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Design and Analysis of Stator, Rotor and Blades of Axial flow Compressor Compressor
Sheet Music
Design and Analysis of Stator, Rotor and Blade the Axial flow Compressor Ujjawal A. Jaiswal
Prof. S. J. Joshi
Institute of Technology Nirma University Ahmedabad, Gujarat, India [email protected]
Institute of Technology Nirma University Ahmedadabad,Gujarat,India [email protected]
Abstract: Axial flow compressor is one of the most important parts of Gas turbine. In design of Axial flow compressor the work presented comprises of basic flow parameters and dimensions of parts, this makes the further design process quite simple and the results will be helpful to take further changes or improvement at the time of detailed design. The objective of work presented is to design Axial flow compressor by using mean line method for a given mass flow rate and required pressure ratio. The parameters determined also include thermodynamic properties of the working fluid, stage efficiency, number of rotor and stator blades, tip and hub diameters, blade dimensions (chord, length and space) for both rotor and stator, Mach number, flow and blade angles (blade twist) . The same parameters are also determined for all five stages. The twist of the blades can be calculated along the blade length at any required number of sections selected by the designers to obtain smooth blade twist profile. NACA 65410 profiles is used to generate coordinates of the blade. Further, in the process the first stage of axial flow compressor blade is developed using Solid works modeling. Also CFD simulation has been carried out using Ansys CFX to validate the results. Also Static structural Analysis has been performed to check whether the rotor is safe at given speed. Index Terms - Compressor, NACA, Axial flow, rotor, stator
I. INTRODUCTION Axial-flow compressors are used in medium to large thrust gas turbine and jet engines. The compressor rotates at very high speeds, adding energy to the airflow while at the same
It is necessary to design Axial flow compressor level and require parameters can be checked at further improvement can be made at primary lev a Detailed design. The mean line prediction process as it is perfo a very quick and reliable method for compress design Typically, the results of the preliminar obtained by time consuming manual parameter on engineering intuition or experience. Th dimensional solution is used as an initial g subsequent design process, e.g. for through flow [4]. These calculations also include thermodynami the working fluid, stage efficiency, and numbe stator blades, tip and hub diameters, chord, len of blade for rotor and stator, Mach number, fl angles. A repeated stage calculation is made to above parameters along compressor stages. The traditional approach to axial-flow aerodynamic design was to use various families the basis for blade design. American practice various families designed by the Nation Committee for Aeronautics (NACA),the most the 65-series family[5].NACA 65410[6] Airfoil generate blade coordinates. In the 1954,Donald M. Sandercock, kovach Lieblein designed a five stage axial compresso out an experimental investigation Sign up to vote on this titlewith all rotor r with transonic relative inlet Mach numbers Useful Notpotentialities useful unit the research to study and pro from the compounding of transonic stages.
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Design and Analysis of Stator, Rotor and Blades of Axial flow Compressor
Sheet Music
Consider mass flow rate, Pressure ratio, Axial velocity Calculate Annulus dimensions using continuity equation Select appropriate adiabatic efficiency Calculate stagnation pressure and temperature at inlet and outlet Estimate number of stages Calculate inlet and outlet stagnation pressure and temperature for every stages Calculate radius at hub ,Tip and Mean for each stage Determine variation of Air angles from root to tip Fig 2 Enthalpy-Entropy diagram Calculate number of blades for each stages Calculate Blade height, Pitch, chord and Stagger angle
V. STAGE BY STAGE DESIGN
The rotor and stator of a stage are shown in that all angles are referred to the axial velocity v Generate blade coordinates for stator and exits from the previous row of stator blades at a rotor for all stages absolute velocity C1.The rotor rows has tange and combining the two velocity vectors gives th Study its compressibility effects velocity vector W1 at angle β1.At rotor row outl are similar to those draw for the axial f Check weather all requirements are satisfied You're Readingtriangles a Preview absolute velocity vector C 2 moves into the sta the aflow direction is changed to C3 with the abs Unlock full access with free trial. Fig 1 Aerodynamic Design input and Steps C3The diagram have been drawn showing a larg P Density can be determined by ρ = . At inlet, radius at tip the rotor and stator blades. In practice, the clea RT Download Withthe Free Trial rotor and stator is very small. m If the following stage is the same as the prec 2 can be found by, r t = .From hub tip 2 stage is said to be normal. For a normal stage C
r π . ρ .C a .1 − h r t
ratio and H= r t – rr. blade height and radius at hub can be found. Also, r m =
( r t + r r )
2
and Blade speed U=2.π.r.N. In mean
line design methodology mean radius remain constant for all stages, In case of Exit, Area A = H=Area/(2.π.r ).
