Journal of Engineering and Applied Sciences
ISSN: Online 1818-7803ISSN: Print 1816-949x
Abstract
The study and the review of the component composition optimization system concerning Water-Fuel Emulsions (WFE) according to the indicators of diesel power plant functioning. The optimization criteria determination according to static characteristics. The research deals with the dispersant dynamic model and provides the guidance to the development of water concentration stabilization circuit in WFE. The solution of this problem for diesel engines was carried out on the basis of experimental data generalization, WFE application issue published by researchers. The smoothing of experimental data was performed by the method of least squares. Power polynoms were used as an approximation function. According to the study results it is clear that an open loop stabilization system by the volume flow of fuel and water costs is the easiest one in terms of implementation, availability and the cost of components (sensors). An open stabilization system was developed and tested for the main tanker boilers. Concentration setting period at the level of 2% from the desired one made 180-200 sec. Such system indicators satisfy entirely according to output speed parameter to the nominal steam output. The researchers conducted a number of works on the analysis and the description of the component composition optimization system in respect of Water-Fuel Emulsions (WFE) according to the indicators of diesel power plant functioning. The solutions are offered to overcome the disadvantages in continuous operation systems, optimizing the component structure of WFE during a power plant operation. The optimization criteria for static characteristics are provided. The dynamic model of the dispersant is described and the guidance to the stabilization circuit construction are provided concerning the water concentration in WFE.
How to cite this article:
Sergey Y. Ganigin and Andrey Y. Murzin. Optimization of Water-Fuel Emulsion Component Composition and the Dynamics of
Continuous Action Preparation Systems.
DOI: https://doi.org/10.36478/jeasci.2016.2909.2914
URL: https://www.makhillpublications.co/view-article/1816-949x/jeasci.2016.2909.2914