The convective heat transfer of flow in corrugated channels has been investigated using a commercial CFD tool. Heat transfer enhancement of corrugated tube was mainly taken into consideration. Performance of corrugated geometry of the tube was studied by varying its influencing geometrical parameters like number of rifling, height of rifling, length of pitch of rifling for a particular length. The effects of the different geometry of the corrugation, such as circular, rectangular and triangular geometry and heat transfer were determined for flow through tube heat exchanger. The change in corrugation shape gave substantial change in heat transfer rate. The result reveals the effect on corrugation effect on heat transfer rate. The result shows that the heat transfer increased when compared with existing inner plan wall water tube
EXPERIMENTAL STUDY ON THE ANALYSIS OF HEAT ENHANCEMENT IN CORRUGATED TWISTED ...P singh
In heat exchanger, the enthalpy is transferred between two or more fluids, at different temperatures. The major challenge in designing a heat exchanger is to make the equipment more compact and achieve a high heat transfer rate using minimum pumping power. In recent years, the high cost of energy and material has resulted in an increased effort aimed at producing more efficient heat exchange equipment. Furthermore, as a heat exchanger becomes older, the resistance to heat transfer increases owing to fouling or scaling. The heat transfer rate can be improved by introducing a disturbance in the fluid flow thereby breaking the viscous and thermal boundary layer. However, in the process pumping power may increase significantly and ultimately the pumping cost becomes high. Therefore, to achieve a desired heat transfer rate in an existing heat exchanger at an economic pumping power, several techniques have been proposed in recent years and are discussed under the classification section.
In this work, a study of transient heat transfer in double tube heat exchanger has enhanced. The inner tube of the setup was made with corrugation on both inner and outer walls by twisting the pipe from one end, which gives the more swirling motion to the fluid particles flowing over it. The flow inside the pipe was considered as turbulent, and the analysis was done experimentally and theoretically by using the ANSYS workbench. The experimental results were compared with the experimental values taken in the setup done by considering the inner tube as normal pipe. In both heat exchangers the values were taken and compared with the theoretical analysis. Temperature distribution and heat transfer rate were calculated and the details of the study have been discussed in this paper.
AN EXPERIMENTAL STUDY OF EXERGY IN A CORRUGATED PLATE HEAT EXCHANGERIAEME Publication
In the present work an attempt has been made to investigate the performance of a 3 channel 1-1 pass, corrugated plate heat exchanger. The plates had sinusoidal wavy surfaces with corrugation angle of 450. Hot water at different inlet temperature ranging from 400C to 600C was made to flow in the central channel to get cooled by water in the outer channels.
Experimental Investigation on the Heat Transfer Coefficient of the Thermosyph...IJERA Editor
Two phase closed thermosyphon is a good heat transfer device. A large heat is transferred from evaporator to condenser with relatively a small temperature difference. In the present work, the heat transfer performance of two phase closed thermosyphon is analyzed experimentally with different cross section shape for the thermosyphon tube. A copper thermosyphon has been constructed with three different cross section shape (circular, square and rectangular) having the same hydraulic diameter and length. Methanol is used as the working fluid. The temperature distribution across the thermosyphon outer surface was measured and recorded using thermocouples. The results showed that the heat transfer coefficient increases with the increase of input power, thermal resistance is indirectly proportional to the input power. The maximum heat transfer coefficient (1815 W/m2C) for square cross section at the input power (500 W).
An experimental study of heat transfer in plane circular tube fitted with the V-Shaped Aluminum
turbulators is performed for plane circular tube. The objective of this Project work is to analyses heat transfer
coefficient and friction characteristics in a plane circular tube fitted with the V-Shaped Aluminum turbulators.
The experimentations are firstly carried out on the plane circular pipe and heat transfer augmentation were
recorded and then the v-shaped Aluminum turbulators are fitted in the same plane pipe and then again the heat
transfer augmentation is recorded and then both of them is compared. Experimental investigations have been
carried out to study the effects of the V-Shaped Aluminum turbulators on heat transfer, friction and
enhancement efficiency, in a circular tube. We used the V-Shaped aluminum turbulators with the turbulator
element length of 200mm, 160mm and 120mm.We found the heat transfer argumentation.The mean heat
transfer rates obtained from using the V-Aluminum turbulators are 198%, 213% and 241% for turbulator
element Length of 200mm, 160mm and 120 mm respectively. All of the experiments are carried out at the
same inlet conditions with the Reynolds number, based on the tube diameter (Re), in a range of 3000 to
10000
HEAT TRANSFER AUGMENTATION IN STEEL QUENCHING BY SPRAY IMPINGEMENT COOLING ME...BIBHUTI BHUSAN SAMANTARAY
The present article discusses the experimental results on heat transfer characteristics of spray impingement cooling of a stationary steel plate. The eexperimental setup consisted of an electrically heated flat stationary steel plate of dimension 120 mm x 120 mm x 4 mm, spray setup, water supply and air supply unit. The effects of various controlling parameters such as air-water pressures, water flow rate, nozzle tip to target distance and impingement density were determined and analysed. The cooling rates were computed from the time dependent temperature history and used to analyse the parametric effects. The results obtained in the study confirmed the higher efficiency of the spray cooling system and the cooling strategy was found advantageous over the conventional cooling methods available in the open literature.
