The document describes new technologies for modeling gas turbine cooled blades, including:
1) Developing mathematical models and numerical methods using the boundary integral equation method (BIEM) and finite difference method (FDM) to calculate the stationary and quasi-stationary temperature field of a blade profile with convective cooling.
2) Using splines, smooth interpolation, and neural networks for visualization of blade profiles.
3) Validating the designed methods through computational and experimental investigations of heat and hydraulic characteristics of a gas turbine nozzle blade.
Different analytical and numerical methods are commonly used to solve transient heat conduction problems. In this problem, the use of Alternating Direct Implicit scheme (ADI) was adopted to solve temperature variation within an infinitesimal long bar of a square cross-section. The bottom right quadrant of the square cross-section of the bar was selected. The surface of the bar was maintained at constant temperature and temperature variation within the bar was evaluated within a time frame. The Laplace equation governing the 2-dimesional heat conduction was solved by iterative schemes as a result of the time variation. The modelled problem using COMSOL-MULTIPHYSICS software validated the result of the ADI analysis. On comparing the Modelled results from COMSOL MULTIPHYSICS and the results from ADI iterative scheme graphically, there was an high level of agreement between both results.
Different analytical and numerical methods are commonly used to solve transient heat conduction problems. In this problem, the use of Alternating Direct Implicit scheme (ADI) was adopted to solve temperature variation within an infinitesimal long bar of a square cross-section. The bottom right quadrant of the square cross-section of the bar was selected. The surface of the bar was maintained at constant temperature and temperature variation within the bar was evaluated within a time frame. The Laplace equation governing the 2-dimesional heat conduction was solved by iterative schemes as a result of the time variation. The modelled problem using COMSOL-MULTIPHYSICS software validated the result of the ADI analysis. On comparing the Modelled results from COMSOL MULTIPHYSICS and the results from ADI iterative scheme graphically, there was an high level of agreement between both results.
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Graph is a powerful mathematical tool applied in many fields as transportation, communication, informatics, economy, in ordinary graph the weights of edges and vertexes are considered independently where the length of a path is the sum of weights of the edges and the vertexes on this path. However, in many practical problems, weights at a vertex are not the same for all paths passing this vertex, but depend on coming and leaving edges. The paper develops a model of extended network that can be applied to modelling many practical problems more exactly and effectively. The main contribution of this paper is algorithm finding maximal flows on extended networks.
SCRUTINY TO THE NON-AXIALLY DEFORMATIONS OF AN ELASTIC FOUNDATION ON A CYLIND...P singh
This paper is devoted to homogenization of partial differential operators to use in special structure that is a plate allied to an elastic foundation when it is situated through the basic loads (especially with the harmonic forces) with a Non-axially deformation of the cantilever. Furthermore, it contains the Equations of motion that they can be derived from degenerate Non-linear elliptic ones. Through the mentioned processes, there exists many excess works related to computing the bounded conditions for this special application form of study (when the deformation phenomenon has occurred). At the end of the article whole results of the study on a circular plate are debated and new ways assigned to them are discussed. Afterwards all the processes are formulised with the collection of contracting sequences and expanding sequences integrable functions that are intrinsically joints with the characteristic functions to expanding the behaviour of an elastic foundation. Thenceforth all the resultant functions are sets and compared with the other ones (without the loads). Sample pictures and analysis of the study were employed with the ANSYS software to obtain the better observations and conclusions.
Tucker tensor analysis of Matern functions in spatial statistics Alexander Litvinenko
1. Motivation: improve statistical models
2. Motivation: disadvantages of matrices
3. Tools: Tucker tensor format
4. Tensor approximation of Matern covariance function via FFT
5. Typical statistical operations in Tucker tensor format
6. Numerical experiments
Bayesian Estimation For Modulated Claim HedgingIJERA Editor
The purpose of this paper is to establish a general super hedging formula under a pricing set Q. We will compute
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processes such as a continuous time Markov chain. We assume that the prior distribution of the unobserved
Markov chain driving by the drift and volatility parameters of the geometric Brownian motion (GBM) is a
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This paper is my work on Einstein's Relativity theory for speed greater than light.The paper mainly focus on to generalize the Lorentz factor , equation of negative energy and negative mass thus proving the existence of wormholes and the derivation of new space metric.
Extended network and algorithm finding maximal flows IJECEIAES
Graph is a powerful mathematical tool applied in many fields as transportation, communication, informatics, economy, in ordinary graph the weights of edges and vertexes are considered independently where the length of a path is the sum of weights of the edges and the vertexes on this path. However, in many practical problems, weights at a vertex are not the same for all paths passing this vertex, but depend on coming and leaving edges. The paper develops a model of extended network that can be applied to modelling many practical problems more exactly and effectively. The main contribution of this paper is algorithm finding maximal flows on extended networks.