Tip
radius
m
ρ .C a at
.Also Blade Height, exit, r = r + h
α3. V2 is less than V1, showing that diffusio
velocity has taken place with some static pressu the rotor blades. The air is turned towards the by the blade camber and the effective flow are from inlet to outlet, thus causing diffusion Similar diffusion of the absolute velocity take stator where the absolute velocity vector is Sign up to vote on this title towards the axial direction and further pressure r Useful Not useful If Rotor inlet is considered as Station 1, From the set of equations as below, Air inlet
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Design and Analysis of Stator, Rotor and Blades of Axial flow Compressor
Sheet Music
U m − C θ 2
W 2 =
C a
tan α 2 = tan β 2 =
W 2 C a U m − ∆C θ 2 C a
If Stator exit is considered as Station 3,
C a
C 3 =
cos α 3 VI. FREE VORTEX CONDITION
In Free vortex condition the assumption is made CW. r = Constant. So, C wx = C w ×
Same
tan β x =
U x − C wx C w1 x
r m r x
and
.Here subscript ‘x’
subscript ‘h’ in case of hub radius, and subscrip of tip radius. VII. MCKENZIE METHOD
You're Reading a Preview
By using McKenzie method for rotor and sta chord can be found.[9] Unlock full access with a free trial.
V C p′′ = 1 − 2 Download With Free Trial V 1
2
and
s c
= 9.( 0.567 −
Further, 2 α 2 a δ = 0.23 × + 0.1 × 2 and, C 50
θ = α 1′ − α 2
+ δ .
So Stagger angle can be found by following equ angle=
Fig 3 Velocity dia. At inlet and o utlet
ξ = α 1′ −
θ
method .By following the Sign up to vote 2 on this title
can get, blades of rotor a Useful angles Stagger Notofuseful assuming H/C ratio, one can get chord(C) of t also pitch of the blade can be found by assumin
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Design and Analysis of Stator, Rotor and Blades of Axial flow Compressor
Sheet Music
A. Creating a Geometry/Mesh For generation of geometry SOLID WORKS software is used. The blade profile coordinates are exported the software. With the help of the blade coordinates, base profile is generated. Here, we have assumed same airfoil NACA 65410 from hub to tip for rotor and stator for all stages.
Fig 7 Rotor Cavity
Fig 4 Blade
You're Reading a Preview Unlock full access with a free trial.
Download With Free Trial Fig 8 Stator Cavity
Fig 5 Rotor
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Design and Analysis of Stator, Rotor and Blades of Axial flow Compressor
Sheet Music
Fig 11 Ansys CFX Boundary Condit
After Setting Boundary conditions and Solv a definition file is written to be used in ANSY Manager for Solution of problem associated wit variables. In solver manger the number of accuracy is specified. A result file is Genera operation and results can be analyzed with help The Procedure described above is repeated for stages and results can be obtained from the resul Fig 10 Meshing
D. Result of CFD Analysis
Meshing has been carried out by Hyper Mesh. The type of Pressure distribution at exit of stage 1 element selected here is Tetrahedral. In case of Rotor, No of Nodes = 426980 No of Elements = 1874548 In case of stator, No of Nodes = 445880 You're Reading a Preview No of Elements = 1952008 Unlock full access with a free trial.
