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AIR CONDITIONER USING PELTIER MODULE : SMALL SCALE AIR CONDITONING
1
AIR CONDITIONER USING PELTIER MODULE
SMALL SCALE AIR CONDITONING
Rahul Kumar Lakshkar1
, Ashay Dahare2
, Ritesh Singh 3
, Shiv Pratap Singh4
Guide:- Mr. Satish Raghuwanshi
Minor Project Department of Mechanical Engineering, IES IPS Academy
ABSTRACT
Present paper gives a picture of a conceptual design of an air conditioner using Peltier
modules to achieve desired amount of cooling. The appearance of this thermoelectric
type of air conditioner resembles a conventional window air conditioner. This brings
the simplicity in construction. The air conditioner is intended to take up the cooling
load in volume of space as in conventional automobiles such as cars. If conventional
vapour compression type of air conditioner currently used in vehicles is replaced with
this one with an arrangement for its placement, it would reduce the total weight of
vehicle and increase fuel economy.
EXTRACT
Majot part of my project are closed shell, coiled copper tube and Peltier module.
Closed shell and coiled copper tube : In the present work attempts are made to
enhance the heat transfer rate between cooling medium present in closed shell and
coiled copper tube . Air at room temperature flows into helical tube and cooling
medium is filled in the shell side.
Results indicate that the higher coil diameter, coil pitch and mass flow rate in tube can
enhance the heat transfer rate in these types of heat exchangers.
Cooling using Peltier Module: In order to cool the fluid in the close shell, a
cooling system is needed which also reduce the total weight, also reduce the size and
AIR CONDITIONER USING PELTIER MODULE : SMALL SCALE AIR CONDITONING
2
more economical. Image attached below gives a picture of a conceptual design of a
water-cooling using Peltier modules to achieve desired amount of cooling. The
appearance of this thermoelectric type of cooling module resembles a conventional
window air conditioner. This brings the simplicity in construction. The air
conditioner is intended to take up the cooling load in volume of space as in
conventional domestic cooling system such as small room. If conventional vapour
compression type of air conditioner currently used in domestic areas is replaced with
this one with an arrangement for its placement, it would reduce the total weight of
system and more economical.
INTRODUCTION
In industrial applications pipelines and tubes are widely used. Coiled tubes are used in
compact heat exchangers, condensers and evaporators in the food, pharmaceutical,
modern energy conversion and power utility systems, heating ventilating and air
conditioning (HVAC) engineering and chemical industries [1e3]. In coiled tubes
centrifugal force make a pair of longitudinal vortices and these secondary flow
increases the heat transfer coefficient.
Patankar et al. [5] discussed the effect of the Dean number on friction factor and heat
transfer in the developing and fully developed regions of helically coiled pipes. Good
agreements were obtained in comparison with the experimental data. Kubiar and
Kuloor [6] studied experimentally the heat transfer rate and pressure drop of glycerol
flowing inside a vertical helical coil at constant wall temperature. The flow regime was
laminar and new correlations were proposed. Rahul et al. [7] presented a correlation
for outside Nusselt number of a helical tube. Their results indicated that the pitch of
coil significantly affects the outside heat transfer coefficient. Helical and straight tubes
were compared by Prabhanjan et al. [8]. The results showed that a helical coil heat
exchanger increases the heat transfer coefficient and the temperature rise of fluid
depends on the coil geometry and the flow rate.
This all researches show that the optimum condition for increasing overall heat
transfer coefficient in coiled tube heat exchanger is obtained by highest level of the
coil diameter, coil pitch, filled cold water and hot air flow rates.
AIR CONDITIONER USING PELTIER MODULE : SMALL SCALE AIR CONDITONING
3
Thermoelectric cooling uses the Peltier effect that produces a temperature difference
between the junctions of electric conductors two different types of materials, when
electricity is made to flow through the circuit. A Peltier cooler used in current work
transfers heat from hot region to the comparatively cold region of space with the use
of cluster of thermoelectric devices known as Peltier module, a semiconductor based
refrigerator resembling flat square plate, where heat is absorbed from one side (cold
side) and dissipated on the opposite side (hot side), with consumption of electricity.