EXPERIMENTAL STUDY ON THE ANALYSIS OF HEAT ENHANCEMENT IN CORRUGATED TWISTED ...P singh
In heat exchanger, the enthalpy is transferred between two or more fluids, at different temperatures. The major challenge in designing a heat exchanger is to make the equipment more compact and achieve a high heat transfer rate using minimum pumping power. In recent years, the high cost of energy and material has resulted in an increased effort aimed at producing more efficient heat exchange equipment. Furthermore, as a heat exchanger becomes older, the resistance to heat transfer increases owing to fouling or scaling. The heat transfer rate can be improved by introducing a disturbance in the fluid flow thereby breaking the viscous and thermal boundary layer. However, in the process pumping power may increase significantly and ultimately the pumping cost becomes high. Therefore, to achieve a desired heat transfer rate in an existing heat exchanger at an economic pumping power, several techniques have been proposed in recent years and are discussed under the classification section.
In this work, a study of transient heat transfer in double tube heat exchanger has enhanced. The inner tube of the setup was made with corrugation on both inner and outer walls by twisting the pipe from one end, which gives the more swirling motion to the fluid particles flowing over it. The flow inside the pipe was considered as turbulent, and the analysis was done experimentally and theoretically by using the ANSYS workbench. The experimental results were compared with the experimental values taken in the setup done by considering the inner tube as normal pipe. In both heat exchangers the values were taken and compared with the theoretical analysis. Temperature distribution and heat transfer rate were calculated and the details of the study have been discussed in this paper.
AN EXPERIMENTAL STUDY OF EXERGY IN A CORRUGATED PLATE HEAT EXCHANGERIAEME Publication
In the present work an attempt has been made to investigate the performance of a 3 channel 1-1 pass, corrugated plate heat exchanger. The plates had sinusoidal wavy surfaces with corrugation angle of 450. Hot water at different inlet temperature ranging from 400C to 600C was made to flow in the central channel to get cooled by water in the outer channels.
Experimental Investigation on the Heat Transfer Coefficient of the Thermosyph...IJERA Editor
Two phase closed thermosyphon is a good heat transfer device. A large heat is transferred from evaporator to condenser with relatively a small temperature difference. In the present work, the heat transfer performance of two phase closed thermosyphon is analyzed experimentally with different cross section shape for the thermosyphon tube. A copper thermosyphon has been constructed with three different cross section shape (circular, square and rectangular) having the same hydraulic diameter and length. Methanol is used as the working fluid. The temperature distribution across the thermosyphon outer surface was measured and recorded using thermocouples. The results showed that the heat transfer coefficient increases with the increase of input power, thermal resistance is indirectly proportional to the input power. The maximum heat transfer coefficient (1815 W/m2C) for square cross section at the input power (500 W).
An experimental study of heat transfer in plane circular tube fitted with the V-Shaped Aluminum
turbulators is performed for plane circular tube. The objective of this Project work is to analyses heat transfer
coefficient and friction characteristics in a plane circular tube fitted with the V-Shaped Aluminum turbulators.
The experimentations are firstly carried out on the plane circular pipe and heat transfer augmentation were
recorded and then the v-shaped Aluminum turbulators are fitted in the same plane pipe and then again the heat
transfer augmentation is recorded and then both of them is compared. Experimental investigations have been
carried out to study the effects of the V-Shaped Aluminum turbulators on heat transfer, friction and
enhancement efficiency, in a circular tube. We used the V-Shaped aluminum turbulators with the turbulator
element length of 200mm, 160mm and 120mm.We found the heat transfer argumentation.The mean heat
transfer rates obtained from using the V-Aluminum turbulators are 198%, 213% and 241% for turbulator
element Length of 200mm, 160mm and 120 mm respectively. All of the experiments are carried out at the
same inlet conditions with the Reynolds number, based on the tube diameter (Re), in a range of 3000 to
10000
HEAT TRANSFER AUGMENTATION IN STEEL QUENCHING BY SPRAY IMPINGEMENT COOLING ME...BIBHUTI BHUSAN SAMANTARAY
The present article discusses the experimental results on heat transfer characteristics of spray impingement cooling of a stationary steel plate. The eexperimental setup consisted of an electrically heated flat stationary steel plate of dimension 120 mm x 120 mm x 4 mm, spray setup, water supply and air supply unit. The effects of various controlling parameters such as air-water pressures, water flow rate, nozzle tip to target distance and impingement density were determined and analysed. The cooling rates were computed from the time dependent temperature history and used to analyse the parametric effects. The results obtained in the study confirmed the higher efficiency of the spray cooling system and the cooling strategy was found advantageous over the conventional cooling methods available in the open literature.
What is heat exchanger & its Functions
Types of Heat Exchangers
Compact Heat Exchangers
Part of Fin Plate Heat Exchangers
Advantages & Disadvantages of Fin Plate Exchangers
Materials & Manufacturing
Overall Heat transfer Coefficient & Fouling Factor
LMTD Method
Effectiveness - NTU Method
This manual covers the basic guidelines and minimum requirements for
periodic inspection of heat exchangers used in petroleum refinery.
Locations to be inspected, inspection tools, frequency of inspection &
testing, locations prone to deterioration and causes, corrosion
mitigation, inspection and testing procedures have been specified in
the manual.
