81-39001)

Keywords: AERODYNAMICS

Format: text

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A three-dimensional algebraic grid generation scheme for gas turbine combustors with inclined slots (1993)

Yang, S. L. ; Cline, M. C. ; Chang, Y. L. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: A 3D algebraic grid generation scheme is presented for generating the grid points inside gas turbine combustors with inclined slots. The scheme is based on the 2D transfinite interpolation method. Since the scheme is a 2D approach, it is very efficient and can easily be extended to gas turbine combustors with either dilution hole or slot configurations. To demonstrate the feasibility and the usefulness of the technique, a numerical study of the quick-quench/lean-combustion (QQ/LC) zones of a staged turbine combustor is given. Preliminary results illustrate some of the major features of the flow and temperature fields in the QQ/LC zones. Formation of co- and counter-rotating bulk flow and shape temperature fields can be observed clearly, and the resulting patterns are consistent with experimental observations typical of the confined slanted jet-in-cross flow. Numerical solutions show the method to be an efficient and reliable tool for generating computational grids for analyzing gas turbine combustors with slanted slots.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: NASA-CR-191095 , E-7674 , NAS 1.26:191095

Format: application/pdf

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Computation of the Space Shuttle solid rocket booster nozzle start-up transient flow (1984)

Wilmoth, R. G. ; Cline, M. C.

In: Other Sources

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Publication Date: 2019-06-28

Description: The first NASA Space Shuttle flight (STS-1) produced an overpressure wave that exceeded preflight predictions by as much as 5 to 1. This second overpressure wave occurred just after the solid rocket booster (SRB) igniter wave. To understand this overpressure phenomenon, a numerical simulation effort was undertaken. Both the SRB static firing test and STS-1 geometries were studied for two-dimensional, inviscid and viscous flow. The inviscid calculations did not produce significant second overpressure waves. However, the viscous calculations did produce second overpressure waves that qualitatively agree with experiment. These overpressure waves were present in both the static firing test and STS-1 geometries. This second overpressure wave is generated by the motion of the boundary layer separation point and the subsequent radial motion of the exhaust jet during the start-up of the SRB nozzle flow. The presence of the mobile launch platform exhaust hole wale amplifies this wave, but does not appear to be the source of any additional overpressure waves. The lack of good quantitative agreement between theory and experiment indicates that other overpressure sources, not accounted for by this simulation, may be present.

Keywords: SPACECRAFT PROPULSION AND POWER

Type: AIAA PAPER 84-0462

Format: text

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Computation of high Reynolds number internal/external flows (1981)

Wilmoth, R. G. ; Cline, M. C.

In: CASI

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Publication Date: 2019-06-28

Description: A general, user oriented computer program, called VNAF2, developed to calculate high Reynolds number internal/external flows is described. The program solves the two dimensional, time dependent Navier-Stokes equations. Turbulence is modeled with either a mixing length, a one transport equation, or a two transport equation model. Interior grid points are computed using the explicit MacCormack scheme with special procedures to speed up the calculation in the fine grid. All boundary conditions are calculated using a reference plane characteristic scheme with the viscous terms treated as source terms. Several internal, external, and internal/external flow calculations are presented.

Keywords: AERODYNAMICS

Type: NASA-TM-84829 , NAS 1.15:84829 , LOG-J12892

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The computation of steady nozzle flow by a time-dependent method (1974)

Cline, M. C.

In: CASI

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Publication Date: 2019-06-27

Description: The steady flow in two-dimensional and axisymmetric nozzles was computed using a time-dependent method. In this method the interior mesh points were computed using the MacCormack finite-difference scheme, while a characteristic scheme was used to calculate the boundary mesh points. No explicit artificial viscosity term was included. The fluid was assumed to be a perfect gas. This method was used to compute the flow in a 45 deg - 15 deg conical, converging-diverging nozzle, a 15 deg conical, converging nozzle, and a 10 deg conical, plug nozzle. Good agreement between the numerical solution and experimental data was found. In contrast to previous time-dependent methods, the computational times were less than one minute on a CDC 6600 computer.

Keywords: FLUID MECHANICS

Type: NASA-TM-X-71918

Format: application/pdf

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