SCRUTINY TO THE NON-AXIALLY DEFORMATIONS OF AN ELASTIC FOUNDATION ON A CYLIND...P singh
This paper is devoted to homogenization of partial differential operators to use in special structure that is a plate allied to an elastic foundation when it is situated through the basic loads (especially with the harmonic forces) with a Non-axially deformation of the cantilever. Furthermore, it contains the Equations of motion that they can be derived from degenerate Non-linear elliptic ones. Through the mentioned processes, there exists many excess works related to computing the bounded conditions for this special application form of study (when the deformation phenomenon has occurred). At the end of the article whole results of the study on a circular plate are debated and new ways assigned to them are discussed. Afterwards all the processes are formulised with the collection of contracting sequences and expanding sequences integrable functions that are intrinsically joints with the characteristic functions to expanding the behaviour of an elastic foundation. Thenceforth all the resultant functions are sets and compared with the other ones (without the loads). Sample pictures and analysis of the study were employed with the ANSYS software to obtain the better observations and conclusions.
Tucker tensor analysis of Matern functions in spatial statistics Alexander Litvinenko
1. Motivation: improve statistical models
2. Motivation: disadvantages of matrices
3. Tools: Tucker tensor format
4. Tensor approximation of Matern covariance function via FFT
5. Typical statistical operations in Tucker tensor format
6. Numerical experiments
Bayesian Estimation For Modulated Claim HedgingIJERA Editor
The purpose of this paper is to establish a general super hedging formula under a pricing set Q. We will compute
the price and the strategies for hedging an European claim and simulate that using different approaches including
Dirichlet priors. We study Dirichlet processes centered around the distribution of continuous-time stochastic
processes such as a continuous time Markov chain. We assume that the prior distribution of the unobserved
Markov chain driving by the drift and volatility parameters of the geometric Brownian motion (GBM) is a
Dirichlet process. We propose an estimation method based on Gibbs sampling.
This paper is my work on Einstein's Relativity theory for speed greater than light.The paper mainly focus on to generalize the Lorentz factor , equation of negative energy and negative mass thus proving the existence of wormholes and the derivation of new space metric.
Computation of electromagnetic_fields_scattered_from_dielectric_objects_of_un...Alexander Litvinenko
Tools for electromagnetic scattering from objects with uncertain shapes are needed in various applications.
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In this paper we used an analytical approach to model nonlinear diffusion of dopant in a multilayer structure with account nonstationary annealing of the dopant. The approach do without crosslinking solutions at
the interface between layers of the multilayer structure. In this paper we analyzed influence of pressure of
vapor of infusing dopant during doping of multilayer structure on values of optimal parameters of technological process to manufacture p-n-junctions. It has been shown, that doping of multilayer structures by
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(single p-n-junctions and p-n-junctions within transistors) and to increase homogeneity of dopant distribution in doped area.
Modeling of Redistribution of Infused Dopant in a Multilayer Structure Dopant...mathsjournal
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On prognozisys of manufacturing doublebaseijaceeejournal
In this paper we introduce a modification of recently introduced analytical approach to model mass- and
heat transport. The approach gives us possibility to model the transport in multilayer structures with account
nonlinearity of the process and time-varing coefficients and without matching the solutions at the
interfaces of the multilayer structures. As an example of using of the approach we consider technological
process to manufacture more compact double base heterobipolar transistor. The technological approach
based on manufacturing a heterostructure with required configuration, doping of required areas of this
heterostructure by diffusion or ion implantation and optimal annealing of dopant and/or radiation defects.
The approach gives us possibility to manufacture p-n- junctions with higher sharpness framework the transistor.
In this situation we have a possibility to obtain smaller switching time of p-n- junctions and higher
compactness of the considered bipolar transistor.
On prognozisys of manufacturing double basemsejjournal
In this paper we introduce a modification of recently introduced analytical approach to model mass- and
heat transport. The approach gives us possibility to model the transport in multilayer structures with account
nonlinearity of the process and time-varing coefficients and without matching the solutions at the
interfaces of the multilayer structures. As an example of using of the approach we consider technological
process to manufacture more compact double base heterobipolar transistor. The technological approach
based on manufacturing a heterostructure with required configuration, doping of required areas of this heterostructure
by diffusion or ion implantation and optimal annealing of dopant and/or radiation defects. The
approach gives us possibility to manufacture p-n- junctions with higher sharpness framework the transistor.
In this situation we have a possibility to obtain smaller switching time of p-n- junctions and higher compactness
of the considered bipolar transistor.
ON PROGNOZISYS OF MANUFACTURING DOUBLE-BASE HETEROTRANSISTOR AND OPTIMIZATION...msejjournal
In this paper we introduce a modification of recently introduced analytical approach to model mass- and
heat transport. The approach gives us possibility to model the transport in multilayer structures with account nonlinearity of the process and time-varing coefficients and without matching the solutions at the
interfaces of the multilayer structures. As an example of using of the approach we consider technological
process to manufacture more compact double base heterobipolar transistor. The technological approach
based on manufacturing a heterostructure with required configuration, doping of required areas of this heterostructure by diffusion or ion implantation and optimal annealing of dopant and/or radiation defects. The
approach gives us possibility to manufacture p-n- junctions with higher sharpness framework the transistor.
In this situation we have a possibility to obtain smaller switching time of p-n- junctions and higher compactness of the considered bipolar transistor.
Numerical simulation on laminar convection flow and heat transfer over a non ...eSAT Journals
Abstract
A numerical algorithm is presented for studying laminar convection flow and heat transfer over a non-isothermal horizontal plate.
plate temperature Tw varies with x in the following prescribed manner:
T T Cx w
n 1
where C and n are constants. By means of similarity transformation, the original nonlinear partial differential equations of flow
are transformed to a pair of nonlinear ordinary differential equations. Subsequently they are reduced to a first order system and
integrated using Newton Raphson and adaptive Runge-Kutta methods. The computer codes are developed for this numerical
analysis in Matlab environment. Velocity, and temperature profiles for various Prandtl number and n are illustrated graphically.
