Diseño y construcción de un flujógrama para cabezotes

Abstract:

In order to prepare a competition vehicle, the actual results of a performed work are doubtless determined by tests taking place into the road and track. However, it should not be forgotten that test rigs let to quantify and measure the work done on a competition engine about power feature. The information obtained from such equipment will enable us to understand which steps of the work were successfully performed or in which ones there were mistakes. A cylinder head is a motor piece where it is possible to work in order to improve performance and there are many variables to take into consideration when such work is being executed. The design and build of a cylinder head flowmeter is discussed in this project. It will allow measuring of the results generated from the work performed by the intake and exhaust nozzles, which will show a way to improve the air flow and gas ejection. In order to achieve this goal, it will be analyzed by means of computations the best way to get a great air mass and reach a high air thrust speed as well as high gas ejection speed, which will let the engine to breath adequately even at the highest conditions of work. The results of this project will be applicable in real scenarios, because it was found that automotive technicians prepare engines in a craft manner, which makes essential that they know about how important is to take into account this control mechanism. As well as the mentioned automotive technicians, it is useful that this information also be accessible by students in automotive mechanical engineering faculties. XI A cylinder head flowmeter for the International University Automotive Mechanical Faculty lab will support the activities related to several topics that are discussed in the career’s subjects, such asμ Engine Overhaul, Internal Combustion Engines, Engine Correction, among others, being a useful tool to do comparisons, computations and measures. These features will be meaningful to study and understand engine capabilities and functions. It will be executed a demonstration in which the values generated by the tool will be compared to provider standard data. Thus, with this comparison it will be possible to verify its performance as soon as the information is analyzed, by means of statistics that may require to be checked. The project development is feasible, because the previous investigation tasks gave results that showed how the tool implementation may be executed while optimizing time and resources, without disregard of the main features that this tool must implement in order to be reliable.

Año de publicación:

2014

Keywords:

• ÁRBOL DE LEVAS
• Aerodinámica
• TUBO PILOT
• CABEZA CRÓNICA

Fuente:

rraae