AIR CONDITIONER USING PELTIER MODULE : SMALL SCALE AIR CONDITONING
4
This cooling is a solid state method of heat transfer generated using P-type and N-
type semiconductor, usually bismuth telluride.
Peltier module consists of a number of thermocouples sandwiched between two layers
of ceramic substrates. Thermocouples (thermoelectric legs/pellets) are electrically
connected in series but thermally in parallel. A single thermocouple consists of one n
and one p-type semiconductor material and is known as a thermo-element. One
Peltier module consists of number of such thermo elements.
The ceramic substrates have high thermal conductivity so that there is minimal
conduction resistance across the layer of the substrate but very low electrical
conductivity to avoid any leakage current flow through the substrate.
At the cold junction, heat is absorbed by electrons as they pass from p-type (low
energy) semiconductor, to the n-type semiconductor (high energy) and at the hot
junction, heat is expelled as electrons move from an n-type to a p-type, when DC
potential difference is applied across two electric wires provided on plate. If the
polarity is changed the hot and cold junction, heat absorption and rejection,
interchanges.
Peltier modules have specifications in terms of geometry, number of thermocouples,
power rating, maximum voltage, current, maximum temperature difference.
Useful features of a Peltier cooler compared to vapour compression system are absence
of moving parts such as compressor, no leaks, no use of refrigerant gas. It gains
advantages due to above features over a conventional vapour compression such as no
noise, long life, high reliability, low maintenance, portable, compact, no ozone
depletion potential. Disadvantages of Peltier modules are very high cost and very
lower coefficient of performance. Many studies for improvemnent of module carried
out are discussed in the section below and in future the limitations would get reduced,
so making cooling system based on Peltier modules would surely contribute towards
society growth.
AIR CONDITIONER USING PELTIER MODULE : SMALL SCALE AIR CONDITONING
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AIR CONDITIONER USING PELTIER MODULE : SMALL SCALE AIR CONDITONING
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CONSTRUCTIONAL FEATURES OF AIR
CONDITIONER
As shown in Fig. air conditioner consists of a casing(shell) in the shape of rectangular
box. Casing is of thermal insulated box. contains container filled with water. Shell
have one inlet connected with tube inlet side and one outlet connected with outlet
side of tube. Cooling tubes is made of cooper for higher thermal conductivity. coiled
Tubes is placed in the box for circulating hot air. This coiled pipe is immured in the
cooled water which is filled in the shell.
In the wall of the shell attached 4 Aluminium heat sink plates kept submerged in
water and each heat sink back side attached one palter module(12V 5A) are attached
with cold side absorbing heat from water. Hot side is made to face outside, rejecting
heat to external heat rejecting system.
For controlling the temperature inside the space to be cooled, there exists a
thermostat. When the temperature inside the space reaches the required condition, the
power supply to the Peltier modules will be stopped.
A blower is attached in the inlet of the copper tube, which can circulate the room air
inside the tube and cooled air reject exit of the tube.
AIR CONDITIONER USING PELTIER MODULE : SMALL SCALE AIR CONDITONING
7
AIR CONDITIONER USING PELTIER MODULE : SMALL SCALE AIR CONDITONING
8
WORKING OF AIR CONDITIONER
There are two circuits; one circuit cools water directly through contact with Peltier
plate and second circuit cools air to be circulated in the pipes to be conditioned.
The Peltier plates attached on water container box’s one face absorbs the heat from
water with consumption of electricity. This heat transfer is enhanced by the use of
fins. Also the cold side of Peltier plate does not contact directly with water. Cold side
makes contact with thin highly conductive wall of container and on that wall fins are
attached. On hot side of Peltier plate heat is rejected outside of the space by external
heat rejecting system, to be cooled and again heat flow rate is enhanced by use of a fan
(forced circulation) and highly conductive finned plate.
