This paper presents the results of a fundamental, comprehensive, and rigorous analytical and computational examination of the performance of the Brayton propulsion and power cycle employing real air as the working fluid. This approach capitalizes on the benefits inherent in closed cycle thermodynamic reasoning and the behavior of the thermally perfect gas to facilitate analysis. The analysis uses a high fidelity correlation to represent the specific heat at constant pressure of air as a function of temperature and the polytropic efficiency to evaluate the overall efficiency of the adiabatic compression and expansion processes. The analytical results are algebraic, transparent, and easily manipulated, and the computational results present a useful guidance for designers and users. The operating range of design parameters considered covers any current and foreseeable application. The results include some important comparisons with more simplified conventional analyses.

Issue Section:
Gas Turbines: Cycle Innovations
Keywords:
air, Brayton cycle, propulsion, specific heat, thermal expansion, thermodynamics
Topics:
Brayton cycle, Compression, Heat, Pressure, Specific heat, Temperature, Thermal efficiency, Cycles, Propulsion, Algebra
1.
Wilcock
,
R. C.
,
Young
,
J. B.
, and
Horlock
,
J. H.
, 2002, “
Gas Properties as a Limit to Gas Turbine Performance
,” ASME Paper No. GT-2002-30517.
2.
Guha
,
A.
, 2001, “
Performance and Optimization of Gas Turbines With Real Gas Effects
,”
Proc. Inst. Mech. Eng., Part A
0957-6509,
215
, pp.
507
512
.
Crossref
Search ADS
 
3.
Oates
,
G. C.
, 1997,
The Aerothermodynamics of Gas Turbine and Rocket Propulsion
(
AIAA Education Series
), 3rd ed.,
AIAA
,
Reston, VA
.
4.
Mattingly
,
J. D.
, 2005,
Elements of Propulsion, Gas Turbines and Rockets
(
AIAA Education Series
),
AIAA
,
Reston, VA
.
5.
Sonntag
,
R. E.
, 1982,
Introduction to Thermodynamics, Classical and Statistical
, 2nd ed.,
Wiley
,
New York
.
6.
Cengel
,
Y.
, and
Boles
,
M.
, 1989,
Thermodynamics: An Engineering Approach
, 6th ed.,
McGraw-Hill
,
New York
.
7.
Boyce
,
M. P.
, 2006,
Gas Turbine Engineering Handbook
, 3rd ed.,
Elsevier
,
Boston
.
8.
SAE
, 1974, “
Gas Turbine Engine Performance Station Identification and Nomenclature
,” Society of Automotive Engineers, Aerospace Recommended Practice (ARP), Report No. 755A.
9.
Heiser
,
W. H.
, and
Pratt
,
D. T.
, 1994,
Hypersonic Airbreathing Propulsion
(
AIAA Education Series
),
AIAA
,
Washington, DC
.
10.
1976,
U.S. Standard Atmosphere, 1976
,
U.S. Government Printing Office
, Washington, DC.
11.
Mattingly
,
J. D.
,
Heiser
,
W. H.
, and
Pratt
,
D. T.
, 2002,
Aircraft Engine Design
(
AIAA Education Series
), 2nd ed.,
AIAA
,
Reston, VA
.
Copyright © 2011
 by American Society of Mechanical Engineers
You do not currently have access to this content.