Overview of the use of Peltier’s modules in technology

Balasubramanian, Rathnakumar

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Overview of the use of Peltier’s modules in technology

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Balasubramanian Rathnakumar

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Abstrakty

In this article, design and analysis study of thermoelectric generation reactor and its applications are described, Thermoelectric (TE) Heating and Cooling technology has many advantages in power generation and industrial purposes.This paper introduces a new cooling system approach that extracts heat from outer surface space to get it to a lower temperature than the air surrounding it. This system uses the "Thermoelectric Generator module (TEG)" which works on thermoelectric cooling, with the goal of cooling by using thermoelectric effect. Effect which states that when DC voltage is applied across two junctions of significantly different electrical conductors; heat is absorbed from one junction and heat is discharged at another junction which causes a temperature difference. A difference in temperature applied at the atomic scale allows the carriers of charge in the substance to migrate from the hot side to the cold side. This process requires electrical and thermal conductivity for the metals to supply the water using heat exchangers that reduces power consumption. In order to improve theperformance of the TE cooling systems, the hot side of the TE should be directly connectedto efficient heat exchangers for dissipation of the excessive heat.

Słowa kluczowe

thermoelectric generators Peltier modules heat sinks

Wydawca

Centrum Rzeczoznawstwa Budowlanego Sp. z o.o.

Czasopismo

Modern Engineering

Rocznik

2020

Tom

Strony

11--17

Opis fizyczny

Bibliogr. 16 poz., rys., tab.

Twórcy

autor

Balasubramanian Rathnakumar

rathnakumarbalu@gmail.com

PRIST University, Chennai, Tamil Nadu, India

Bibliografia

1. Atta, R. M. in Bringing Thermoelectricity into Reality (ed Aranguren, P.) (University of Navarra, Spain, 2018).
2. Fritts, R. W. Special Applications of Thermoelectric Generators. IEEE Transactions on Industry and General Applications IGA-3, 458–462 (5 1967).
3. Gould, C., Shammas, N., Grainger, S. & Taylor, I. Thermoelectric cooling of microelectronic circuits and waste heat electrical power generation in a desktop personal computer. Materials Science and Engineering: B 176. Microtechnology and Thermal Problems in Electronics, 316 –325. issn: 0921-5107 (2011).
4. Jacks Delightus Peter, A. & Balaji D.and Gowrishankar, D. Waste heat energy harvesting using thermo electric generator- IOSR. Journal of Engineering (IOSRJEN) 3. issn: 2250-3021 (7 2013).
5. Mamur, H. & Ahiska, R. Thermoelectric generators in renewable energy. International Journal of Renewable Energy Research (IJRER) 4, 128–136 (1 2014).
6. Manoj, K., Chattopadhyay & Neoga. A review on developments of thermoelectric refrigeration and air conditioning systems. International Journal of EmergingTechnology and Advanced Engineering, 362–367 (2013).
7. Marc, H. Thermoelectric Modules: Principles and Research. InterPACK (2011).
8. Ouitrakul, S. Preliminary Experiment for Electricity Generation using Peltier Modules (2014).
9. Rowe, D. CRC handbook of thermoelectric (CRC press, Boca Raton, 1995).
10. Ruciński, A. & Rusowicz, A. Thermoelectric generation of current – theoretical and experimental analysis. Archives of Thermodynamics 38, 3–13 (2017).
11. Shaik, A., Parankusum, C. S., Ommi, S. R., Mulampaka, B. & Kiran, K. S. Design and Investigation on Portable Thermoelectric Air Chiller. International Journal of Engineering Trends and Technology 67, 18–22 (2 2019).
12. Stackhouse, S. & Stixrude, L. Theoretical Methods for Calculating the Lattice Thermal Conductivity of Minerals. Mineralogy and Geochemistry 71, 253–269 (2010).
13. Suresh, S., Rajesh, S. & Rajendra, M. P. Design and Low Cost Fabrication of Green Vibration Energy Harvestor. Elsevier, Sensors and Actuators, A: Physical 251, 134–141. issn: 0924-4247 (2016).
14. What is a Peltier Cooler http://www.reuk.co.uk/wordpress/thermoelectric/what- is- a- peltier-cooler/.
15. Wojciechowski, K. T. et al. Prototypical thermoelectric generator for waste heat conversion from combustion engines. Combustion Engines 52, 60–71 (3 2013).
16. Zhua, N., Matsuurab, T., Suzukib, R. & Tsuchiyaa, T. Development of a small solar power generation system based on thermoelectric generator. Energy Procedia 52, 651–658 (2014).

Uwagi

Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).

Typ dokumentu

Bibliografia

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