Abstract
The article presents an original method for regenerating common rail injectors, which involves extending the standard diagnostic procedure with a phase of analytical calculations. These calculations were conducted based on the closed Newton-Cotes formula (commonly known as the trapezoidal rule), allowing for the estimation of the resulting fuel injection surface areas and their comparison with the manufacturer's reference. The presented example demonstrates that the proposed solution is particularly useful in challenging situations where a clear assessment of the injector's technical condition is difficult. Several other advantages have been highlighted, making this method suitable for application in laboratory and workshop conditions.
Publisher
Polish Scientific Society of Combustion Engines
Reference25 articles.
1. Statistical Evaluation of the Corrosive Wear of Fuel Injector Elements Used in Common Rail Systems
2. Billo EJ. Excel® for scientists and engineers. Numerical methods. 1st ed. New Jersey: John Wiley&Sons. Inc. 2007.
3. Busz W, Walaszyk A. Optimize the testing process common rail fuel injectors. Combustion Engines. 2015;162(3):978-981.
4. Cheney W, Kincaid D. Numerical mathematics and compu-ting. 7th ed. Pacific Grove: Books/Cole Publishing Company 2012.
5. Chomik Z, Łagowski P. The analysis of mechanical damage of common rail injectors. Journal of Research and Applica-tions in Agricultural Engineering. 2019;64(1):13-20.
Cited by
1 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献