Documentation of observations & history of heat exchangers,
inspection checklist and recommended practices have also been
included.
Heat exchanging equipment is used for heating or cooling a fluid.
Individual heat transfer equipment is named as per its function.
Cooler
A cooler cools the process fluid, using water or air, with no change of
phase.
Chiller
A chiller uses a refrigerant to cool process fluid to a temperature below
that obtainable with water.
Condenser
A condenser condenses a vapour or mixture of vapours using water or
air.
Exchanger
An exchanger performs two functions in that it heats a cold process
fluid by recovering heat from a hot fluid, which it cools. None of the
transferred heat is lost.
Design and Cost Optimization of Plate Heat Exchangerinventy
Research Inventy : International Journal of Engineering and Science is published by the group of young academic and industrial researchers with 12 Issues per year. It is an online as well as print version open access journal that provides rapid publication (monthly) of articles in all areas of the subject such as: civil, mechanical, chemical, electronic and computer engineering as well as production and information technology. The Journal welcomes the submission of manuscripts that meet the general criteria of significance and scientific excellence. Papers will be published by rapid process within 20 days after acceptance and peer review process takes only 7 days. All articles published in Research Inventy will be peer-reviewed.
International Journal of Engineering Research and Applications (IJERA) aims to cover the latest outstanding developments in the field of all Engineering Technologies & science.
International Journal of Engineering Research and Applications (IJERA) is a team of researchers not publication services or private publications running the journals for monetary benefits, we are association of scientists and academia who focus only on supporting authors who want to publish their work. The articles published in our journal can be accessed online, all the articles will be archived for real time access.
Our journal system primarily aims to bring out the research talent and the works done by sciaentists, academia, engineers, practitioners, scholars, post graduate students of engineering and science. This journal aims to cover the scientific research in a broader sense and not publishing a niche area of research facilitating researchers from various verticals to publish their papers. It is also aimed to provide a platform for the researchers to publish in a shorter of time, enabling them to continue further All articles published are freely available to scientific researchers in the Government agencies,educators and the general public. We are taking serious efforts to promote our journal across the globe in various ways, we are sure that our journal will act as a scientific platform for all researchers to publish their works online.
International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
EXPERIMENTAL INVESTIGATION OF FLOW CONDENSATION HEAT TRANSFER IN RECTANGULAR ...IAEME Publication
Condensation heat transfer coefficients and pressure drops in horizontal rectangular minichannel was measured using the specially designed aluminium test section with hydraulic diameter of 2mm. The data are reported for steam is a
refrigerant and water as a coolant. The experimental investigation was carried out mass flux range of 88.89 kg/m2
s to 177.78 kg/m2 s, vapour quality ranges from 20-80% and a saturation temperature of 100°C.
EXPERIMENTATION ON COPPER TUBE WITH INTERNAL THREADING FOR A HEAT EXCHANGER P...Journal For Research
Experimental model has been carried out to study the effect of heat transfer, thermal enhancement factor and friction factor in a smooth copper tube and different test copper tube having internal threads of pitch ( p=3.5mm), with water as a working fluid media. For such experimentation purpose Reynolds number were varied in the range of 4000 to 8000. The copper tube (OD=38mm, ID=25mm, t=6.5mm) was subjected to constant and uniform heat flux. The experimental data obtained from test tube having different surface geometry i.e. by internal threading of different pitch (p=3.5mm) were compared with smooth circular copper tube. The effect of different surface geometry of inside copper tube i.e. by threading with varying pitch on thermal enhancement factor, heat transfer and friction factor were presented. In that experimental we also calculate Nusselt number, Prandtl number, pitch like heat transfer parameter. The heat transfer rate for copper tubes having internal threads was found to be much higher than smooth circular copper tube for a given value Reynolds number. So simply by changing the internal surface geometry the performance of circular section copper tube is improved.
What is heat exchanger & its Functions
Types of Heat Exchangers
Compact Heat Exchangers
Part of Fin Plate Heat Exchangers
Advantages & Disadvantages of Fin Plate Exchangers
Materials & Manufacturing
Overall Heat transfer Coefficient & Fouling Factor
LMTD Method
Effectiveness - NTU Method
This manual covers the basic guidelines and minimum requirements for
periodic inspection of heat exchangers used in petroleum refinery.
Locations to be inspected, inspection tools, frequency of inspection &
testing, locations prone to deterioration and causes, corrosion
mitigation, inspection and testing procedures have been specified in
the manual.
Documentation of observations & history of heat exchangers,
inspection checklist and recommended practices have also been
included.
Heat exchanging equipment is used for heating or cooling a fluid.
Individual heat transfer equipment is named as per its function.
Cooler
A cooler cools the process fluid, using water or air, with no change of
phase.
Chiller
A chiller uses a refrigerant to cool process fluid to a temperature below
that obtainable with water.
Condenser
A condenser condenses a vapour or mixture of vapours using water or
air.
Exchanger
An exchanger performs two functions in that it heats a cold process
fluid by recovering heat from a hot fluid, which it cools. None of the
transferred heat is lost.