B. Defining the Physics of Model In this step we are defining the physics of Model. This Download includes specification of type of fluid, defining the domains, With Free Trial Inlet and Outlet Boundary conditions, type of analysis, turbulence model, and heat transfer model etc. The following assumptions are taken for defining physics. 1. Steady state condition 2. No leakage losses 3. Friction between walls and fluid is neglected. C. Solving the CFD Problem. CFX-Pre Solver parameters are set as under. 1. Air as an Ideal gas is taken as Working fluid. 2. The 'K- ω' model is used for turbulence. 3. Two domain interfaces is used. Rotor Domain is Rotating and Stator Domain is Stationary.
Sign up to vote on this title
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Fig 12 Contour Total Pressure
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Design and Analysis of Stator, Rotor and Blades of Axial flow Compressor
Sheet Music
[2] Nicallas Falck,'Axial Flow Compressor Design',Master thesis.Lund University,Sweden,F
[3] Hill,P.,& Peterson,C(1992),Mechanics and Ther of Propulsion(2nd ed.).Addison Wesley.
[4] Akin Keskin,'Process Integration and Aut Objective Optimization Supporting Aerodynam Design'.P.hd Thesis,Brandenburg Technic Cottbus,2007
[5] Ronald H. Aungier,'Axial Flow Compressor',2n
[6] UIUC Airfoil Coordinates Database file,'Compressor'http://airfoiltools.com/airfoil/de a65410-il'(accessed 10th Nov.2012)
[7] Robin Richard Rajan,Saravanan. T,Rajesh Kum Design Project1'B.E Thesis,Hindustan Engineerng,Anna University,2010.
[8] Meherwan P. Boyce,'Gas turbine Engineering Addition,Gulf Professional publication,2001
[9] McKenzie, A.B. Axial Flow Fans and Compr Publishing Limited,1997.
[10] Rizwan r. Ramakdawala, 'Preliminary Design C Stage Compressor', M.Sc. Thesis, B.S.,Univers ,College Park,1994. [11] Mattingly, J. D., Heiser W. H., Daley, D. H., Design, AIAA,NewYork, 1987.
[12] Cumpsty, N.A. Compressor Aerodynamics, Kri Company, 2
[13] S.L. Dixon, B.Eng., PH.D. Senior Fellow at th Liverpool, 'Fluid Mechanics, Thermodynam machinery, FOURTH EDITION 1998
Fig 12 Contour Total Temperature
V Ganesan,Gas You're Reading[14] a Preview
Turbines,3rd Edition,Tata Mc
Delhi,2010.
[15]a Boyle, R. J., 'Navier-Stokes Analysis of Turb Unlock full access with free trial.
The theoretical and Analytical value of total temperature is as Transfer,' ASME Paper 90-GT-42, June 1990 below: [16] G. Eason, B. Noble, and I. N. Sneddon, “On cer Download With Free Trial Theoretical result - 330 K Lipschitz-Hankel type involving products of Be Phil. Trans. Roy. Soc. London, vol. A247, pp. Analytical result - 333K 1955. (references) Variation - 0.90% CONCLUSION With available data i.e. Mass flow rate, Pressure ratio and Pressure at given Altitude. The Blade profile has been generated for both Rotor and Stator analytically. The other possibility of flow separation is also checked with Mach number and Pressure co efficient. The calculation spread sheet is made so by input the values one can get the required parameters to generate the blade coordinates.While comparing theoretical design results with analytical results, it is observed that the CFD analysis results are in agreement within acceptable range of theoretical results.
[17] J. Clerk Maxwell, A Treatise on Electricity and ed., vol. 2. Oxford: Clarendon, 1892, pp.68–73.