Water cooled by the 4 palter module at the desire temperature and room air now
enters cooling pipes of highly conductive material, in which the cooled water absorb
heat at an enhanced rate from surrounding air. Air moves in zig zag manner until it
reaches at its outlet. During this journey it gets good contact with filled shell water
due to increased area because of zigzag arrangement made in the space available and
fins.
Because of heat transfer hot side to cooled side, the temperature will increase which
feather cooled by palter module.
The blower forces air pump from space to cooling pipes. Which gets cooled after
flowing inside the pipe. (forced circulation for higher heat transfer rate).
AIR CONDITIONER USING PELTIER MODULE : SMALL SCALE AIR CONDITONING
9
PROPOSED CALCULATIONS FOR DESIGN
To Calculate coefficient of performance of single Peltier module following procedure
is adopted [7].
Some known amount of water is poured inside a beaker. Water initial temperature is
measured. Then beaker is kept on cold side of Peltier plate. Now plate and fan is
supplied safe amount of electricity its wattage is measured. Certain temperature
difference is set and accordingly final temperature is measured with amount of time
taken and above recorded data is substituted in following equations. The current
Peltier module has following observed data.
Initial Temperature = 33C
Final Temperature = 10C
Temperature Difference (dt) = 23 C
Volume of water (m) = 20 litres
Time (t) = 60 minutes = 3600 seconds
Power Utilized = Power utilized by air blower fan + Power utilized by Peltier Module = (.5 x 12) + (2
x 12) = 30 watts = 30 x 10-3 kW
Heat absorbed (Q) = m Cp dt = 20 x 4.18 x 23 = 1922.8 kJ
Work consumed (W) = Power Utilized x Time Duration = 30 x 10-3 x 3600 = 108 kJ
COP = Heat absorbed / Work consumed = Q / W = 1922.8 / 108 = 17.80
Average refrigeration effect = Q/t =1922.8 /3600 =0.53411 kW= 534.11 W
Accordingly, number of modules required for required refrigeration effect can be
calculated considering some losses due to resistance of conduction (fined wall),
resistance of convection from wall to water, water to cooling coiled copper pipe and
cooling coiled copper pipe to air. Number of modules determines container wall and
the casing dimension by knowing module geometry and spacing between modules.
According to flow rate of air desired and refrigeration effect needed one can find flow
rate of Air required. By this blower could be selected. However, pressure drop
AIR CONDITIONER USING PELTIER MODULE : SMALL SCALE AIR CONDITONING
10
considerations also will be important for selection of these two. Mass of water desired
will also decide size of container. Blower area for air flow rate desired will also
determine size of casing and grid sizing.
COST ESTIMATION
Total estimated cost reaches in over-all project up to 8000-9000
CONCLUSION
Conceptual design and a different kind of construction of environment friendly,
portable Peltier air conditioner are elaborated.
An arrangement for fresh air entry could be made by providing another inlet
communicating outside atmosphere to air duct with adjustable dampers to control
required amount of fresh air.
This whole unit with casing could be placed anywhere in the room.
The optimum condition for increasing overall heat transfer coefficient in coiled tube
heat exchanger is obtained by highest level of the coil diameter, coil pitch, hot and
cold-water flow rates.
This air conditioner could be coupled (provided the required electric power) with
solar photoelectric panels, generating electricity from solar energy.
REFERENCES
[1] S. Chingulpitak, S. Wongwises, A comparison of flow characteristics of
refrigerants flowing through adiabatic straight and helical capillary tubes, International
Journal of Heat and Mass Transfer 38 (2011) 398e404.
AIR CONDITIONER USING PELTIER MODULE : SMALL SCALE AIR CONDITONING
11
[2] S. Chingulpitak, S. Wongwises, Effects of coil diameter and pitch on the flow
characteristics of alternative refrigerants flowing through adiabatic helical capillary
tubes, International Communications in Heat and Mass Transfer 37 (2010)
1305e1311.