Design and Cost Optimization of Plate Heat Exchangerinventy
Research Inventy : International Journal of Engineering and Science is published by the group of young academic and industrial researchers with 12 Issues per year. It is an online as well as print version open access journal that provides rapid publication (monthly) of articles in all areas of the subject such as: civil, mechanical, chemical, electronic and computer engineering as well as production and information technology. The Journal welcomes the submission of manuscripts that meet the general criteria of significance and scientific excellence. Papers will be published by rapid process within 20 days after acceptance and peer review process takes only 7 days. All articles published in Research Inventy will be peer-reviewed.
International Journal of Engineering Research and Applications (IJERA) aims to cover the latest outstanding developments in the field of all Engineering Technologies & science.
International Journal of Engineering Research and Applications (IJERA) is a team of researchers not publication services or private publications running the journals for monetary benefits, we are association of scientists and academia who focus only on supporting authors who want to publish their work. The articles published in our journal can be accessed online, all the articles will be archived for real time access.
Our journal system primarily aims to bring out the research talent and the works done by sciaentists, academia, engineers, practitioners, scholars, post graduate students of engineering and science. This journal aims to cover the scientific research in a broader sense and not publishing a niche area of research facilitating researchers from various verticals to publish their papers. It is also aimed to provide a platform for the researchers to publish in a shorter of time, enabling them to continue further All articles published are freely available to scientific researchers in the Government agencies,educators and the general public. We are taking serious efforts to promote our journal across the globe in various ways, we are sure that our journal will act as a scientific platform for all researchers to publish their works online.
International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
EXPERIMENTAL INVESTIGATION OF FLOW CONDENSATION HEAT TRANSFER IN RECTANGULAR ...IAEME Publication
Condensation heat transfer coefficients and pressure drops in horizontal rectangular minichannel was measured using the specially designed aluminium test section with hydraulic diameter of 2mm. The data are reported for steam is a
refrigerant and water as a coolant. The experimental investigation was carried out mass flux range of 88.89 kg/m2
s to 177.78 kg/m2 s, vapour quality ranges from 20-80% and a saturation temperature of 100°C.
EXPERIMENTATION ON COPPER TUBE WITH INTERNAL THREADING FOR A HEAT EXCHANGER P...Journal For Research
Experimental model has been carried out to study the effect of heat transfer, thermal enhancement factor and friction factor in a smooth copper tube and different test copper tube having internal threads of pitch ( p=3.5mm), with water as a working fluid media. For such experimentation purpose Reynolds number were varied in the range of 4000 to 8000. The copper tube (OD=38mm, ID=25mm, t=6.5mm) was subjected to constant and uniform heat flux. The experimental data obtained from test tube having different surface geometry i.e. by internal threading of different pitch (p=3.5mm) were compared with smooth circular copper tube. The effect of different surface geometry of inside copper tube i.e. by threading with varying pitch on thermal enhancement factor, heat transfer and friction factor were presented. In that experimental we also calculate Nusselt number, Prandtl number, pitch like heat transfer parameter. The heat transfer rate for copper tubes having internal threads was found to be much higher than smooth circular copper tube for a given value Reynolds number. So simply by changing the internal surface geometry the performance of circular section copper tube is improved.
ENHANCEMENT OF HEAT TRANSFER IN SHELL AND TUBE HEAT EXCHANGER WITH TABULATOR ...IAEME Publication
The present work reported the use of variant twisted tapes fitted in a double pipe heat exchanger to improve the fluid mixing that leads to higher heat transfer rate with respect to that of the plain-twisted tape. Heat transfer, flow friction and thermal enhancement factor characteristics in a double pipe heat exchanger fitted with plain and variant twisted tapes using water as working fluid are investigated experimentally. Tests are performed for laminar flow ranges. The experimental data for a plain tube and plain-twisted tapes are validated using the standard correlations available in the literature. Two different variant twisted tapes which include V cut-twisted tape and Horizontal wing cut-twisted tape with twist ratios of y = 2.0, 4.4 and 6.0 are used. In addition, the variation of heat transfer coefficient of copper–nanofluids with different of Reynold's number and volume concentration of nanoparticles in plain tube without twisted tape.
Study of Flow and Heat Transfer Analysis in Shell and Tube Heat Exchanger usi...SuginElankaviR
Heat exchangers are used to transfer heat from fluid at high temperature to fluid at lower temperature. Heat exchangers are used in industrial purposes in chemical industries, nuclear power plants, refineries, food processing, etc. Sizing of heat exchangers plays very significant role for cost optimization. Also, efficiency and effectiveness of heat exchangers is an important parameter while selection of industrial heat exchangers. Methods for improvement on heat transfer have been worked upon for many years in order to obtain high efficiency with optimum cost. In this research work, design of shell & tube heat exchanger with single segmented baffles and analyze the flow and temperature field inside the shell using Autodesk Simulation CFD 2015. When comparing the CFD analysis with experimental results, it was well correlation with negligible percentage of error. Thus, the series of baffles results in a significant increase in heat transfer coefficient per unit pressure drop in the heat exchanger.
International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
IOSR Journal of Mechanical and Civil Engineering (IOSR-JMCE) is an open access international journal that provides rapid publication (within a month) of articles in all areas of mechanical and civil engineering and its applications. The journal welcomes publications of high quality papers on theoretical developments and practical applications in mechanical and civil engineering. Original research papers, state-of-the-art reviews, and high quality technical notes are invited for publications.
