GAS FREE REFRIGERATOR USING PELTIER MODULE 1 Shabarinathan K T, 2 Santhosh S, 3 Vishnu Gowtham B, 4 Udhaya Chandran RM [1][4] Assistant Professor, Department of Mechanical Engineering [2][3] UG Scholar, Department of Mechanical Engineering Adithya Institute of Technology shabarinathan_kt@adithyatech.com,sandysanthoshks@gmail.com,gaowtham@gmail.com ABSTRACT In our daily life we are absolutely depending on the technology where ever that may be, in that case the technology have some merits as well as demerits. In our project we are introducing a product which will vanish the demerit of a particular technology and at the same time satisfy the needs of its, which is nothing but the GAS FREE REFRIGERATOR. In this product we are introducing a components which is called THE PELTIER MODULE which is the major components of this project, using this we have designed this Gas Free Refrigerator with low power consumption and high efficiency comparing to the conventional one which is using in our day to day life 1. INTRODUCTION To carry out eco-friendly refrigeration we have chosen this method which is working under the Peltier effect or thermoelectric effect or Seeback effect. In this concept a new components has been introduced which is known as the PELTIER MODULE. Using this module we are processing the refrigeration process by transferring the heat from a utilizing chamber to another area, and this leads that utilizing chamber to get cold. Thus without any compressor and refrigerant the cooling process will be carried out. The above process is done creating temperature difference between a two dissimilar semiconductors by voltage through electrodes. On account of temperature difference heat transfer will takes. Here if once the Peltier module provided with power supply it will reach its maximum as -210 0 C so in that temperature we can keep anything inside the utilizing chamber so we are controlling the temperature by using Arduino controller thus it seems to be a complete product as a gas free refrigerator 2. OBJECTIVE To create a refrigerator without using the gas using Peltier module 92
To create user friendly in both health and wealth and it should be does not harmful to the user. In future this type of products will save the environment and also satisfy the need of the consumers without harm. Compare to the gas refrigerator, the Peltier refrigerator is less in cost The implementation of this kind of product will be high in the future in order to save the nature and human being 3. SELECTION OF MATERIALS The supporting frame is made up of fibre glass sheet, the reason for selecting this material is the fibre glass sheet is a good insulating material next to the Thermocol. The reason for selecting the insulating material is very are carrying out an refrigeration process, in this process the efficient output can be obtained in a closed chamber according to the chamber size the design will be made. If a conducting material is used the cooling effect will be conducted to the outside surface so there will be loss in efficiency thus the entire output will not be utilized so we are preferring the insulating material. There is large number of insulating materials are there in that we choose fibre glass material because of its availability and reasonable cost 4. EXPERIMENTAL SETUP AND METHODOLOGY The supporting frame is in the shape of cuboid in the following dimension Width of 150mm in all sides Height of 250mm in all the side Thickness of 10mm in all the sides In the top of the cuboid the Peltier module will be placed,provided with an opening the cold side will face the utilizing chamber and the hot side will face the outside of the chamber the Peltier module is connected to the DC supply. The heat sink is stick on the hot side of the module using thermal paste, the USB fan is connected with the heat sink through the screws. The thermocouple or temperature sensor is placed inside of the chamber which provides temperature sensed output to the Arduino controller to maintain temperature. To maintain an affordable temperature we are programmed as when the temperature reached 10 the power supply will be cut off automatically and when the temperature reached 15 the power supply will be provided. 93
In this the fixed Peltier module will be supplied with voltage. Into the Peltier module N type and P type semiconductors which is coated with ceramics. In this setup when the voltage is passed between the two dissimilar semi-conductors the temperature difference is takes place because of that the heat transfer will takes place. Thus the heat will be absorbed through the cold side of module from the utilizing chamber and dissipated through the hot side of the module which is attached with the heat sink and USB fan thus the refrigeration process is carried out. 6. PELTIER MODULE Peltier Module A thermoelectric module consists of arrangements of number of P- type and N-type semiconductor which are heavenly doped with electron Fig.6 Peltier Module carrier and sandwiched between two ceramic substrates. In this project I have used the Peltier module model TEC1-12706. 7. HEAT SINK AND USB FAN Fig.4 Peltier Effect 5. COMPONENTS OF THE GAS FREE REFRIGERATOR Peltier Module Power source (DC) USB fan Heat Sink Temperature Sensor Arduino controller Fibre glass sheet Cooling fan works on 12V DC at 3000 rpm been used here to remove the heat passive heat exchanger that cools a device by dissipating the heat into surrounding medium, it consists of fin blade due to which the surface area for cooling increase and hence the cooling effect obtained 94
Different types of Arduino is there here we are using Atmega328P type Fig.7 USB Fan 8. TEMPERATURE SENSOR It is a J type temperature sensor Its range -210 c - 1200 c its anode material is Fe Its cathode material is Cu Its accuracy 0.75% or 2.2 c using Using this we are controlling temperature of Utilizing chamber Using LabVIEW programming we are using this as a temperature controlling system 10. LABVIEW SOFTWARE With a graphical programming syntax that makes it simple to visualize, create, and code engineering systems, LabVIEW is unmatched in helping you reduce test times, deliver business insights based on collected data, and translate ideas into reality. LabVIEW is designed to interoperate with other software, whether alternative development approaches or open-source platforms used with it. 11. WORKING PRINCIPLE Fig.8 Temperature Sensor 9. ARDUINO CONTROLLER Arduino controller is a device which carry out a process through automation using coding or programmes The Gas Free Refrigerator is operated by the principle of Peltier effect (which is also known as thermoelectric effect ). The device has two sides one is hot and another one is cold side, and when a DC electric current flows through the it, temperature difference will takes place between two dissimilar semiconductors so the heat transfer will occur, then one side gets cool while the other gets hotter. The "hot" side is attached with a heat sink and USB fan so that module remains at ambient temperature 95
High efficiency. We can use this as an portable one by having some changes in design Its entirely gas free CONCLUSION Fig.11 Working Principle SCOPE OF PROJECT In diary industries by replacing the conventional cooling method and we can implement this method for large scale to avoid pollution and harmful effects to human In our daily life we can use this gas free fridge by replacing conventional one to save power and to avoid harmful side effects of refrigerant In future we can use this as a portable refrigerator by having some changes in design ADVATAGES Less in cost Minimizes the harmfulness to both environment and users This project is very useful for conventional refrigerator users. Using this we can control ozone depletion and too prevent the users from diseases. It is completely eco-friendly products. In future the requirements of eco-friendly will in high demand to face that these kinds of product will be a part of it. Promote eco-friendly products rescue the upcoming generations REFERENCES 1. Riffat, S. B., Qiu, G. (2004). Comparative Investigation of Thermoelectric Air-Conditioners versus Vapour Compression and Absorption Air-Conditioners. Applied Thermal Engineering, 24, 1979 1993. 2. Bansal, P.K.Martin, A (2000).Comparative Study of Vapour Compression, Thermoelectric and Absorption Refrigerators. International Journal of Energy Research, 24, 93 107 3. MayankAwasthi, K V Mali (2012), Design And Development Of 96
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