Flow and heat transfer parameters are derived. The results of the present simulation are then compared with experimental data in
literature with good agreement.
Keywords: Free Convection, Heat Transfer, Non-isothermal Horizontal Plate, Matlab, Numerical Simulation.
In developing electric motors in general and induction motors in particular
temperature limit is a key factor affecting the efficiency of the overall design. Since
conventional loading of induction motors is often expensive, the estimation of temperature
rise by tools of mathematical modeling becomes increasingly important. Excepting for
providing a more accurate representation of the problem, the proposed model can also
reduce computing costs. The paper develops a three-dimensional transient thermal model in
polar co-ordinates using finite element formulation and arch shaped elements. A
temperature-time method is employed to evaluate the distribution of loss in various parts of
the machine. Using these loss distributions as an input for finite element analysis, more
accurate temperature distributions can be obtained. The model is applied to predict the
temperature rise in the stator of a squirrel cage 7.5 kW totally enclosed fan-cooled induction
motor. The temperature distribution has been determined considering convection from the
back of core surface, outer air gap surface and annular end surface of a totally enclosed
structure.
Measuring the Thermal Conductivities of Low Heat Conducting Disk Samples by M...IJERA Editor
This article aims to establish an experimental procedure to measure heat transmission coefficients in low heat conductive materials. The newly developed model takes as starting point the application of Fourier’s law to a disk sample when a temperature gradient is established between its faces. The power of a heating element is determined as the heat transfer coefficient of the problem disk. Initially, a glass vessel containing water is placed in direct contact with the heating element; then, a problem plastic disk is placed between this element and the glass vessel, treating the set as a composite wall. Prior to the above the water equivalent of a calorimetric set (vessel + water + accessories) and the thermal conductivity of the vessel must be determined. The thermal conductivity of the problem plastic disk sample is obtained for temperatures ranging from 30 to 70° C. The results reveal the existence of some type of structural transition for the problem material.
IJRET : International Journal of Research in Engineering and Technology is an international peer reviewed, online journal published by eSAT Publishing House for the enhancement of research in various disciplines of Engineering and Technology. The aim and scope of the journal is to provide an academic medium and an important reference for the advancement and dissemination of research results that support high-level learning, teaching and research in the fields of Engineering and Technology. We bring together Scientists, Academician, Field Engineers, Scholars and Students of related fields of Engineering and Technology
Thermal Stress Analysis of a Thin Rectangular Plate With Internal Heat SourceIJLT EMAS
This paper deals with the determination of temperature
distribution, displacement function and thermal stresses of a thin
rectangular plate with internal heat source. A thin rectangular
plate is considered having zero initial temperature and the edges
of the plate are maintained at zero temperature whereas the thin
rectangular plate is subjected to arbitrary heat supply on the
edges y. The governing heat conduction equation has been solved
by the method of integral transform technique. The results are
obtained in a series form in terms of Bessel’s functions.
Numerical simulation of marangoni driven boundary layer flow over a flat plat...eSAT Journals
Abstract
A numerical algorithm is presented for studying Marangoni convection flow over a flat plate with an imposed temperature
distribution. Plate temperature varies with x in the following prescribed manner: where A and k are constants.
By means of similarity transformation, the original nonlinear partial differential equations of flow are transformed to a pair of
nonlinear ordinary differential equations. Subsequently they are reduced to a first order system and integrated using Newton
Raphson and adaptive Runge-Kutta methods. The computer codes are developed for this numerical analysis in Matlab
environment. Velocity profiles for various values of k, and temperature profiles for various Prandtl number and k are illustrated
graphically. The results of the present simulation are then compared with the previous works available in literature with good
agreement.
Keywords: Matlab, Marangoni Convection, Numerical Simulation, Surface Tension, Flat Plate.
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New technologies-for-modeling-of-gas-turbine-cooled-blades
1. World Academy of Science, Engineering and Technology
International Journal of Mechanical, Industrial Science and Engineering Vol:1 No:4, 2007
New Technologies for Modeling of Gas Turbine
Cooled Blades
1
. Pashayev, 2D. Askerov, 3 R.Sadiqov, 4A. Samedov, 5C. Ardil
1-5
International Science Index 4, 2007 waset.org/publications/9594
Azerbaijan National Academy of Aviation
AZ-1045, Bina, 25th km, Baku, Azerbaijan
Phone: (99412) 497-28-29, 497-28-38; Fax: (99412) 497-28-29
e-mail: sadixov@mail.ru
Abstract - In contrast to existing methods which do not take into account
multiconnectivity in a broad sense of this term, we develop mathematical
models and highly effective combination (BIEM and FDM) numerical methods
of calculation of stationary and cvazistationary temperature field of a profile
part of a blade with convective cooling (from the point of view of realization
on PC). The theoretical substantiation of these methods is proved by
appropriate theorems. For it, converging quadrature processes have been
developed and the estimations of errors in the terms of A.Ziqmound continuity
modules have been received.