THE EFFECT OF GEOMETRICAL PARAMETERS ON HEAT TRANSFER AND HYDRO DYNAMICAL CHA...ijmech
Compact size and high heat transfer coefficient of helical coil heat exchangers causes them to have an
important role in various industrial applications. This paper investigate numerically on the influence of
different parameters such as coil radius, coil pitch and diameter of tube on the hydrodynamic and
heat transfer characteristics of helical double tube heat exchangers using the CFD software which is
based on the principles of heat transfer, fluid mechanics and thermodynamics. The results indicated that
heat transfer augmentation occurs by increasing of the inner Dean Number, inner tube diameter, curvature
ratio and by the reduction of the pitch of heat exchanger coil. By increasing the radius of coils, the
secondary flow effects due to centrifugal forces diminishes and flow of fluid through the coils tends to flow
in a straight path and as a result, the friction coefficient decreases consequently.
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Final project report on grocery store management system..pdfKamal Acharya
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Numerical Investigation of Boiler Tubes for Performance of Heat Transfer Enhancement with Varying Shapes of Corrugated Tube
1. Shivasheesh Kaushik et al. Int. Journal of Engineering Research and Application www.ijera.com
ISSN : 2248-9622, Vol. 7, Issue 4, ( Part -5) April 2017, pp.46-54
www.ijera.com DOI: 10.9790/9622-0704054654 46 | P a g e
Numerical Investigation of Boiler Tubes for Performance of Heat
Transfer Enhancement with Varying Shapes of Corrugated Tube
Shivasheesh Kaushik *, Sanjay Sharma**, Vimal Singh Chamyal***,
Bhavana Singh****, Mohit Pant*****, Tarun Tripathi******
* (Assistant Professor, Mechanical Engineering Department, Amrapali Group of Institute, Haldwani, Uttarakhand,
India Email: shivasheesh.rachit.kaushik@gmail.com)
** (Research Scholar, Mechanical Engineering Department, Amrapali Group of Institute, Haldwani, Uttarakhand,
India)
ABSTRACT
The convective heat transfer of flow in corrugated channels has been investigated using a commercial CFD tool.
Heat transfer enhancement of corrugated tube was mainly taken into consideration. Performance of corrugated
geometry of the tube was studied by varying its influencing geometrical parameters like number of rifling,
height of rifling, length of pitch of rifling for a particular length. The effects of the different geometry of the
corrugation, such as circular, rectangular and triangular geometry and heat transfer were determined for flow
through tube heat exchanger. The change in corrugation shape gave substantial change in heat transfer rate. The
result reveals the effect on corrugation effect on heat transfer rate. The result shows that the heat transfer
increased when compared with existing inner plan wall water tube.
Keywords: Boiler tube, Heat transfer enhancement, corrugated geometry, Multi-rifled tube, helical tube
I. INTRODUCTION
Boiler supply the major source in industries to burn
fuel to generate electric power and process steam. It
is the main device of power plant to generate steam
by efficiently burning available fuels used to
generation of power. The steam can be used for
various usages such as driving an engine to generate
electricity, heating purpose and for other industrial
process applications. The boiler consists of several
types, which include water tube boiler, fire tube
boiler, packaged boiler, fluidized bed combustion
(FBC) boiler, atmospheric fluidized bed combustion
(AFBC) boiler and so forth. The main objective of
this study is linked to the idea of being able to model
the temperature fluctuations that occur in the
evaporator tubes. These temperatures are initiated by
wall Numerical investigation of Boiler tubes for
performance enhancement temperatures as well as
the heat flux from the furnace. Therefore a basic
understanding of the fluid dynamics as well as
material conditions in the form of heat transfer is
essential in this work. The main objective of report
is to describe and analyze the knowledge about
operational flexibility in boiler tube, based on
mathematical / numerical methods. More
specifically, the report aims to:
Examine the advantages and disadvantages in using
internal rifled boiler tubes in steam power plants.
Obtain a detailed understanding of the phenomena
leading to flow mal-distribution under different
operating conditions. To study the flow pattern
inside the rifled tube.
The most popular boilers that used in many
industries are water tube and fire tube boiler. Water
tube boiler is the one with water flowing through the
tubes that enclosed in a furnace heated externally
while fire tube boiler comprises of fire or hot flue
gas directed through tubes surrounded by water.
Conversion process of water into steam in a large
scale industrial boiler involves a large amount of
operating cost. Due to economic and environment
concern, engineers must continuously focus on
improving efficiency of steam production and reduce
emission with the same amount of fuel (Steingress
1970). It is done by increasing the heating surface
area in contact with the water. This enables the heat
to be fully utilized and not lost to surrounding. High
thermal exposure and inefficient heat transfer from
the flue gas into the water contained in water tubes
due to the development of scales on the internal tube
wall results in creep formation. The boiler tubes
condition worsen with wall thinning effect on the
exterior tube wall as it promotes higher hoop stress
on the tube and thus, shortens the life span of the
tubes. With the existence and interaction between
thick scales and wall thinning, the life span of the
tubes could further reduced. In real condition the
boiler water tube are plane wall, due to this the flow
is laminar inside the tube. The establishment of
corrugated geometry obtained with roughened
surface like internal helical ridging or transverse
ribbing or multi rifled tubes to increase the heat
transfer in tubes. Most studies have concentrated on
turbulent flow; the laminar range is of particular
RESEARCH ARTICLE OPEN ACCESS
2. Shivasheesh Kaushik et al. Int. Journal of Engineering Research and Application www.ijera.com
ISSN : 2248-9622, Vol. 7, Issue 4, ( Part -5) April 2017, pp.46-54
www.ijera.com DOI: 10.9790/9622-0704054654 47 | P a g e
interest in wide variety of engineering situations,
counting heat exchangers for viscous liquids in food
industry and chemical process. The use of smooth
surface inside the tubes gives poor performances and
new geometries are needed to enhance the rate of
heat transfer in tubes. Numerical investigation of
Boiler tubes for performance enhancement. The
proper designs of the tube inner wall will increase
the heat transfer to the flowing water; hence it is one
of the main factors for its successful usage in boiler.
