IHS ESDU Generation of GUNACA 23-series of low-drag aerofoils. 99003

Description
ESDU 99003 introduces a series of low-drag aerofoils designed at Glasgow University and a Fortran program for generating their geometry and their inviscid flow characteristics. The low-drag NACA 6- and 6A-series are considered and it is explained that they achieve their low drag through a favourable pressure distribution on their forward surfaces that inhibits transition. As a result, on a plot of drag coefficient versus lift coefficient, they show a drag bucket - a region of near-constant low drag over a range of lift coefficient. Because of the limits of computational technology at that time, the design of those sections relied on linearised theory, but the GUNACA sections rely on the full theory of Lighthill to design sections with the same objectives and so show similar characteristics to the NACA 6-series sections. By comparing their flow (and geometric) characteristics with those of the NACA sections in a series of sketches, their potential benefits are illustrated. The program is provided as ESDUpacs A9903 with file input and B9903 with on-screen prompts for the selection of output options. The output includes the ordinates of the sections, the velocity distributions at both the lower and upper values of the design range of lift coefficient (approximately defining the extent of the drag bucket), the pressure coefficient distribution at any incidence, and the distribution of a parameter that allows the velocity distribution to be calculated at any incidence. In addition the characteristics of the chosen section are summarised including its geometric features, its lift-curve slope and zero-lift angle, its aerodynamic centre and zero-lift pitching moment, and the extent of the design range of lift coefficient.
Description
ESDU 99003 introduces a series of low-drag aerofoils designed at Glasgow University and a Fortran program for generating their geometry and their inviscid flow characteristics. The low-drag NACA 6- and 6A-series are considered and it is explained that they achieve their low drag through a favourable pressure distribution on their forward surfaces that inhibits transition. As a result, on a plot of drag coefficient versus lift coefficient, they show a drag bucket - a region of near-constant low drag over a range of lift coefficient. Because of the limits of computational technology at that time, the design of those sections relied on linearised theory, but the GUNACA sections rely on the full theory of Lighthill to design sections with the same objectives and so show similar characteristics to the NACA 6-series sections. By comparing their flow (and geometric) characteristics with those of the NACA sections in a series of sketches, their potential benefits are illustrated. The program is provided as ESDUpacs A9903 with file input and B9903 with on-screen prompts for the selection of output options. The output includes the ordinates of the sections, the velocity distributions at both the lower and upper values of the design range of lift coefficient (approximately defining the extent of the drag bucket), the pressure coefficient distribution at any incidence, and the distribution of a parameter that allows the velocity distribution to be calculated at any incidence. In addition the characteristics of the chosen section are summarised including its geometric features, its lift-curve slope and zero-lift angle, its aerodynamic centre and zero-lift pitching moment, and the extent of the design range of lift coefficient.

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Generation of GUNACA 23-series of low-drag aerofoils. - 99003 - IHS ESDU
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Generation of GUNACA 23-series of low-drag aerofoils.
99003
Generation of GUNACA 23-series of low-drag aerofoils. 99003
ESDU 99003 introduces a series of low-drag aerofoils designed at Glasgow University and a Fortran program for generating their geometry and their inviscid flow characteristics. The low-drag NACA 6- and 6A-series are considered and it is explained that they achieve their low drag through a favourable pressure distribution on their forward surfaces that inhibits transition. As a result, on a plot of drag coefficient versus lift coefficient, they show a drag bucket - a region of near-constant low drag over a range of lift coefficient. Because of the limits of computational technology at that time, the design of those sections relied on linearised theory, but the GUNACA sections rely on the full theory of Lighthill to design sections with the same objectives and so show similar characteristics to the NACA 6-series sections. By comparing their flow (and geometric) characteristics with those of the NACA sections in a series of sketches, their potential benefits are illustrated. The program is provided as ESDUpacs A9903 with file input and B9903 with on-screen prompts for the selection of output options. The output includes the ordinates of the sections, the velocity distributions at both the lower and upper values of the design range of lift coefficient (approximately defining the extent of the drag bucket), the pressure coefficient distribution at any incidence, and the distribution of a parameter that allows the velocity distribution to be calculated at any incidence. In addition the characteristics of the chosen section are summarised including its geometric features, its lift-curve slope and zero-lift angle, its aerodynamic centre and zero-lift pitching moment, and the extent of the design range of lift coefficient.

ESDU 99003 introduces a series of low-drag aerofoils designed at Glasgow University and a Fortran program for generating their geometry and their inviscid flow characteristics. The low-drag NACA 6- and 6A-series are considered and it is explained that they achieve their low drag through a favourable pressure distribution on their forward surfaces that inhibits transition. As a result, on a plot of drag coefficient versus lift coefficient, they show a drag bucket - a region of near-constant low drag over a range of lift coefficient. Because of the limits of computational technology at that time, the design of those sections relied on linearised theory, but the GUNACA sections rely on the full theory of Lighthill to design sections with the same objectives and so show similar characteristics to the NACA 6-series sections. By comparing their flow (and geometric) characteristics with those of the NACA sections in a series of sketches, their potential benefits are illustrated. The program is provided as ESDUpacs A9903 with file input and B9903 with on-screen prompts for the selection of output options. The output includes the ordinates of the sections, the velocity distributions at both the lower and upper values of the design range of lift coefficient (approximately defining the extent of the drag bucket), the pressure coefficient distribution at any incidence, and the distribution of a parameter that allows the velocity distribution to be calculated at any incidence. In addition the characteristics of the chosen section are summarised including its geometric features, its lift-curve slope and zero-lift angle, its aerodynamic centre and zero-lift pitching moment, and the extent of the design range of lift coefficient.

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Technical Specifications

  IHS ESDU
Product Category Standards and Technical Documents
Product Number 99003
Product Name Generation of GUNACA 23-series of low-drag aerofoils.
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