Wyniki wyszukiwania - BazTech

1

An example of adoption of the model-based design (MBD) methodology in the development process of an LPG fuelling system

Sidorowicz Maciej

Combustion Engines

|

2023

|

R. 62, nr 3

104--108

EN

The research aims to recognize the potential of adopting the model-based design methodology to the development process of an LPG (liquefied petroleum gas) fuelling system. Changing regulations often force the modern development of internal combustion engines (Euro 7, CO2 reduction measures, etc.). With the definitive ban on new registrations of vehicles powered by internal combustion engines in Europe (planned for 2035), there is still ongoing development of the adaptation of the fuelling system to LPG. There is still market potential in adapting new internal combustion engines, usually equipped with direct injection systems, to reduce customers’ cost of ownership of a vehicle. As the engineering process should be accelerated in the face of the variety of direct injection systems offered by OEMs (original equipment manufacturers), the model-based design methodology is proposed to make the development more effective. The article presents the SWOT analysis of this approach in the engineering process and the potential of the method in an LPG system development is concluded.

2

Effects of mixture formation strategies on combustion in dual-fuel engines - a review

Pielecha Ireneusz, Sidorowicz Maciej

Combustion Engines

|

2021

|

R. 60, nr 1

30--40

EN

The article presents an overview of technical solutions for dual fuel systems used in internal combustion engines. It covers the historical and contemporary genesis of using two fuels simultaneously in the combustion process. The authors pay attention to the value of the excess air coefficient in the cylinder, as the ignitability of the fuel dose near the spark plug is a critical factor. The mixture formation of compression ignition based systems are also analyzed. The results of research on indirect and direct injection systems (and their combinations) have been presented. Research sections were separated based to the use of gasoline with other fuels or diesel oil with other fuels. It was found that the use of two fuels in different configurations of the fuel supply systems extends the conditions for the use of modern combustion systems (jet controlled compression ignition, reactivity controlled compression ignition, intelligent charge compression ignition, premixed charge compression ignition), which will enable further improvement of combustion efficiency.

3

Multi-Criteria Assessment of Injector Placement and theThermodynamic Effects of Fuel Injection and Combustion in an Engine Equipped with Direct Gasoline Injection System

Pielecha Ireneusz, Sidorowicz Maciej

Journal of Power Technologies

|

2020

|

Vol. 100, nr 3

223--231

EN

The paper concerns the analysis of the combustion and exhaust emission phenomena in an SI (spark ignition) engine equipped with direct gasoline injection system for various injector placement parameters in the combustion chamber. Achieving a good combustion process is shaped by the direct fuel injection process, of which parameters vary. This article focuses on the aspect of injector spatial and angular position in order to perform injection and achieve fuel combustion. The injector’s pseudo-optimal location has been presented along with several changed positions (27 configurations). The research was conducted asa simulation experiment using AVL FIRE software. The best injector position was selected based on the fuel atomization, injection and combustion process indicators. The pseudo-optimal location, was characterized by: 1) the largest inset in the combustion chambery = 7 mm, 2) the shortest distance from the spark plug: z = 9 mm, 3) the highest angle in relation tothe axis of the cylinder: alpha = 20 deg. The analysis of this impact results in the following conclusions: 1) the longitudinal change of the injector position is the most important value affecting changes in the fuel atomization and combustion indicators, 2) this change is about 3 times more significant than the change in the position of the injector’s distance from the axis of the spark plug and about 8 times more significant than the angle of the injector’s position.