In order to increase the heat transfer and prevent
damage to the inner wall of tube, ribbed tubes are
applied instead of the smooth walled tubes. Surface
roughness introduces through knurling or threading
or formed by repeated ribs, promotes enhancement
through the disturbance of the sub layer that is close
to the surface. The heat transfer coefficient is one of
the most important factors for the successful design
and operation of inner tube wall to heat transfer on
the flowing water. Analysis and modeling of the
inner tube wall for boiler is very important, in order
to keep the boiler operation below the critical stages.
Ali and Ramadhyani (1992) conducted experiments
to analyze the developing flow region of corrugated
channels. They examined laminar and transitional
flow for two different inter-wall spacing. For both
channels, they observed a transition to unsteady flow
at Re ~ 500, accompanied by a sharp increase in
Nusselt number. As a result, optimal heat transfer
enhancement was found to occur in the transitional
flow regime. No substantial enhancement was
detected when the flow was steady. . Cheng, L. X. &
Chen, T. K. (2001) had conducted experimental
work of flow boiling heat transfer and two-phase
flow frictional pressure drop in a vertical rifled tube
and smooth tube under the condition of 0.6 MPa.
The rifled tube that was used in the experiment had
an outside diameter 22mm, average inner diameter
11.6mm rib width 5.5mm, rib height 0.4mm -
0.6mm and rib pitch 3.5mm. Nonetheless, the
outside and inside diameters of the smooth tube are
19mm and 15mm. The results of the experiment had
shown that the flow boiling heat transfer coefficient
and two-phase frictional pressure drop in rifled tube
were 1.4 - 2.0 times and 1.6 - 2.0 times, respectively
than in the smooth tube. It was interesting to note
that the superheat wall temperatures in the rifled
tube are smaller than in the smooth tube under equal
heat fluxes and equal mass fluxes. The authors had
also found out that the flow boiling heat transfer
coefficient would increase if the mass flux increase,
but the pressures had little effect on the flow boiling
heat transfer coefficient. Correlations of flow boiling
heat transfer coefficient and two-phase frictional
pressure drop in the rifled tube also had been
proposed. The advantage of the rifled tube compare
to smooth tube is that it will cause the swirling effect
in the flow. They also act like a roughness elements
mixing up the flow in the viscous sub layer (Kundu,
P. K. & Cohen, I. M., 2004). Besides that due to its
inner geometry shape, flow is thrown outwards to
the tube wall as a result of centrifugal action. Thus,
creates a secondary flow or also known as helical
flow or a swirl flow at the near wall region. This
helical flow at the tube periphery superimpose on the
main axial flow. This effect enhance wall wetting
and prevents critical heat transfer occurrence even
under high steam void fraction conditions and lower
critical heat flux. As a result, this type of tube would
not easily burnout and can be used under much
higher operating condition than the smooth tube. C.
H. Kim et al. (2005) had evaluated the critical heat
flux (CHF) performance for flow boiling of R134a
in vertical uniformly heated smooth tube and rifled
tube. In this experimental work, a four head and six-
head rifled tube with outer diameter 22.59mm and
minimum inner diameter ranging between 15.22mm
- 15.39mm had been used under outlet pressures of
13, 16.5 and 23.9 bar, mass fluxes of 285 -
1300kg/m2s and inlet sub cooling temperature
ranging 5 - 40oC. It is concluded that the CHF
enhancement in the rifled tube had been enhanced
40% - 60% than in the smooth tube. The CHF
enhancement not only depends on the mass flux and
pressure, but there is also a critical helical angle and
critical velocity to get the CHF enhancement. The
author had explained the CHF enhancement by using
the relative velocity of vapor and it is interesting to
note that when the flow pressure is near critical
pressure, the helical angle is above 70o and the
velocity is below 0.3m/s, the centrifugal acceleration
will be decreased. As a result, the flow inside the
rifled tube would be ceased to follow the ribs and the
swirling flow is diminished. Numerical investigation
of Boiler tubes for performance enhancement Lee, S.