[18] I. S. Jacobs and C. P. Bean, “Fine particles, exchange anisotropy,” in Magnetism, vol. III, G. Suhl, Eds. New York: Academic, 1963, pp. 271–
[19] K. Elissa, “Title of paper if known,” unpublished
[20] R. Nicole, “Title of paper with only first word Name Stand. Abbrev., press. Sign up to vote oninthis title
[21] Y. Yorozu, Hirano, K. Oka, and Y. Tag UsefulM. Not useful spectroscopy studies on magneto-optical med substrate interface,” IEEE Transl. J. Magn. Ja 740–741, August 1987 [Digests 9th Annual C
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v2500gfissue01-150709153003Performance lva1-app6891 Prediction of a
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Design and Analysis of Stator, Rotor and Blades of Axial flow Compressor Compressor
Sheet Music
Design and Analysis of Stator, Rotor and Blade the Axial flow Compressor Ujjawal A. Jaiswal
Prof. S. J. Joshi
Institute of Technology Nirma University Ahmedabad, Gujarat, India [email protected]
Institute of Technology Nirma University Ahmedadabad,Gujarat,India [email protected]
Abstract: Axial flow compressor is one of the most important parts of Gas turbine. In design of Axial flow compressor the work presented comprises of basic flow parameters and dimensions of parts, this makes the further design process quite simple and the results will be helpful to take further changes or improvement at the time of detailed design. The objective of work presented is to design Axial flow compressor by using mean line method for a given mass flow rate and required pressure ratio. The parameters determined also include thermodynamic properties of the working fluid, stage efficiency, number of rotor and stator blades, tip and hub diameters, blade dimensions (chord, length and space) for both rotor and stator, Mach number, flow and blade angles (blade twist) . The same parameters are also determined for all five stages. The twist of the blades can be calculated along the blade length at any required number of sections selected by the designers to obtain smooth blade twist profile. NACA 65410 profiles is used to generate coordinates of the blade. Further, in the process the first stage of axial flow compressor blade is developed using Solid works modeling. Also CFD simulation has been carried out using Ansys CFX to validate the results. Also Static structural Analysis has been performed to check whether the rotor is safe at given speed. Index Terms - Compressor, NACA, Axial flow, rotor, stator
I. INTRODUCTION Axial-flow compressors are used in medium to large thrust gas turbine and jet engines. The compressor rotates at very high speeds, adding energy to the airflow while at the same
It is necessary to design Axial flow compressor level and require parameters can be checked at further improvement can be made at primary lev a Detailed design. The mean line prediction process as it is perfo a very quick and reliable method for compress design Typically, the results of the preliminar obtained by time consuming manual parameter on engineering intuition or experience. Th dimensional solution is used as an initial g subsequent design process, e.g. for through flow [4]. These calculations also include thermodynami the working fluid, stage efficiency, and numbe stator blades, tip and hub diameters, chord, len of blade for rotor and stator, Mach number, fl angles. A repeated stage calculation is made to above parameters along compressor stages. The traditional approach to axial-flow aerodynamic design was to use various families the basis for blade design. American practice various families designed by the Nation Committee for Aeronautics (NACA),the most the 65-series family[5].NACA 65410[6] Airfoil generate blade coordinates. In the 1954,Donald M. Sandercock, kovach Lieblein designed a five stage axial compresso out an experimental investigation Sign up to vote on this titlewith all rotor r with transonic relative inlet Mach numbers Useful Notpotentialities useful unit the research to study and pro from the compounding of transonic stages.