[3] Z. Zhao, X. Wang, D. Che, Z. Cao, Numerical studies on flow and heat transfer
in membrane helical-coil heat exchanger and membrane serpentine-tube heat
exchanger, International Communications in Heat and Mass Transfer 38 (2011)
1189e1194.
[4] A.N. Dravid, K.A. Smith, E.W.Merrill, P.L.T. Brain, Effect of secondaryfluid
onlaminar flow heat transfer in helically coiled tubes, AIChE Journal 17 (1971)
1114e1122.
[5] S.V. Patankar, V.S. Pratap, D.B. Spalding, Prediction of laminar flow and heat
transfer in helically coiled pipes, Journal of Fluid Mechanics 62 (1974) 539e551.
[6] V. Kubair, N.R. Kuloor, Heat transfer to Newtonian fluids in coiled pipes in
laminar flow, International Journal of Heat and Mass Transfer 9 (1996) 63e75.
[7] S. Rahul, S.K. Gupta, P.M.V. Subbarao, An experimental study for estimating
heat transfer coefficient from coiled tube surfaces in cross-flow of air, Proceedings of
the Third ISHMT-ASME Heat and Mass Transfer Conference and Fourth National
Heat and Mass Transfer Conference (1997) 381e385.
[8] D.G. Prabhanjan, G.S.V. Ragbavan, T.J. Kennic, Comparison of heat transfer
rates between a straight tube heat exchanger and helically coiled heat exchanger,
International Communications in Heat and Mass Transfer 29 (2) (2002) 185e191.
[9] R.C. Xin, M.A. Ebadian, The effects of Prandtl numbers on local and average
convective heat transfer characteristics in helical pipes, Journal of Heat Transfer 119
(1997) 463e473.
[10] T.H. Ko, K. Ting, Entropy generation and thermodynamic optimization of fully
developed laminar convection in a helical coil, International Communications in Heat
and Mass Transfer 32 (2005) 214e223. 97) 619e624.
AIR CONDITIONER USING PELTIER MODULE : SMALL SCALE AIR CONDITONING
12
[11] Hodes, M, “Optimal Pellet Geometries for Thermoelectric Refrigeration,” IEEE
Transactions on Components and Packaging Technologies, vol. 30, issue 1, pp. 50-
58, 2007.
[12] Fukutani, K., Shakouri, Ali, “Design of Bulk Thermoelectric Modules for
Integrated Circuit Thermal Management,” IEEE Transactions on Components and
Packaging Technologies, vol. 29, issue 4, pp. 750-757, 2006.
[13] Yi-Hsiang Cheng, Wei-Keng Lin, “Geometric optimization of thermoelectric
coolers in a confined volume using genetic algorithms,” Applied Thermal
Engineering, vol. 25, issue 17-18, pp 2983-2997, 2005. 2015 International
Conference on Technologies for Sustainable Development (ICTSD-2015), Feb. 04 –
06, 2015, Mumbai, India
[14] M D Kamrul Russel, “A Hybrid Thermoelectric Cooler Thermal Management
System For Electronic Packaging,” Master of Applied Science Thesis, McMaster
University, Ontario, Canada, 2011.
[15] Rama Venkatasubramanian, Edward Siivola, Thomas Colpitts & Brooks
O'Quinn, “Thin-film thermoelectric devices with high room-temperature figures of
merit,” Nature, vol. 413, pp 597-602 , 2001.
[16] Bansal P. K. and Martin A., “Comparative study of vapour compression,
thermoelectric and absorption refrigerators,” International Journal of Energy
Research, vol. 24, pp 93-107, 2000.
[17] Y A Cengel, M A Boles, Thermodynamics an engineering approach, sixth ed.,
Mcgraw hill, 2014.
[18] Air Conditioner using Peltier Module Mechanical, DBIT, Mumbai, India.
[19] Experimental analysis of heat transfer enhancement in shell and helical tube heat
exchangers, N. Jamshidi, M. Farhadi*, D.D. Ganji, K. Sedighi Faculty of Mechanical
Engineering, Babol University of Technology, Shariati Street.