K. & Chang, S. H. (2008) had studied
experimentally the post dry-out with R- 134a
upward flow in smooth tube and rifled tube. The
authors had used three type of rifled tube which had
4 head, helix angle 60o
and maximum inside
diameter of 17.04mm with an average volume based
inner diameter of 16.49mm, 16.05mm and 16.79mm,
respectively. From these three types of rifled tube,
the authors then had examined the effects of rib
geometry and compared with the smooth tube. The
smooth tube that was used in the study had an
average inner diameter of 17.04mm and outside
diameter of 22.59mm. It is found out that the wall
temperature of the rifled tube in the post-dry out
region were much smaller than the smooth tube. As
a result, the thermal non-equilibrium in rifled tube
was lowered which due to the swirling flow was
caused by the ribs in the rifled tube. The authors had
also stated correlation of heat transfer for rifled tube
as a function of rib height and rib width. O'Brien and
Sparrow (1982) conducted one of the first
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comprehensive studies for the fully-developed
region of a corrugated channel for flow in the range
of 1500 < Re < 25,000. They observed heat transfer
rates that were approximately 2.5 times greater than
for the straight channel. But the pressure drop for the
corrugated duct was significantly larger as well.
Sparrow and Comb (1983) performed a similar study
for a corrugated channel with an inter-wall spacing
that was approximately 45% greater than the channel
used by O'Brien and Sparrow (1982), and then
analyzed the effects of this variation. The increase in
spacing led to a 30% rise in the fully-developed
Nusselt number, but the friction factor more than
doubled. To Numerical investigation of Boiler tubes
for performance enhancement further assess these
findings, performance evaluations were carried out
for three different constraints. For all three cases, the
performance differences between the two ducts were
not sufficiently great to indicate a clear superiority
of one over the other.
II. METHODOLOGY
The methodology of the present study can
be divided into four stages of process flow which are
geometry modeling, pre-processing, processing and
post-processing. Various steps in adopted methods
are:
• Mathematical modeling of the system
considered in present study.
• Developed the model in SOLIDWORKS.
• Validation of present work with previous
research.
• Calculation of heat transfer parameters.
• Run program to obtain the plots with different
boiler tube parameters.
• Plotting & analysis of obtained plots.
• Optimization of the system.
III. SIMULATION OF FLOW
THROUGH BOILER TUBE
For the CFD analysis of boiler tube, three
different geometry of tube were used, the first
geometry used was Circular rib, the second one was
the rectangular rib and the third one was triangular
rib geometry, the boundary conditions applied to the
channel, the assumptions made, the equations used,
the results obtained after calculation and then the
results were compared with the smooth geometry.
IV. FLOW AND HEAT TRANSFER IN
BOILER TUBE
4.1 Geometrical Description
The geometry created for analysis were
three different types of corrugated tubes which was
made of steel of 150 cm length and has hydraulic
diameter of 5.05 cm in which fluid flow occurs.
Corrugations made on the tubes were chevron design
and the wave design. These geometrical models of
plates are used for studying the effects of the
variation of Reynolds number on the performance of
plate heat exchanger. The different geometries of the
tubes are shown in figure 4.1.
V. RESULT AND DISCUSSION
The mathematical model and methodology
for solving the problem used in present work is
discussed in previous chapter. This mathematical
model is studied, solved and validated using a
ANSYS (FLUENT) programme in the present work.
Present work also includes parametric study of
boiler tube geometry and obtaining heat transfer
characteristics of boiler tube with different geometry
and compared it with the smooth tube. Simulations
were carried out with constant mass flow rate for all
the geometries considered here for boiler tube. The
post processor was carried out in Fluent, and during
the process, the following observations were
encountered. As discussed in Chapter-4, 150 cm
length and diameter of 5.08 cm of three boiler tube
geometry are taken for the simulation in present
work. The other parameters have to be calculated in
order to optimize the complete system. Following
sections describes the parametric study and the
optimization of the system.
5.1 Effect of corrugated geometry on heat transfer
enhancement in boiler tube
Table below shows different parameters of
heat transfer enhancement in boiler tube having
smooth tube and other three different geometry. It
has been observed that the total heat transfer rate,
temperature and enthalpy at the outlet of the channel
is increased significantly by applying corrugated
geometry inside the tube of boiler. This is due to
expanded roughness surface area for similar mass
flow inlet. Lower the low value of mass flow inlet
higher will be the surface area and tube get heated
consistently and in relatively minimum time as
compare to large mass flow inlet and smooth tube.
5.2 Temperature Profiles of boiler tube
When fluid to be heated enters into the
tube, due to convective heat transfer the fluid inside
the tube get heated. Due to wall heat transfer
coefficient and area product fluid get heated initially
up to a certain length and after a long time fluid
reaches to a consistent temperature. Once fluid gets
converted into steam it is now available to supply
where needed. Below are the some graphs showing
temperature profile against the position of the tube.
From the graph as shown above, it is been observed
that the graph showing temperature profile of
smooth tube having simple geometry is not efficient
as compared to the graph of other figures having
corrugated geometry. Temperature of smooth tube
geometry goes up to 351 K from initial temperature
of 300 K while the temperature of corrugated tube
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having rectangular, triangular, and circular geometry
goes up to 412 K, 406 K, and 410 K respectively.
The mean temperature of the working fluid increases
with the distance from the entrance as expected, as
shown in figure 5.5. Also expected, the increase is
rapid nearer the wall because of high heat transfer
rates in this region due to higher temperature
differences between the wall surface and the fluid.