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v2500gfissue01-150709153003Performance lva1-app6891 Prediction of a
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Design and Analysis of Stator, Rotor and Blades of Axial flow Compressor
Sheet Music
Consider mass flow rate, Pressure ratio, Axial velocity Calculate Annulus dimensions using continuity equation Select appropriate adiabatic efficiency Calculate stagnation pressure and temperature at inlet and outlet Estimate number of stages Calculate inlet and outlet stagnation pressure and temperature for every stages Calculate radius at hub ,Tip and Mean for each stage Determine variation of Air angles from root to tip Fig 2 Enthalpy-Entropy diagram Calculate number of blades for each stages Calculate Blade height, Pitch, chord and Stagger angle
V. STAGE BY STAGE DESIGN
The rotor and stator of a stage are shown in that all angles are referred to the axial velocity v Generate blade coordinates for stator and exits from the previous row of stator blades at a rotor for all stages absolute velocity C1.The rotor rows has tange and combining the two velocity vectors gives th Study its compressibility effects velocity vector W1 at angle β1.At rotor row outl are similar to those draw for the axial f Check weather all requirements are satisfied You're Readingtriangles a Preview absolute velocity vector C 2 moves into the sta the aflow direction is changed to C3 with the abs Unlock full access with free trial. Fig 1 Aerodynamic Design input and Steps C3The diagram have been drawn showing a larg P Density can be determined by ρ = . At inlet, radius at tip the rotor and stator blades. In practice, the clea RT Download Withthe Free Trial rotor and stator is very small. m If the following stage is the same as the prec 2 can be found by, r t = .From hub tip 2 stage is said to be normal. For a normal stage C
r π . ρ .C a .1 − h r t
ratio and H= r t – rr. blade height and radius at hub can be found. Also, r m =
( r t + r r )
2
and Blade speed U=2.π.r.N. In mean
line design methodology mean radius remain constant for all stages, In case of Exit, Area A = H=Area/(2.π.r ).
Tip
radius
m
ρ .C a at
.Also Blade Height, exit, r = r + h
α3. V2 is less than V1, showing that diffusio
velocity has taken place with some static pressu the rotor blades. The air is turned towards the by the blade camber and the effective flow are from inlet to outlet, thus causing diffusion Similar diffusion of the absolute velocity take stator where the absolute velocity vector is Sign up to vote on this title towards the axial direction and further pressure r Useful Not useful If Rotor inlet is considered as Station 1, From the set of equations as below, Air inlet
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Design and Analysis of Stator, Rotor and Blades of Axial flow Compressor
Sheet Music
U m − C θ 2
W 2 =
C a
tan α 2 = tan β 2 =
W 2 C a U m − ∆C θ 2 C a
If Stator exit is considered as Station 3,
C a
C 3 =
cos α 3 VI. FREE VORTEX CONDITION
In Free vortex condition the assumption is made CW. r = Constant. So, C wx = C w ×
Same
tan β x =
U x − C wx C w1 x
r m r x
and
.Here subscript ‘x’
subscript ‘h’ in case of hub radius, and subscrip of tip radius. VII. MCKENZIE METHOD
You're Reading a Preview
By using McKenzie method for rotor and sta chord can be found.[9] Unlock full access with a free trial.
V C p′′ = 1 − 2 Download With Free Trial V 1
2
and
s c
= 9.( 0.567 −
Further, 2 α 2 a δ = 0.23 × + 0.1 × 2 and, C 50
θ = α 1′ − α 2
+ δ .
So Stagger angle can be found by following equ angle=
Fig 3 Velocity dia. At inlet and o utlet
ξ = α 1′ −
θ
method .By following the Sign up to vote 2 on this title
can get, blades of rotor a Useful angles Stagger Notofuseful assuming H/C ratio, one can get chord(C) of t also pitch of the blade can be found by assumin
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v2500gfissue01-150709153003Performance lva1-app6891 Prediction of a
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Design and Analysis of Stator, Rotor and Blades of Axial flow Compressor
Sheet Music
A. Creating a Geometry/Mesh For generation of geometry SOLID WORKS software is used. The blade profile coordinates are exported the software. With the help of the blade coordinates, base profile is generated. Here, we have assumed same airfoil NACA 65410 from hub to tip for rotor and stator for all stages.
Fig 7 Rotor Cavity
Fig 4 Blade
You're Reading a Preview Unlock full access with a free trial.