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Air conditioner using peltier module final report [ rahul lakshkar, ashay, ritesh sing, shiv pratap]

  • 1. AIR CONDITIONER USING PELTIER MODULE : SMALL SCALE AIR CONDITONING 1 AIR CONDITIONER USING PELTIER MODULE SMALL SCALE AIR CONDITONING Rahul Kumar Lakshkar1 , Ashay Dahare2 , Ritesh Singh 3 , Shiv Pratap Singh4 Guide:- Mr. Satish Raghuwanshi Minor Project Department of Mechanical Engineering, IES IPS Academy ABSTRACT Present paper gives a picture of a conceptual design of an air conditioner using Peltier modules to achieve desired amount of cooling. The appearance of this thermoelectric type of air conditioner resembles a conventional window air conditioner. This brings the simplicity in construction. The air conditioner is intended to take up the cooling load in volume of space as in conventional automobiles such as cars. If conventional vapour compression type of air conditioner currently used in vehicles is replaced with this one with an arrangement for its placement, it would reduce the total weight of vehicle and increase fuel economy. EXTRACT Majot part of my project are closed shell, coiled copper tube and Peltier module. Closed shell and coiled copper tube : In the present work attempts are made to enhance the heat transfer rate between cooling medium present in closed shell and coiled copper tube . Air at room temperature flows into helical tube and cooling medium is filled in the shell side. Results indicate that the higher coil diameter, coil pitch and mass flow rate in tube can enhance the heat transfer rate in these types of heat exchangers. Cooling using Peltier Module: In order to cool the fluid in the close shell, a cooling system is needed which also reduce the total weight, also reduce the size and
  • 2. AIR CONDITIONER USING PELTIER MODULE : SMALL SCALE AIR CONDITONING 2 more economical. Image attached below gives a picture of a conceptual design of a water-cooling using Peltier modules to achieve desired amount of cooling. The appearance of this thermoelectric type of cooling module resembles a conventional window air conditioner. This brings the simplicity in construction. The air conditioner is intended to take up the cooling load in volume of space as in conventional domestic cooling system such as small room. If conventional vapour compression type of air conditioner currently used in domestic areas is replaced with this one with an arrangement for its placement, it would reduce the total weight of system and more economical. INTRODUCTION In industrial applications pipelines and tubes are widely used. Coiled tubes are used in compact heat exchangers, condensers and evaporators in the food, pharmaceutical, modern energy conversion and power utility systems, heating ventilating and air conditioning (HVAC) engineering and chemical industries [1e3]. In coiled tubes centrifugal force make a pair of longitudinal vortices and these secondary flow increases the heat transfer coefficient. Patankar et al. [5] discussed the effect of the Dean number on friction factor and heat transfer in the developing and fully developed regions of helically coiled pipes. Good agreements were obtained in comparison with the experimental data. Kubiar and Kuloor [6] studied experimentally the heat transfer rate and pressure drop of glycerol flowing inside a vertical helical coil at constant wall temperature. The flow regime was laminar and new correlations were proposed. Rahul et al. [7] presented a correlation for outside Nusselt number of a helical tube. Their results indicated that the pitch of coil significantly affects the outside heat transfer coefficient. Helical and straight tubes were compared by Prabhanjan et al. [8]. The results showed that a helical coil heat exchanger increases the heat transfer coefficient and the temperature rise of fluid depends on the coil geometry and the flow rate. This all researches show that the optimum condition for increasing overall heat transfer coefficient in coiled tube heat exchanger is obtained by highest level of the coil diameter, coil pitch, filled cold water and hot air flow rates.