For visualization of profiles are used: the method of the least squares with
automatic conjecture, device spline, smooth replenishment and neural nets.
Boundary conditions of heat exchange are determined from the solution of the
corresponding integral equations and empirical relationships. The reliability of
designed methods is proved by calculation and experimental investigations
heat and hydraulic characteristics of the gas turbine 1st stage nozzle blade
properties, absence of internal sources (drains) of heat, then the
temperature field under fixed conditions will depend only on the
shape of a skew field and on distribution of temperature on skew field
boundaries. In this case, equation (1) will look like:
2
1. INTRODUCTION
(T0
0
temperature Tlim (1100...13 00 K ) , t0, the absolute error of
temperature calculation should be in limits (20-300K), that is no more
than 2-3%.
It is difficult to achieve. In skew fields of complicated shape with
various cooling channels, quantity and arrangement having a complex
configuration, that is in multiply connected areas with variables in
time and coordinates by boundary conditions such problem solving
requires application of modern and perfect mathematical device.
0
T
T 0)
(2)
0
(3)
n
Characterizes quantity of heat transmitted by convection from gas to
unit of a surface of a blade and assigned by heat conduction in a skew
field of a blade:
Ti
The development of aviation gas turbine engines (AGTE) at the
present stage is reached, in main, by assimilation of high values of gas
temperature in front of the turbine (T ). Despite of the fact, that the
activities on temperature increase are conducted in several directions.
How ever, assimilation of high T in AGTE is reached by refinement
of cooling systems of turbine hot details, and first of all, nozzle and
working blades. It is especially necessary to underline, that with
increase the requirement to accuracy of eventual results will increase.
In other words, at allowed (permissible) in AGTE metal
T
y2
When determining particular temperature fields in gas turbine
elements are more often set boundary conditions of the third kind
describing heat exchange between a skew field and an environment on
the basis of a hypothesis of a Newton-Riemann. In that case, these
boundary conditions will be recorded as follows:
0
Keywords-multiconnected systems, method of the boundary integrated
equations, splines, neural networks.
2
T
x2
T
i
n
(T i
Ti )
(4)
Characterizes quantity of a heats assigned by a convection of the
chiller, which is transmitted by heat conduction of the material of a
blade to the surface of cooling channels; where T0 – temperature of
i 1, M
outlines; T -0
environment at i=0; Ti – temperature of environment at
(temperature of the chiller), where M- quantity of
temperature on an outline
T i --
temperature on an
channels);
(at
i
0)
0
i
at
i
i
at
0,
(outside outline of blade);
i 1, M (outline
of cooling
- heat transfer factor from gas to a surface of a blade
i-
heat transfer factor from a blade to the cooling air at
( i 1, M ); -- thermal conductivity of the material of a blade; nexternal normal on an outline of researched area.
2. PROBLEM FORMULATION
3. PROBLEM SOLUTION
In classical statement a heat conduction differential equation
circumscribing in common case non-stationary process of distribution
of heat in many – dimensional area (an equation of Fourier-Kirhgof)
has a kind [1]:
At present for the solution of this boundary value problem (2)-(4)
most broad distribution have received four numerical methods –
methods of final differences (MFD), finite element method (FEM),
probabilistic method (or method Monte-Carlo) and method of
boundary integral equations (BIEM) (or its discrete analog - a method
of boundary element (BEM)).
Let’s consider BIEM application for the solution of problem (2)-(4)
[1-3,14].
3.1. In contrast to [4] we offer to decide the given boundary value
problem (2)-(4) as follows [1-3, 14]. We suppose, that distribution of
temperature T(x,y) we locate as follows:
( CvT )
t
where
, C v and
div( grad T) qv ,
(1)
- accordingly material density, thermal capacity
and heat conduction, q v - internal source or drain of heat, and Trequired temperature.
By results of researches, it has been established [2], that the
temperature condition of a profile part of a blade with radial cooling
channels can with a sufficient degree of accuracy be determined, as
two-dimensional. Besides if to suppose a constancy of physical
T(x, y)
244
nR 1ds ,
(5)
2. World Academy of Science, Engineering and Technology
International Journal of Mechanical, Industrial Science and Engineering Vol:1 No:4, 2007
M
where
-smooth closed Jordan curve; M-quantity of cooled
i
L
i 0
-density of a logarithmic potential uniformly
i
d
l
i 0
f
M
distributed on
si .
S
i
f
( )
( x)
x
0
M
channels;
~
f ( z)
f ( z)
,
d
( x)
dx
x
f
( x)
x2
l
( x)
2
dx
,
dx
i 0
M
Thus curve
are positively oriented and are given in a
i
i 0
parametric kind: x=x(s), y=y(s), s [0, L]
Using BIEM and expression (5) we shall put problem (2)-(4) to the
following system of boundary integral equations:
1
( (s)
( ))
nR( s, )d
( s)
,
(6)
2
n
i
( s) nR 1ds)
(T
2
L
R(s, ) ((x(s) x( ))2 ( y(s) y( ))2)1/ 2 .
For an evaluation of the singular integral operators who are
included in the discrete operators of a logarithmic potential of
simple and double layer (6) are investigated, their connection is
shown and the evaluations in term of modules of a continuity
(evaluation such as assessments by A. Zigmound are obtained) .