Download With Free Trial Fig 8 Stator Cavity
Fig 5 Rotor
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v2500gfissue01-150709153003Performance lva1-app6891 Prediction of a
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Design and Analysis of Stator, Rotor and Blades of Axial flow Compressor
Sheet Music
Fig 11 Ansys CFX Boundary Condit
After Setting Boundary conditions and Solv a definition file is written to be used in ANSY Manager for Solution of problem associated wit variables. In solver manger the number of accuracy is specified. A result file is Genera operation and results can be analyzed with help The Procedure described above is repeated for stages and results can be obtained from the resul Fig 10 Meshing
D. Result of CFD Analysis
Meshing has been carried out by Hyper Mesh. The type of Pressure distribution at exit of stage 1 element selected here is Tetrahedral. In case of Rotor, No of Nodes = 426980 No of Elements = 1874548 In case of stator, No of Nodes = 445880 You're Reading a Preview No of Elements = 1952008 Unlock full access with a free trial.
B. Defining the Physics of Model In this step we are defining the physics of Model. This Download includes specification of type of fluid, defining the domains, With Free Trial Inlet and Outlet Boundary conditions, type of analysis, turbulence model, and heat transfer model etc. The following assumptions are taken for defining physics. 1. Steady state condition 2. No leakage losses 3. Friction between walls and fluid is neglected. C. Solving the CFD Problem. CFX-Pre Solver parameters are set as under. 1. Air as an Ideal gas is taken as Working fluid. 2. The 'K- ω' model is used for turbulence. 3. Two domain interfaces is used. Rotor Domain is Rotating and Stator Domain is Stationary.
Sign up to vote on this title
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Not useful
Fig 12 Contour Total Pressure
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Design and Analysis of Stator, Rotor and Blades of Axial flow Compressor
Sheet Music
[2] Nicallas Falck,'Axial Flow Compressor Design',Master thesis.Lund University,Sweden,F
[3] Hill,P.,& Peterson,C(1992),Mechanics and Ther of Propulsion(2nd ed.).Addison Wesley.
[4] Akin Keskin,'Process Integration and Aut Objective Optimization Supporting Aerodynam Design'.P.hd Thesis,Brandenburg Technic Cottbus,2007
[5] Ronald H. Aungier,'Axial Flow Compressor',2n
[6] UIUC Airfoil Coordinates Database file,'Compressor'http://airfoiltools.com/airfoil/de a65410-il'(accessed 10th Nov.2012)
[7] Robin Richard Rajan,Saravanan. T,Rajesh Kum Design Project1'B.E Thesis,Hindustan Engineerng,Anna University,2010.
[8] Meherwan P. Boyce,'Gas turbine Engineering Addition,Gulf Professional publication,2001
[9] McKenzie, A.B. Axial Flow Fans and Compr Publishing Limited,1997.
[10] Rizwan r. Ramakdawala, 'Preliminary Design C Stage Compressor', M.Sc. Thesis, B.S.,Univers ,College Park,1994. [11] Mattingly, J. D., Heiser W. H., Daley, D. H., Design, AIAA,NewYork, 1987.
[12] Cumpsty, N.A. Compressor Aerodynamics, Kri Company, 2
[13] S.L. Dixon, B.Eng., PH.D. Senior Fellow at th Liverpool, 'Fluid Mechanics, Thermodynam machinery, FOURTH EDITION 1998
Fig 12 Contour Total Temperature
V Ganesan,Gas You're Reading[14] a Preview
Turbines,3rd Edition,Tata Mc
Delhi,2010.
[15]a Boyle, R. J., 'Navier-Stokes Analysis of Turb Unlock full access with free trial.
The theoretical and Analytical value of total temperature is as Transfer,' ASME Paper 90-GT-42, June 1990 below: [16] G. Eason, B. Noble, and I. N. Sneddon, “On cer Download With Free Trial Theoretical result - 330 K Lipschitz-Hankel type involving products of Be Phil. Trans. Roy. Soc. London, vol. A247, pp. Analytical result - 333K 1955. (references) Variation - 0.90% CONCLUSION With available data i.e. Mass flow rate, Pressure ratio and Pressure at given Altitude. The Blade profile has been generated for both Rotor and Stator analytically. The other possibility of flow separation is also checked with Mach number and Pressure co efficient. The calculation spread sheet is made so by input the values one can get the required parameters to generate the blade coordinates.While comparing theoretical design results with analytical results, it is observed that the CFD analysis results are in agreement within acceptable range of theoretical results.