  • 3. AIR CONDITIONER USING PELTIER MODULE : SMALL SCALE AIR CONDITONING 3 Thermoelectric cooling uses the Peltier effect that produces a temperature difference between the junctions of electric conductors two different types of materials, when electricity is made to flow through the circuit. A Peltier cooler used in current work transfers heat from hot region to the comparatively cold region of space with the use of cluster of thermoelectric devices known as Peltier module, a semiconductor based refrigerator resembling flat square plate, where heat is absorbed from one side (cold side) and dissipated on the opposite side (hot side), with consumption of electricity.
  • 4. AIR CONDITIONER USING PELTIER MODULE : SMALL SCALE AIR CONDITONING 4 This cooling is a solid state method of heat transfer generated using P-type and N- type semiconductor, usually bismuth telluride. Peltier module consists of a number of thermocouples sandwiched between two layers of ceramic substrates. Thermocouples (thermoelectric legs/pellets) are electrically connected in series but thermally in parallel. A single thermocouple consists of one n and one p-type semiconductor material and is known as a thermo-element. One Peltier module consists of number of such thermo elements. The ceramic substrates have high thermal conductivity so that there is minimal conduction resistance across the layer of the substrate but very low electrical conductivity to avoid any leakage current flow through the substrate. At the cold junction, heat is absorbed by electrons as they pass from p-type (low energy) semiconductor, to the n-type semiconductor (high energy) and at the hot junction, heat is expelled as electrons move from an n-type to a p-type, when DC potential difference is applied across two electric wires provided on plate. If the polarity is changed the hot and cold junction, heat absorption and rejection, interchanges. Peltier modules have specifications in terms of geometry, number of thermocouples, power rating, maximum voltage, current, maximum temperature difference. Useful features of a Peltier cooler compared to vapour compression system are absence of moving parts such as compressor, no leaks, no use of refrigerant gas. It gains advantages due to above features over a conventional vapour compression such as no noise, long life, high reliability, low maintenance, portable, compact, no ozone depletion potential. Disadvantages of Peltier modules are very high cost and very lower coefficient of performance. Many studies for improvemnent of module carried out are discussed in the section below and in future the limitations would get reduced, so making cooling system based on Peltier modules would surely contribute towards society growth.
  • 5. AIR CONDITIONER USING PELTIER MODULE : SMALL SCALE AIR CONDITONING 5
  • 6. AIR CONDITIONER USING PELTIER MODULE : SMALL SCALE AIR CONDITONING 6 CONSTRUCTIONAL FEATURES OF AIR CONDITIONER As shown in Fig. air conditioner consists of a casing(shell) in the shape of rectangular box. Casing is of thermal insulated box. contains container filled with water. Shell have one inlet connected with tube inlet side and one outlet connected with outlet side of tube. Cooling tubes is made of cooper for higher thermal conductivity. coiled Tubes is placed in the box for circulating hot air. This coiled pipe is immured in the cooled water which is filled in the shell. In the wall of the shell attached 4 Aluminium heat sink plates kept submerged in water and each heat sink back side attached one palter module(12V 5A) are attached with cold side absorbing heat from water. Hot side is made to face outside, rejecting heat to external heat rejecting system. For controlling the temperature inside the space to be cooled, there exists a thermostat. When the temperature inside the space reaches the required condition, the power supply to the Peltier modules will be stopped. A blower is attached in the inlet of the copper tube, which can circulate the room air inside the tube and cooled air reject exit of the tube.
  • 7. AIR CONDITIONER USING PELTIER MODULE : SMALL SCALE AIR CONDITONING 7
  • 8. AIR CONDITIONER USING PELTIER MODULE : SMALL SCALE AIR CONDITONING 8 WORKING OF AIR CONDITIONER There are two circuits; one circuit cools water directly through contact with Peltier plate and second circuit cools air to be circulated in the pipes to be conditioned. The Peltier plates attached on water container box’s one face absorbs the heat from water with consumption of electricity. This heat transfer is enhanced by the use of fins. Also the cold side of Peltier plate does not contact directly with water. Cold side makes contact with thin highly conductive wall of container and on that wall fins are attached. On hot side of Peltier plate heat is rejected outside of the space by external heat rejecting system, to be cooled and again heat flow rate is enhanced by use of a fan (forced circulation) and highly conductive finned plate. Water cooled by the 4 palter module at the desire temperature and room air now enters cooling pipes of highly conductive material, in which the cooled water absorb heat at an enhanced rate from surrounding air. Air moves in zig zag manner until it reaches at its outlet. During this journey it gets good contact with filled shell water due to increased area because of zigzag arrangement made in the space available and fins. Because of heat transfer hot side to cooled side, the temperature will increase which feather cooled by palter module. The blower forces air pump from space to cooling pipes. Which gets cooled after flowing inside the pipe. (forced circulation for higher heat transfer rate).
