On the Conservation of Rothalpy in Turbomachines

Lyman, F. A.

doi:10.1115/1.2929282

Cited by 45 publications

(14 citation statements)

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“…Therefore, the pseudo-ideal term cannot be ideal unless the system is ideal. Similar conclusions apply to the total relative rothalpy [12], which depends upon the pseudo-ideal term.…”

Section: (~(31)supporting

confidence: 62%

“…Now Equation (8) may be used to replace the pressure gradient in (12). From the dot product of U with the moving frame equality in (8) the pressure gradient term becomes (see Reference [10] ):…”

Section: Dhomentioning

confidence: 99%

“…Wu's totp.1 relative rothalpy relation [7][8][9] (see also [12]) with I defined by h + W 2 /2 -U 2 /2 -h,-UVU is given by:…”

Section: The Total Rothalpy Argumentmentioning

confidence: 99%

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Some Implications of a Differential Turbomachinery Equation With Viscous Correction

Urbach¹

1993

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“…Therefore, the pseudo-ideal term cannot be ideal unless the system is ideal. Similar conclusions apply to the total relative rothalpy [12], which depends upon the pseudo-ideal term.…”

Section: (~(31)supporting

confidence: 62%

Section: Dhomentioning

confidence: 99%

See 1 more Smart Citation

Some Implications of a Differential Turbomachinery Equation With Viscous Correction

Urbach¹

1993

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“…As presented by Lyman (1992), Rothalpy has properties in a rotor similar to total enthalpy in a nozzle. It is conserved on a steady streamline in inviscid flow.…”

Section: Resultsmentioning

confidence: 91%

Unsteady Cooled Turbine Simulation Using a PC-Linux Analysis System

List

Turner

Chen

et al. 2004

42nd AIAA Aerospace Sciences Meeting and Exhibit

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“…An entropy equation is applied which accounts for mixing loss and other loss mechanisms. The unshrouded rotor in the HPT has an extra term in the energy equation that is calculated in the high fidelity simulation and described by Lyman [25].…”

Section: Mini-map Generationmentioning

confidence: 99%

Multi-Fidelity Simulation of a Turbofan Engine With Results Zoomed Into Mini-Maps for a Zero-D Cycle Simulation

Turner

Reed²,

Ryder³

et al. 2004

Volume 2: Turbo Expo 2004

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A Zero-D cycle simulation of the GE90-94B high bypass turbofan engine has been achieved utilizing mini-maps generated from a high-fidelity simulation. The simulation utilizes the Numerical Propulsion System Simulation (NPSS) thermodynamic cycle modeling system coupled to a high-fidelity full-engine model represented by a set of coupled 3D computational fluid dynamic (CFD) component models. Boundary conditions from the balanced, steady-state cycle model are used to define component boundary conditions in the full-engine model. Operating characteristics of the 3D component models are integrated into the cycle model via partial performance maps generated from the CFD flow solutions using one-dimensional meanline turbomachinery programs. This paper high-lights the generation of the highpressure compressor, booster, and fan partial performance maps, as well as turbine maps for the high pressure and low pressure turbine. These are actually “mini-maps” in the sense that they are developed only for a narrow operating range of the component. Results are compared between actual cycle data at a take-off condition and the comparable condition utilizing these mini-maps. The mini-maps are also presented with comparison to actual component data where possible.

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On the Conservation of Rothalpy in Turbomachines

Cited by 45 publications

References 0 publications

Some Implications of a Differential Turbomachinery Equation With Viscous Correction

Some Implications of a Differential Turbomachinery Equation With Viscous Correction

Unsteady Cooled Turbine Simulation Using a PC-Linux Analysis System

Multi-Fidelity Simulation of a Turbofan Engine With Results Zoomed Into Mini-Maps for a Zero-D Cycle Simulation

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