[17] J. Clerk Maxwell, A Treatise on Electricity and ed., vol. 2. Oxford: Clarendon, 1892, pp.68–73.
[18] I. S. Jacobs and C. P. Bean, “Fine particles, exchange anisotropy,” in Magnetism, vol. III, G. Suhl, Eds. New York: Academic, 1963, pp. 271–
[19] K. Elissa, “Title of paper if known,” unpublished
[20] R. Nicole, “Title of paper with only first word Name Stand. Abbrev., press. Sign up to vote oninthis title
[21] Y. Yorozu, Hirano, K. Oka, and Y. Tag UsefulM. Not useful spectroscopy studies on magneto-optical med substrate interface,” IEEE Transl. J. Magn. Ja 740–741, August 1987 [Digests 9th Annual C
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This section includes the supplementary reading list which provides a different perspective on the topics covered.
Compressor aerodynamics cumpsty pdf Posted on August 6, 2012 by tawahicamex Author Minella Total downloads 3876 Uploaded 6.4.2009 Checked Dr.Web No viruses Link: To download the “compressor aerodynamics cumpsty pdf” one file you must go to one of the links on file sharing.
Please read the following sections in the text before class and come prepared to discuss the material. All readings in the table below are from the following text:
Greitzer, E., C. Tan, and M. Graf. Internal Flow: Concepts and Applications. Cambridge, UK: Cambridge University Press, 2004. ISBN: 9780521343930.
LEC # | READINGS |
---|---|
2 | 2.3, 2.3.1, 2.3.2, 2.4.1, and 2.4.2. |
3 | 2.8 through 2.8.3, 2.9 through 2.9.2, and 2.10 through 2.10.3. |
4 | 3.1 through 3.2.2. |
5 | 3.3 through 3.4.2. |
6 | 3.5 through 3.7. |
7 | 3.8 through 3.10.1. |
8 | 3.12 through 3.14.1.3. |
9 | 9.9 through 9.10.3. |
10 | 5.1 through 5.3. |
11 | 5.4 through 5.4.3. |
12 | 5.5 through 5.5.6. |
13 | 5.6 through 5.6.3. |
14 | 5.6.5 through 5.6.5.1, and 5.7 through 5.7.2. |
15 | 5.9 through 5.11. |
16 | 7.1 through 7.4.1. |
17 | 7.4.2 through 7.4.3. |
18 | 7.6 through 7.6.2. |
19 | 7.8 through 7.9. |
20 | 9.7 through 9.7.3, and 9.8 through 9.8.1. |
21 | 6.1 through 6.3.1. |
22 | 6.4 through 6.4.5. |
23 | 6.5 through 6.5.2. |
24 | 6.6 through 6.6.3, 6.7, and 6.8.2. |
25 | 12.7 through 12.7.1. |
Supplemental Readings
Below is a supplementary reading list which provides a different perspective on the topics covered.