  • 9. AIR CONDITIONER USING PELTIER MODULE : SMALL SCALE AIR CONDITONING 9 PROPOSED CALCULATIONS FOR DESIGN To Calculate coefficient of performance of single Peltier module following procedure is adopted [7]. Some known amount of water is poured inside a beaker. Water initial temperature is measured. Then beaker is kept on cold side of Peltier plate. Now plate and fan is supplied safe amount of electricity its wattage is measured. Certain temperature difference is set and accordingly final temperature is measured with amount of time taken and above recorded data is substituted in following equations. The current Peltier module has following observed data. Initial Temperature = 33C Final Temperature = 10C Temperature Difference (dt) = 23 C Volume of water (m) = 20 litres Time (t) = 60 minutes = 3600 seconds Power Utilized = Power utilized by air blower fan + Power utilized by Peltier Module = (.5 x 12) + (2 x 12) = 30 watts = 30 x 10-3 kW Heat absorbed (Q) = m Cp dt = 20 x 4.18 x 23 = 1922.8 kJ Work consumed (W) = Power Utilized x Time Duration = 30 x 10-3 x 3600 = 108 kJ COP = Heat absorbed / Work consumed = Q / W = 1922.8 / 108 = 17.80 Average refrigeration effect = Q/t =1922.8 /3600 =0.53411 kW= 534.11 W Accordingly, number of modules required for required refrigeration effect can be calculated considering some losses due to resistance of conduction (fined wall), resistance of convection from wall to water, water to cooling coiled copper pipe and cooling coiled copper pipe to air. Number of modules determines container wall and the casing dimension by knowing module geometry and spacing between modules. According to flow rate of air desired and refrigeration effect needed one can find flow rate of Air required. By this blower could be selected. However, pressure drop
  • 10. AIR CONDITIONER USING PELTIER MODULE : SMALL SCALE AIR CONDITONING 10 considerations also will be important for selection of these two. Mass of water desired will also decide size of container. Blower area for air flow rate desired will also determine size of casing and grid sizing. COST ESTIMATION Total estimated cost reaches in over-all project up to 8000-9000 CONCLUSION Conceptual design and a different kind of construction of environment friendly, portable Peltier air conditioner are elaborated. An arrangement for fresh air entry could be made by providing another inlet communicating outside atmosphere to air duct with adjustable dampers to control required amount of fresh air. This whole unit with casing could be placed anywhere in the room. The optimum condition for increasing overall heat transfer coefficient in coiled tube heat exchanger is obtained by highest level of the coil diameter, coil pitch, hot and cold-water flow rates. This air conditioner could be coupled (provided the required electric power) with solar photoelectric panels, generating electricity from solar energy. REFERENCES [1] S. Chingulpitak, S. Wongwises, A comparison of flow characteristics of refrigerants flowing through adiabatic straight and helical capillary tubes, International Journal of Heat and Mass Transfer 38 (2011) 398e404.