Theorem (main)
Let
zm,e
( y k ,e
{f j(N) }, k
k
(N)
f jk |
(x)
( )(
(x)
f*
(x)
x
N
L/2
*
f
N
(x)
I
f*
(
N
f*
)
(x)
x
dx
N N 1 --the
partitions of ;
{ N }N
that the pair (
N
Let
where d-diameter , and the splitting
0, d
N
1
), satisfies the condition 2
p
C
and
z
(C
,
f
p.
is those, that
f ( z)
C
ln
( )
2d
f
f ( z)
z
ln
2d
f
C
Z
;
2
(z)
zk, j
f (zk, j )
zk, j
1
f ( z ) -two parameter (depending on
z k ,e
( z)
and
parameters)
, z k ,e
x k ,e
z k ,e z k ,e
iy k ,e
z
{z k ,1 ,..., z k ,mk }, z k ,1
1
zk ,2
z k , mk
...
zk , j
and are developed effective from the point of view of realization on
computers the numerical methods basing on again constructed,
converging two-parametric quadrature processes for the discrete
operators logarithmic potential of a double and of a simple layer (the
regular errors are appreciated and mathematically the methods
quadratures for the approximate solution Fredholm I and II boundary
integral equation are proved – is made regularization on Tikhonov
and the appropriate theorems are proved) [1-3,14].
3.2. The given technique of calculation of a temperature field of a
blade can be applied and to blades with the plug –in splash plate. By
their consideration in addition to boundary condition of the III kind
adjoin also conditions of interfaces between segments of a partition of
an outline as equalities of temperatures and heat flows
Tv ( x, y )
Tv ( x, y )
n
2
x iy )
f ( z)
y)
quadrature formula for logarithmic potential simple layer; f (z ) simple layer logarithmic potential operator
- space of all functions continuous on )
, (z
I
sequence of
the sequence of positive numbers such
2
is satisfied condition
Then for all
,
1
zk, j
j 1, mk
where C( ) is constant, depending only on
,,
x k ,e )( y k ,e
1
2
f (zk, j 1 )
f ( z)
max z k , j
dx ),
1 --
,
ln
k
L/2
dx
( x k ,e
z k ,e
zm ,e
dx
0
(x)
x
N
f*
x
0
L/2
x)
continuity of functions f;
1, m j ; j 1, n;
N
*
| f jk
y k ,e )( x k ,e
f ( z)
and parameters)
quadrature formula for logarithmic double layer
potential ~ ( z ) - double layer logarithmic potential operator with C
f
( ) – constant, dependent only from a curve
a module of a
f (x )
I
x
And let the equation (12) have the solution f* C (the set of
={1,2…} such that N>N0
continuous functions on ).Then
0
the discrete system, obtained by using the discrete double layer
potential operator (its properties has been studied), has unique
solution
1
f ( z k ,e )
2
(z)
z
( x)
0
f ( z k ,e 1 )
f ( z)
,
L , f ( z ) - two parameter (depending on
where
International Science Index 4, 2007 waset.org/publications/9594
where
Tv 1 ( x, y )
Tv 1 ( x, y )
n
,
(7)
,
(8)
where - number of segments of a partition of an outline of
section of a blade; x, y- coordinates. At finding of best values T
(chiller). It is necessary to decide a return problem of heat
conduction. For it is necessary to find at first solution of a direct
problem of heat conduction under boundary condition of the III
kind from a leg of gas and boundary conditions I kinds from a
leg of a cooling air
Tv (x, y)
245
0
Ti 0
(9)
3. Were
Ti 0 -unknown
World Academy of Science, Engineering and Technology
International Journal of Mechanical, Industrial Science and Engineering Vol:1 No:4, 2007
networks (Soft computing) [7-9].
optimum temperature of a wall of a blade
from a leg of a cooling air.
3.3. The developed technique for the numerical decision of stationary
task heat conduction in cooled blades can be spread also on
cvazistationary case.
Let's consider a third regional task for cvazilines of the heat
conduction equation:
T
T
(10)
(T )
(T )
0
x
x
y
y
i
(Tci
Ti)
Ti
(T )
n
0
(11)
For lines of a task (10) - (11) we shall take advantage of substitution
Kirhgof:
T
A
( )d
(12)
0
Then the equation (10) is transformed to the following equation
Laplas:
2
2
A
x2
A
y2
0
(13)
International Science Index 4, 2007 waset.org/publications/9594
For preservation converging composed lines in a regional condition
(11) we shall accept in initial approximation constant
(T) = c . Then from (12) we have
T=A/ c
(14)
And the regional condition (11) will be transformed as follows:
i
(Tci
Ai /
c
)
Ai
n
0
(15)
So, the stationary task (13), (15) is decided by method of the
boundary integrated equations . If the decision L (x, y) in a point (x,
y) of a linear third regional task (13), (15) for the equation Laplas to
substitute in (12) and after integration to decide(solve) the appropriate
algebraic equation, which degree is higher unit than a degree of
function (T), we shall receive meaning of temperature T (x, y) in the
same point. Thus in radicals the algebraic equation of a degree above
fourth is decided
a0T4+ a1T3+ a2T2+ a3T+ a4=A,
Let's consider the regression equations:
n
Yi
aij xj ;i 1,m
r
ars x1
Yi
s
x2 ;r 0,l; s 0,l;r s l
(18)
r,s
ars - required parameters (regression coefficients).