PART # | READINGS |
---|---|
II. Some useful basic ideas | Batchelor, G. K. An Introduction to Fluid Dynamics. Cambridge, UK: Cambridge University Press, 2000. ISBN: 9780521663960. Johnston, J. P. 'Internal Flows.' In Turbulence. Edited by P. Bradshaw. New York, NY: Springer-Verlag, 1976. ISBN: 9780387077055. Fay, J. A. Introduction to Fluid Mechanics. Cambridge, MA: MIT Press, 1994. ISBN: 9780262061650. Sabersky, R., A. Acosta, and E. Hauptmann. Fluid Flow: A First Course in Fluid Mechanics. New York, NY: MacMillan Publishers, 1998. ISBN: 9780135763728. Schlichting, H. Boundary Layer Theory. New York, NY: McGraw-Hill, 2004. ISBN: 9783540662709. White, F. M. Viscous Fluid Flow. New York, NY: McGraw-Hill, 2005. ISBN: 9780072402315. |
III. Vorticity and circulation | Batchelor, G. K. An Introduction to Fluid Dynamics. Cambridge, UK: Cambridge University Press, 2000. ISBN: 9780521663960. Lighthill, J. An Informal Introduction to Theoretical Fluid Mechanics. Oxford, UK: Oxford University Press, 1988. ISBN: 9780198536307. National Committee. Illustrated Experiments in Fluid Mechanics. Cambridge, MA: MIT Press, 1972. ISBN: 9780262640121. (See especially the chapter on Vorticity by Shapiro). Panton, P. Incompressible Flow. New York, NY: Wiley, 2005. ISBN: 9780471261223. Rosenhead, L., ed. Laminar Boundary Layers. New York, NY: Dover, 1988, chapter 2. ISBN: 9780486656465. Saffman, P. G. Vortex Dynamics. Cambridge, UK: Cambridge University Press, 1995. ISBN: 9780521477390. Scorer, R. S. Environmental Aerodynamics. New York, NY: John Wiley & Sons, 1978. ISBN: 9780470992708. Sherman, F. S. Viscous Flow. New York, NY: McGraw-Hill, 1990. ISBN: 9780070565791. |
IV. Loss sources and loss accounting | Pianko, M., and F. Wazelt. 'Suitable Averaging Techniques in Non-uniform Internal Flows.' AGARD AR, Propulsion and Energetic Panel Working Group 14, no. 182 (1983). Cumpsty, N. A. Compressor Aerodynamics. Melbourne, FL: Krieger Publishing, 2004. ISBN: 9781575242477. Cumpsty, N. A., and J. H. Horlock. 'Averaging Non-Uniform Flow with a Purpose.' IGTI Paper GT2005-68081, 2005. Denton, J. D. 'Loss Mechanisms in Turbomachines.' ASME J Turbomachinery 115 (1993): 621-656. Prasad, A. 'Calculation of the Mixed-Out State in Turbomachine Flows.' ASME J Turbomachinery 127 (2005): 564-572. |
V. Flow in rotating passages | Cumpsty, N. A. Compressor Aerodynamics. Melbourne, FL: Krieger Publishing, 2004. ISBN: 9781575242477. Greenspan, H. P. The Theory of Rotating Fluids. Cambridge, UK: Cambridge University Press, 1968. ISBN: 9780521051477. Kleppner, D, and R. J. Kolenkow. An Introduction to Mechanics. New York, NY: McGraw-Hill, 1973. ISBN: 9780070350489. (There are many good dynamics books with discussions of Coriolis forces; this one gives a treatment at an elementary and instructive level.) Scorer, R. S. Environmental Aerodynamics. New York, NY: John Wiley & Sons, 1978. ISBN: 9780470992708. Tritton, D. Physical Fluid Dynamics. Oxford, UK: Oxford University Press, 1988. ISBN: 9780198544937. |
VI. Unsteady flow | Paduano, J. D., E. M. Greitzer, and A. H. Epstein. 'Compression System Stability and Active Control.' Annual Review of Fluid Mechanics 33 (2001): 491-517. Horlock, J. H. Axial Flow Compressors: Fluid Mechanics and Thermodynamics, Axial Flow Turbines. Melbourne, FL: Krieger Publishing, 1982. ISBN: 9780882750965. ———. Axial Flow Turbines: Fluid Mechanics and Thermodynamics, Axial Flow Turbines. Melbourne, FL: Krieger Publishing, 1973. ISBN: 9780882750972. Rosenhead, L., ed. Laminar Boundary Layers. New York, NY: Dover, 1988, chapter 6. ISBN: 9780486656465. Sabersky, R., A. Acosta, and E. Hauptmann. Fluid Flow: A First Course in Fluid Mechanics. New York, NY: MacMillan Publishers, 1998. ISBN: 9780135763728. Schlichting, H. Boundary Layer Theory. New York, NY: McGraw-Hill, 2004. ISBN: 9783540662709. |
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