  • 11. AIR CONDITIONER USING PELTIER MODULE : SMALL SCALE AIR CONDITONING 11 [2] S. Chingulpitak, S. Wongwises, Effects of coil diameter and pitch on the flow characteristics of alternative refrigerants flowing through adiabatic helical capillary tubes, International Communications in Heat and Mass Transfer 37 (2010) 1305e1311. [3] Z. Zhao, X. Wang, D. Che, Z. Cao, Numerical studies on flow and heat transfer in membrane helical-coil heat exchanger and membrane serpentine-tube heat exchanger, International Communications in Heat and Mass Transfer 38 (2011) 1189e1194. [4] A.N. Dravid, K.A. Smith, E.W.Merrill, P.L.T. Brain, Effect of secondaryfluid onlaminar flow heat transfer in helically coiled tubes, AIChE Journal 17 (1971) 1114e1122. [5] S.V. Patankar, V.S. Pratap, D.B. Spalding, Prediction of laminar flow and heat transfer in helically coiled pipes, Journal of Fluid Mechanics 62 (1974) 539e551. [6] V. Kubair, N.R. Kuloor, Heat transfer to Newtonian fluids in coiled pipes in laminar flow, International Journal of Heat and Mass Transfer 9 (1996) 63e75. [7] S. Rahul, S.K. Gupta, P.M.V. Subbarao, An experimental study for estimating heat transfer coefficient from coiled tube surfaces in cross-flow of air, Proceedings of the Third ISHMT-ASME Heat and Mass Transfer Conference and Fourth National Heat and Mass Transfer Conference (1997) 381e385. [8] D.G. Prabhanjan, G.S.V. Ragbavan, T.J. Kennic, Comparison of heat transfer rates between a straight tube heat exchanger and helically coiled heat exchanger, International Communications in Heat and Mass Transfer 29 (2) (2002) 185e191. [9] R.C. Xin, M.A. Ebadian, The effects of Prandtl numbers on local and average convective heat transfer characteristics in helical pipes, Journal of Heat Transfer 119 (1997) 463e473. [10] T.H. Ko, K. Ting, Entropy generation and thermodynamic optimization of fully developed laminar convection in a helical coil, International Communications in Heat and Mass Transfer 32 (2005) 214e223. 97) 619e624.
  • 12. AIR CONDITIONER USING PELTIER MODULE : SMALL SCALE AIR CONDITONING 12 [11] Hodes, M, “Optimal Pellet Geometries for Thermoelectric Refrigeration,” IEEE Transactions on Components and Packaging Technologies, vol. 30, issue 1, pp. 50- 58, 2007. [12] Fukutani, K., Shakouri, Ali, “Design of Bulk Thermoelectric Modules for Integrated Circuit Thermal Management,” IEEE Transactions on Components and Packaging Technologies, vol. 29, issue 4, pp. 750-757, 2006. [13] Yi-Hsiang Cheng, Wei-Keng Lin, “Geometric optimization of thermoelectric coolers in a confined volume using genetic algorithms,” Applied Thermal Engineering, vol. 25, issue 17-18, pp 2983-2997, 2005. 2015 International Conference on Technologies for Sustainable Development (ICTSD-2015), Feb. 04 – 06, 2015, Mumbai, India [14] M D Kamrul Russel, “A Hybrid Thermoelectric Cooler Thermal Management System For Electronic Packaging,” Master of Applied Science Thesis, McMaster University, Ontario, Canada, 2011. [15] Rama Venkatasubramanian, Edward Siivola, Thomas Colpitts & Brooks O'Quinn, “Thin-film thermoelectric devices with high room-temperature figures of merit,” Nature, vol. 413, pp 597-602 , 2001. [16] Bansal P. K. and Martin A., “Comparative study of vapour compression, thermoelectric and absorption refrigerators,” International Journal of Energy Research, vol. 24, pp 93-107, 2000. [17] Y A Cengel, M A Boles, Thermodynamics an engineering approach, sixth ed., Mcgraw hill, 2014. [18] Air Conditioner using Peltier Module Mechanical, DBIT, Mumbai, India. [19] Experimental analysis of heat transfer enhancement in shell and helical tube heat exchangers, N. Jamshidi, M. Farhadi*, D.D. Ganji, K. Sedighi Faculty of Mechanical Engineering, Babol University of Technology, Shariati Street.