The definition task of values aij and ars parameters of the equation
where
(17) and equations (18) is put based on the statistical experimental
data of process, that is input x j and x1 , x2 , output coordinates Y of
model.
Neural network (NN) consists from connected between their sets
neurons. At use NN for the decision (17) and (18) input signals of the
network are accordingly values of variable X ( x1 , x2 ,..., xn ) ,
X
( x1 , x2 ) and output Y .
aij and ars .
As parameters of the network are values of parameters
At the decision of the identification task of parameters
aij and
ars for the equations (17) and (18) with using NN, the basic problem
is training the last.
We allow, there are statistical data received based on experiments. On
the basis of these input and output data is made training pairs ( X , T )
for training a network. For construction of process model on input
X NN input signals, move and outputs are compared with reference
output signals T .
After comparison the deviation value is calculated
E
1 k
(Y j T j ) 2
2j 1
less given then training
If for all training pairs, deviation value
(correction) parameters of a network comes to end (fig.1). In opposite
will not reach minimum.
case it continues until value
Correction of network parameters for left and right part is carried out
as follows:
(16)
That corresponds to the task (T) as the multimember of a degree
above third. In result the temperature field will be determined as a
first approximation, as the boundary condition (13) took into account
constant meaning heat conduction lc in convective thermal flows.
According to it we shall designate this decision T(1) (accordingly A(1)).
For definition subsequent and (2) (accordingly T(2)) the function And
A( ) is displayed in a Taylor number a vicinity T(1) and the linear
members are left in it only. In result is received a third regional task
for the equation Laplas concerning function And A(2). Temperature
T(2) is determined by the decision of the equation (14).
3.4. The repeated computing experiments with the use of BIEM on
calculation of temperature fields nozzle and working blades with
various quantity and arrangement of cooling channels having a
complex configuration have shown, that for practical calculations
in the approach, offered by us, the discretization of areas of an
integration can be conducted with rather smaller quantity of
discrete points. Thus the reactivity of the developed algorithms
and accuracy of evaluations is increased. The accuracy of
calculation of temperatures, required consumption of a cooling
air, heat flows, losses from cooling margins of safety etc.
essentially depends on reliability of boundary conditions, included
in calculation, of heat exchange.
3.5. Piece-polynomial smoothing of cooled gas-turbine blade
structures with automatic conjecture is considered: the method of the
least squares, device spline, smooth replenishment and neural nets is
used.
The new approach to identification of the mathematical models
parameters is considered. This approach is based on artificial neural
(17)
j 1
ars
c
ars
E
,
ars
c
-training
where ars , ars - old and new values of NN parameters,
speed.
The structure of NN for identification the equation (17) parameters are
given on fig. 2.
3.6. For studying of AGTE blades temperature fields, the task of
turbine cascade flow by the gas stream is considered. The decision is
based on the numerical realization of the boundary integrated equation
Fredholm II with feature.
3.6.1. On the basis of the theory of a potential flow of cascades,
distribution of speed along the profile contour can be found from the
decision of the following integrated equation [10]:
xk , yk
V
x k cos
y k sin
1
2
B
S d , (19)
1
2
S
( x k , y k ) - value of potential of speed; V
where
speed of the filling flow;
- mean vectors
- angle between the vector V
and the
- angle which
profile cascade axis; - circulation of speed;
corresponds to the outlet edge of the profile
For the numerical decision of the integrated equation (19) the
following approximating expression is received:
n
,
1
V x cos
y sin
j
i
j ,i 1
j ,i 1
k j
k j
i 1
where i
246
2n 1 , j
2n , n - numbers of parts.
2
j,B
4. World Academy of Science, Engineering and Technology
Internationalthe profile Mechanical,results
The construction of the equivalent hydraulic tract circuit of the vane
Distribution of speeds potential
along Journal of contour Industrial Science and Engineering Vol:1 No:4, 2007
cooling is connected with the description of the cooled vane design.
from the solution of system of linear algebraic equations.
The whole passage of coolant flow is divided in some definite
Values of the gas flow speed are determined by derivation of speeds
interconnected sections, the so-called typical elements, and every one
potential along the contour s , i.e. V s
d ds .
has the possibility of identical definition of hydraulic resistance. The
3.6.2. Distribution of speed along the profile contour can be
points of connection of typical elements are changed by node points in
determined by solving integral equation for current function
which the streams region or division of flows by proposal is taking
places without pressure change. All the typical elements and node
[10,11]:
points are connected in the same sequence and order as the tract sites
1
2
2
V y cos
x sin
V ln sh t x xk sin t y yk ds
of the cooled vane.
2 S
To describe the coolant flow at every inner node is used the 1st low by
taking it to simple algebraic type:
Kirhgof:
1
2
n
sh2
Vi ln
i 1
2
x xk
t
sin2
2
y yk
t
in this case is used
the “
” method [4]. In this method integral relation of energy for
thermal boundary layer, which gives the possibility to represent in the
uniform the solutions for laminar, transfer and turbulent boundary
layers.
