Recent Trends in Control and Converter

It generally say ‘Energy can neither be created nor be destroyed’, only it can be transformed from one form to another form. This is the Universal Truth and in concern with that many scientists given their laws. The existing air conditioning system works on the compressor and these depends on refrigerant gases like Freon, Ammonia, CFCs etc. One of the major disadvantages for these refrigerant gases are global warming and harmful gas emission which contributes in environmental problems. So, to reduce the intensity of the discharge gases eco-friendly alternative had found. Research shows that thermoelectric cooler is the best option for this problem. Motive of this project is to analyse the working of the TEC and to design the system. The system uses TEM which works on Peltier effect. On this phenomenon this project had developed, a new air conditioning system which works on Peltier effect of thermoelectric module (TEM) which is completely eco-friendly air condition and portable, no vibration, small in size unlike the existing cooling system.

Keywords: Air conditioning, eco-friendly, peltier effect, thermoelectric module (tem), thermoelectric cooler (TEC)

Al-Khalidy, M. M. M., & Ahmed, A. I. (2019). Internet of Things and intelligent peltier cold/hot air conditioning system. 26 March, 2nd Smart Cities Symposium (SCS 2019).

Amtrak, N. M., Armani, H. R. (2016) A study on thermal and electric characteristic of thermoelectric cooler TEC-127 series. In 7th International Conference on Intelligent Systems, Modelling and Simulation.

Hodes, M. (2012). Optimal design of thermoelectric refrigerators embedded in a thermal resistance network. IEEE Transactions on Components, Packaging and Manufacturing Technology, 2(3), 483-495.

Ivanov, K., Belovski, I., & Aleksandrov, A. (2021, July). Design, Building and Study of a Small-size Portable Thermoelectric Refrigerator for Vaccines. In 2021 17th Conference on Electrical Machines, Drives and Power Systems (ELMA) (pp. 1-4). IEEE.

Guráš, R., & Mahdal, M. (2021, May). Use of Peltier Modules for Liquid Cooling. In 2021 22nd International Carpathian Control Conference (ICCC) (pp. 1-4). IEEE.

Patel, J., Patel, M., Patel, J., & Modi, H. (2016). Improvement in the COP of Thermoelectric Cooler. International journal of scientific & technology research, 5(05), 73-76.

Patil, N., Pathak, D., & Sahasrabudhe, S. (2018, January). A novel refrigerator for smart city. In 2018 International Conference on Smart City and Emerging Technology (ICSCET) (pp. 1-4). IEEE.

Yan, S. U. N., WEN, Z. F., ZHANG, A. B., & Ji, W. A. N. G. (2019, November). Numerical Simulation on Thermoelectric Performance and Thermal Stresses of a Segmented Annular Thermoelectric Generator. In 2019 14th Symposium on Piezoelectrcity, Acoustic Waves and Device Applications (SPAWDA) (pp. 1-4). IEEE.

Wang, N., Zhang, J. N., Liu, Z. Y., Ding, C., Sui, G. R., Jia, H. Z., & Gao, X. M. (2021). An Enhanced Thermoelectric Collaborative Cooling System with Thermoelectric Generator Serving as a Supplementary Power Source. IEEE Transactions on Electron Devices, 68(4), 1847-1854.

Patond, M. S. B., Bhadake, M. P. G., & Patond, M. C. B. (2015). Experimental Analysis of Solar Operated Thermo-Electric Heating and Cooling System. International Journal of Engineering Trends

Gould, C. A., Shammas, N. Y., Grainger, S., & Taylor, I. (2008, May). A comprehensive review of thermoelectric technology, micro-electrical and power generation properties. In 2008 26th International Conference on Microelectronics (pp. 329-332). IEEE.

Nair, M., & Tripathi, B. (2019). Experimental Studies on Thermoelectric Refrigeration System. In Conference Paper, April2019. https://www. researchgate. net/publication/332752147.