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ABSTRACT
The project "Development of an Improved V8 Solenoid Engine with Radiator Cooling System" is an innovative effort in the field of automobile engineering. This effort is driven by the need for higher energy efficiency, lower emissions, and better thermal management in internal combustion engines. The primary objectives of the project are to design, develop and test a V8 solenoid engine integrated with an improved radiator cooling system. The primary goal of this project is to comprehensively design and construct an innovative V8 solenoid engine using cutting-edge SolidWorks design techniques. The layout of the engine makes use of solenoid valve technology to accurately manage air and fuel intake, optimising combustion efficiency and power production. Simultaneously, a radiator cooling system that has been precisely integrated into the engine design allows for efficient heat dissipation, ensuring optimal operating temperatures and extending engine life. The performance improvements achieved by this unique engine and cooling system combination can be evaluated using a comprehensive evaluation technique. This research is predicted to result in considerable improvements in energy efficiency, emissions reduction, and thermal control, making it a promising solution for the rising sustainability and performance expectations of the automobile industry. To assess and validate the performance improvements made possible by this innovative engine and cooling system integration, thorough simulation tests were carried out using MATLAB Simulink. These simulations included temperature modelling with the radiator during engine operation and a comparison of current profiles to the engine's generated force. The findings shed light on the thermal behaviour and power characteristics of the enhanced V8 solenoid engine.