At the thickened entrance edges characteristic for cooled gas vanes,
the outer local heat exchange is described by empirical dependence
offered by E.G. Roost:
International Science Index 4, 2007 waset.org/publications/9594
Nu x
0,5 Re 0,5
x
Tu
1,0%
Tu
3,5% :
Tu
1 Tu 1, 4 / 10;
Tu
:
Tu
1 4Tu 0, 28 / 10
3.8. The task of determining inner boundary heat exchange conditions
is necessary.
For example, for calculation of heat transfer in the cooling channels
tract is the usually applied criterion relationships for vanes of
deflector construction. The mean coefficients on the inner surface of
the carrier envelope at the entrance edge zone under the condition of
its spray injection by a number of sprays from round holes in the nose
deflector were obtained by the equation [12]:
C Re 0.98 Pr 0.43 /( L / bequ ) ,
Nu
where bequ
2
d 0 2t 0 - is the width equivalent by the trans area;
d 0 , t 0 - diameter and pitch of the holes in nose deflector. The
criterion Re in this formula are determined by the speed of the flow
from the holes at the exit in the nose deflector and the length L of the
carrier wall in the entrance edge zone.
The earlier received empirical criterion equation [12]:
Nu
0.018 0.36
2
0.34
Gc f k Gk f c
Re
(21)
j , m - the
j . In this formula the
coefficient of hydraulic conductivity of the circuit element ( i
j ) is
defined as:
2 f ij2 p ij
k ij
f ij , pij ,
ij
,
(22)
- mean area of the cross-section passage of
ij
j ), density of coolant flow in the element, and
elements ( i
coefficient of hydraulic resistance of this element correspondingly.
During the flow along the tract the coolant heats that leads to the flow
speed achieves the meanings of local sound speed with the results of
the shock is this channel.
The system of nonlinear algebraic equations (21) is solved by Zeidel
method with acceleration, taken from:
pik
pik
1
where k is the iteration number,
pik
f ik
f
p
k
,
- coolant pressure in i node of
the hydraulic circuit. The coefficients of hydraulic resistance
ij
used in (22) are defined by analytical dependencies, which are in the
literature available at present [12].
For example to calculate a part of the cooling tract, which includes the
area of deflector perforation coefficients of hydraulic resistance in
spray:
Gr Gk m
, m
2 f c f k 0.1
c
1
2 fc fk
0.23
and in general channel:
c
1.1 G r Gk
n
, n
0.381 ln f c f k
0.3
0.8
d relative width of the deflector; h h d In this equation:
relative height of the slot channel between deflector and vane wall;
S d - relative longitudinal step of the rows of perforations holes
clang the slot channel; d–diameter of perforation; L
k
pij ; i 1,2,3...n
pressure of the coolant on element i
(20)
was used for the calculation of mean coefficient of heat transfer at the
inner surface of the vane wall in the area of perforated deflector.
S
sign pij k ij
j 1
number of typical elements connected to i node of the circuit, n - the
number of inner nodes of hydraulic circuit, p ij - losses of total
0.56 0.1h S x
,
k
m
Gij
where Gij - discharge of coolant on the element, i
where
,
3,5%
where at
f1
j 1
3.7. The data of speed distribution along the profile contour are
primary for determining outer boundary heat exchange conditions.
For designing local coefficient heat transfer
m
si
0.75 0.45 ;
0.25 0.5h - Reynolds criterion in the formula (20) is defined
by hydraulic diameter of slot channel and speed of flow of coolant in
the slot channel after the zone of deflector perforation.
3.9. At known geometry of the cooling scheme, for definition of the
convective heat exchange local coefficients of the cooler
by the
standard empirical formulas, is necessary to have preliminary of flow
distribution in cooling channels [12,13].
For determining distribution of flow in the blade cooling system
equivalent hydraulic scheme is built.
flows, which were obtained while generalizing experimental data
[13]. In formulas G r , Gk - are cooling air consumption in the spray
stream through the perforation deflector holes and slot channel
between the deflector and vanes wall. f r , f k - are the areas of the
flow area.
4. RESULTS
The developed techniques of profiling, calculation of temperature
fields and parameters of the cooler in cooling systems are approved at
research of the gas turbine Ist stage nozzle blades thermal condition.
Thus the following geometrical and regime parameters of the stage are
used: step of the cascade - t 41.5
, inlet gas speed to cascade V1 156 / , outlet gas speed from cascade - V2 512 / , inlet
gas speed vector angle pressure:
p
247
*
on
1.2095 10
the
6
1
0.7 0 , gas flow temperature and
-T*
1333 K ,
, on the exit from stage - T 1
1005 K ,
entrance
to
the
stage
5. World Academy of Science, Engineering and Technology
International Journal of Mechanical, Industrial Science and Engineering Vol:1 No:4, 2007
[2] R.A. Sadigov, A.S. Samedov, Modelling of temperature fields of gas
p 1 0.75 10
; relative gas speed on the exit from the cascade turbines elements. Scientists of a slip zTU, Baku, 1998, Vol.VI,
5, p.234239.
0.891 .
1
[3] Pashaev A.M., Sadykhov R.A., Samedov A.S. Highly effective methods of
The geometrical model of the nozzle blades (fig.3), diagrams of speed
calculation temperature fields of blades of gas turbines. V International
distributions V and convective heat exchange local coefficients of gas
Symposium an Aeronautical Sciences “New Aviation Technologies of the
XXI century”, A collection of technical papers, section N3, Zhukovsky,
along profile contour (fig.4) are received.
