Phase
|
Objectifs
|
Proposed activities
|
Realized activities
|
Proposed results
|
Real results
|
Phase II (2010)
|
Working optimization of the ignition system
|
Study of the oportunity for coupling the ignition system with a supersonic GlidArc discharge type
|
Study of the oportunity for coupling the ignition system with a supersonic GlidArc discharge type
|
Identification of the electrical, physical and mechanical parameters which improves the engine's functioning with the proposed ignition system. Scientific report
|
Identification of the electrical, physical and mechanical parameters which improves the engine's functioning with the proposed ignition system. Scientific report
|
Phase II (2010)
|
Implementation of the proposed ignition system on an engine
|
The physical implementation of the ignition system on the engine block
|
Partial implementation of the ignition sytem (only the double spark plug and not the designed power supply)
|
Implementation of the proposed ignition system on an engine block. Scientific report
|
Partial implementation of the ignition sytem (only the double spark plug and not the designed power supply). Raport stiintific
|
Phase II (2010)
|
Visit of the french researchers
|
Setting and checking the details for implementation of the ignition system, as well as design of the minireactor with supersonic GlidArc
|
Setting and checking the details for implementation of the ignition system
|
Implementation of the module for noxes reduction/ Scientific report
|
Scientific report
|
Phase II (2010)
|
Making a work visit to the french partener
|
Testing the reliability of the entire system containing the new ignition module
|
Testing the reliability of the entire system containing the new ignition module
|
Final experimental tests / Develop a scientific paper and progress report
|
Final experimental tests / Develop a scientific paper and progress report
|
Phase II (2010)
|
Involvement in the research program of the young researcher:
|
Testing a supersonic GlidArc minireactor connected with the evacuation of the single cylinder engine and study the influence of electrical parameters on reducing of the pollutants emissions
|
Identifying the atomic and molecular elements from all the recorded spectra and application of a calculating method for the rotational temperature considering the molecular band OH spectra at 306 nm.
|
Study of the influence of certain parameters imposed by software on the plasma composition; rotational temperature calculus. Development of activity report
|
Study of the influence of certain parameters imposed by software on the plasma composition; rotational temperature calculus. Development of activity report
|