VI. FIGURES AND TABLES
Table 4.1 The dimension of rifled tube geometry
parameters
Tube type Helical ridging
Outer diameter, Do
(mm)
5.08 cm
Helix Angle 30o
Length 150 cm
Tube Material Steel
Length of Pitch 25 cm
Height of rifling 0.11 cm
FLOW CHART SHOWING THE APPROACH
FOR SOLVING THE PROBLEM
Fig 4.1 (a) Helical (circular) ridging inside the
tube
Fig 4.1 (b) Model showing various parts of the
tube
Fig 4.1 (c) Helical (rectangular) ridging inside the
tube
Fig 4.1 (d) Helical (triangular) ridging inside the
tube
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Table 5.1 Different sets of boiler tube parameters
having simple geometry
Type Inlet Outlet
Total Heat Transfer
Rate (W)
422.101 3381.392
Temperature (K) 300 391
Heat Transfer
Coefficient (W/m2
-K)
2636.6
Table 5.2 Different sets of boiler tube parameters
having circular geometry
Type Inlet Outlet
Total Heat Transfer
Rate (W)
264.414 5962.395
Temperature (K) 300 406.517
Heat Transfer
Coefficient (W/m2
-K)
4677.89
Table 5.3 Different sets of boiler tube parameters
having rectangular geometry
Type Inlet Outlet
Total Heat Transfer
Rate (W)
271.653 6821.335
Temperature (K) 300 410.617
Heat Transfer
Coefficient (W/m2
-K)
5402.07
Table 5.4 Different sets of boiler tube parameters
having triangular geometry
Type Inlet Outlet
Total Heat
Transfer Rate (W)
279.582 6709.544
Temperature (K) 300 412.0129
Heat Transfer
Coefficient
(W/m2
-K)
5322.3
Fig. 5.1(a) Variation of temperature profile with the
position of the tube for smooth tube having plane
geometry.
Fig. 5.2(b) Variation of temperature profile with the
position of the tube for circular geometry.
Fig. 5.3 Variation of temperature profile with the
position of the tube for rectangular geometry.
Fig. 5.4 Variation of temperature profile with the
position of the tube for triangular geometry.
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Fig. 5.5 (a) Contours of static temperature for
circular geometry of the tube.
Fig. 5.5 (b) Contours of static temperature for
smooth tube.
Fig. 5.5 (c) Contours of static triangular geometry of
the tube.
Fig. 5.5 (d) Contours of static temperature for
rectangular geometry of the tube.
Fig. 5.6 (a) Velocity vector for smooth tube.
Fig. 5.6 (b) Velocity vector at the corrugation for
circular tube.
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Fig. 5.6 (c) Velocity vector at the corrugation for
rectangular tube.
Fig. 5.6 (d) Velocity vector at the corrugation for
triangular tube.
Fig. 5.7 (a) Plot of total surface heat flux for circular
corrugated tube design.
Fig. 5.7 (b) Plot of total surface heat flux for smooth
tube.
Fig. 5.7 (c) Plot of total surface heat flux for
triangular corrugated tube design.
Fig. 5.7 (d) Plot of total surface heat flux for
rectangular corrugated tube design.
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VII. CONCLUSION
In this research paper, main results of the present
research on plain tube, rectangular and circular
corrugated shape tubes and the comparative analysis
between triangular shape (based on previous
research) and rectangular and circular corrugated
shape tubes and scope for further study have been
given. The heat transfer in the tube has been
analyzed, and its dependency on geometry is
reported in this study. Enhancement in the heat
transfer in boiler furnace will reflect in the
performance of the boiler. A small increase in the
heat transfer of the tube will make huge change in
the overall performance of the boiler. Sample length
of the boiler tube is analyzed in the software and the
resultant temperature, enthalpy contours and plots
are shown in the last chapter. The heat transfer
enhancement effect in corrugated channel is
primarily due to induced turbulence which gives
higher heat transfer rate. As shown from the study,
different geometries give different results for the
same flow conditions (mass-flow rate). The choice
of appropriate geometry does not always depend on
mass-flow rate values, but predictability and almost
constant behavior through a low mass-flow rate
range, plays an important role. According to the
study, the choice of suitable tube geometry depends
on the application. The corrugated design is shown
to give better convective properties (approximately
19% more convective transfer) as the temperature of
the fluid goes up to 412 K while the inlet
temperature was 300 K, the helical (triangular)
ridging design gives better convective properties
(approximately 20.33% more convective transfer) as
compared to smooth tube, while circular and
rectangular tube design also gives better convective
properties (approximately 18% and 19% more
convective transfer) in comparison with smooth
tube. The model was created using Solid Works
2012 and meshed with Fluent, and the flow analysis
is done with Ansys 14.5. The results showing that
the heat transfer is increased. The enthalpy and
temperature increase with flow is advancing when
compare with normal boiler tube. So the
implementation of Optimized Helical Ridging boiler
tube in the boiler is advisable. The study show that
the improvement in furnace heat transfer can be
achieved by changing the internal plane surface to a
rifled tube. In the present work it is assumed that
constant mass flow rate of fluid in all the design are
going through the channel respectively. In actual
practice this is not the case as mass flow rate is not
always constant in actual practise for the
applications. Inclusion of these varying flow rates is
a future scope of this present work. In place of
helical ridging type geometries like crcular,
rectangular, and triangular as analysed in this present
work, other geometrical designs can be taken and
analyzed in order to increase the heat transfer rate
during the flow of fluid inside the tube. This will be
an extension of this present work. Experimental
work can be done in order to validate the present
work, evaluated parameters.This is an another future
scope of this present work.
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