HBRP Publication Page 1-7 2021. All Rights Reserved Page 1 Journal of Optoelectronics and Communication Volume 3 Issue 1 Solar Powered Thermoelectric Refrigeration System Sayali Paunikar*, Aparna Gadlinge, Ashish Pidurkar, Sanket Ramatkar, Harshal Jogdand, Rani Sabre, D. N. Katole Department of Electrical Engineering, Priydarshani J L Collage of Engineering, Nagpur, Maharashtra, India Corresponding Author E-Mail Id: sayalipaunikar4@gmail.com ABSTRACT Demand for refrigeration in all areas, such as refrigeration, nutrient security, clinical administration, antibody storage and temperature control of electronic components, has expanded to create more energy and thus increase the ration of CO2 in the air. It refers to abnormal climate change and many climate changes. Thermoelectric cooling is another option because it can reduce power consumption to produce a cooling effect as well as overcome current charisma issues. Accordingly, thermoelectric cooling is essential in creating countries that need more and less support. The goal of this study was to develop a thermoelectric refrigerator that works for volume 1L cabin cooling using the Peltier effect to cool the selected temperature range from 5°C to 25°C. The refrigeration chamber design incorporates a thermoelectric module (TEM) that works with a Peltier effect to cool the juicer to approximately 18°C. Solar panels have added benefits to providing energy. The design and manufacture of solar powered thermoelectric refrigerators for the required applications will be demonstrated. Keywords: Solar energy, thermometric module, refrigeration, cooling effect, etc INTRODUCTION Due to the increasing demand for refrigeration in various fields led to production of more electricity and consequently more release of harmful gas like CO2 everywhere the earth which might be a contributing factor of worldwide warming on global climate change. Thermoelectric refrigeration might be a replacement alternative method. The thermoelectric modules are fabricated from semiconductor materials electrically connected nonparallel configuration and thermally in parallel to create cold and hot surfaces.[2] Despite the fact that they're less effective than the fume pressure framework, they're flare, low in cost, quite employable, and are earth agreeable. The destinations of this venture is to style and build up a working thermoelectric cooler that uses the Peltier impact to refrigerate and keep up a temperature between 5°C to 25°C. the structure prerequisites are to loosen up the degree to a temperature inside a speedy time. It gives maintenance of at least next thirty minutes. And a thermosiphon cooling system is used for cooling the recent side of TEC module. it'll use in remote locations within the globe where there is no grid electricity, and where wattage supply is unreliable when an electrical device charger is added for battery charging. A thermoelectric module along these lines utilizes a couple of fixed intersections into which power is applied making one intersection become cold while the different gets hot. Since thermoelectric cooling may be a strategy for strong state