Russia, august,1999.
The geometrical model (fig.5) and the cooling tract equivalent
[4] L.N. Zisina-Molojen and etc., Heat exchange in turbomachines. M., 1974
hydraulic scheme (fig.6) are developed. Cooler basics parameters in
[5] G. Galicheiskiy, A thermal guard of blades, .:
I, 1996.
the cooling system and temperature field of blade cross section (fig.7)
[6] A.M.Pashaev, R.A.Sadiqov, C.M.Hajiev, The BEM Application in
development of Effective Cooling Schemes of Gas Turbine Blades. 6th Bienial
are determined.
Conference on Engineering Systems Design and Analysis, Istanbul, Turkey,
5. CONCLUSIONS
July, 8-11,2002.
[7] Abasov M.T., Sadiqov A.H., Aliyarov R.Y. Fuzzy neural networks in the
The reliability of the methods was proved by experimental
system of oil and gas geology and geophysics // Third International Conference
investigations of blades heat and hydraulic characteristics in "Turbine
on Application of Fuzzy Systems and Soft computing/ Wiesbaden, Germany,
construction" laboratory (St. Petersburg, Russia). Geometric model,
1998,- p.108-117.
equivalent hydraulic schemes of cooling tracts have been obtained,
[8] Yager R.R., Zadeh L.A. (Eds). Fuzzy sets, neural networks and soft
cooler parameters and temperature field of "Turbo machinery Plant"
computing. VAN Nostrand Reinhold. N.-Y. - 4,1994.
[9] Mohamad H. Hassoun. Fundamentals of artificial neutral networks / A
enterprise gas turbine nozzle blade of the 1st stage have been
Bradford Book. The MIT press Cambridge, Massachusetts, London, England,
determined (Yekaterinburg, Russia). Methods have demonstrated high
1995
efficiency at repeated and polivariant calculations, on the basis of
[10] Pashaev A.M., Sadykhov R.A., Samedov A.S., Mamedov R.N. The
which the way of blade cooling system modernization has been
solution of fluid dynamics direct problem of turbomachines cascades with
offered.
integral equations method. Proceed. NAA. Vol. 3, Baku, 2003
The application of perfect methods of calculation of temperature
[11] V.S. Beknev, V.M. Epifanov, A.I. Leontyev, M.I. Osipov and ets. Fluid
fields of elements of gas turbines is one from actual problems of an air
dynamics. A mechanics of a fluid and gas. Moscow, MGTU nam. N.E.
engine building. The efficiency of these methods in the total rends
Bauman, 1997, 671 p.
[12] S.Z. Kopelev, A.F.Slitenko Construction and calculation of GTE cooling
directs influence to operational manufacturability and reliability of
systems. Kharkov, “Osnova”,1994, 240 p.
elements of designs, and also on acceleration characteristics of the
[13] L.V. Arseniev, I.B. Mitryayev, N.P. Sokolov The flat channels hydraulic
engine.
resistances with a system of jets in a main stream . “Energetika”, 1985,
5,
REFERENCES
p.85-89
[14] . Pashayev, D. Askerov, R.Sadiqov, C. Ardil Development of Effective
[1] Pashaev A.M., Sadykhov R.A., Iskenderov M.G., Samedov A.S., Sadykhov
Cooling Schemes of Gas Turbine Blades Based on Computer Simulation. IJCI,
A.H. The effeciency of potential theory method for solving of the tasks of
ISSN 1304-2386, Vol.1, 2, 2004.
aircraft and rocket design. 10-th National MechanicConference. Istanbul
Technic University, Aeronautics and astronautics faculty, Istanbul, Turkey,
July, 1997, p.61-62.
International Science Index 4, 2007 waset.org/publications/9594
6
APPENDIX
Correction algorithm
X
Input
signals
NN
Parameters
Target
signals
Deviations
Random-number
Training
quality
generator
Fig.1. System for network-parameter (weights, threshold) training (with feedback)
x1
ai1
x2
ai 2
xj
a
Yi
ij
Fig.2. Neural network structure for multiple linear regression equation
248
Y
6. World Academy of Science, Engineering and Technology
International Journal of Mechanical, Industrial Science and Engineering Vol:1 No:4, 2007
,
mm
, mm
100
95
90
85
80
75
70
65
60
55
50
45
40
35
30
25
20
x, mm
15
Fig.5. Geometrical model with foliation of
design points of contour (1-78) and
equivalent hydraulic schemes reference
sections (1-50) of the experimental nozzle
blade
10
International Science Index 4, 2007 waset.org/publications/9594
5
0
0
5 10 15 20 25 30 35 40 45
x, mm
Fig.3. The cascade of profiles of the
nozzle cooled blade
g,
Vt
m2 K
1
2
Fig.6. The equivalent hydraulic scheme of experimental
nozzle blade cooling system
B,
1180
1160
1140
Fig.4. Distribution of the relative speeds
(1)
and of gas convective heat exchange coefficients
(2) along the periphery of the profile contour
1120
1100
1080
1060
1040
1020
1000
10
0
20
30
40
Fig.7. Distribution of temperature along outside ( ) and internal ( ) contours of
the cooled nozzle blade
249