DESIGN AND ANALYSIS OF AIR FLOW DEPRESSION FOR AIR-CONDITIONING IN SMALL PASSENGER CABIN USING SOLID WORKS

As technology advances AC system is also adhering to major advancements. In general, automobile air-conditioning systems are designed to provide comfort for the driver and the passengers during a journey. The conventional electrical-driven compression systems are widely used in almost all of the automobiles today. The objective of the research is to develop an air depression design inside the top surfaces of the rear cabin. The optimal flow of air inside the cabin increases the thermal comfort of the vehicle. The proposed cabin depression design inside the rear top surfaces is analyzed under thermal variation and air-flow circulation inside the cabin. The proposed design motivates with the designing phase of the new intelligent cabin for increasing the air-flow inside the cabin surfaces. The designing of the cabin is undergoing by Solid Works software and analyzed under real-time constraints. From the evaluation results, it is clear that the proposed cabin design has efficient air flow and air conditioning than conventional car cabin respectively.