Reducing the Cycle-Cycle Variability of a Natural Gas Engine Using Controlled Ignition Current
Author
Summary, in English
This work focuses on evaluating the effects regarding enhancing early flame development, reducing cyclic variations and extending the lean limit using a new capacitive ignition system as compared to a conventional inductive ignition system. The new system offers the opportunity to customise the spark by altering the electric pulse train characteristics choosing the number of pulses, the length of the individual pulses as well as the time delay between them. Several different spark configurations were evaluated for the new capacitive system, including varying spark duration between approximately 0.5-1.2 ms and maximum current levels of 0.2-0.4 A.
Results show that longer spark duration and faster initial energy deposition has a positive effect on the lean limit and the combustion stability, while the current level shows little or no effect on these variables. The more advanced capacitive system is capable of delivering more energy and longer spark duration, resulting in reduced cyclic variations and enhanced early flame development. With the longer spark durations of the capacitive system the lean limit was extended from λ = 1.65 to approximately λ = 1.75.
Department/s
Publishing year
2013
Language
English
Publication/Series
SAE Technical Paper Series
Links
Document type
Conference paper
Publisher
Society of Automotive Engineers
Topic
- Other Mechanical Engineering
Keywords
- Internal Combustion Engines
- Ignition
- Natural Gas
Conference name
SAE World Congress & Exhibition, 2013
Conference date
2013-04-16 - 2013-04-18
Conference place
Detroit, Michigan, United States
Status
Published
Project
- Microwave-Assisted Ignition System for Reduced CO2 Emission
ISBN/ISSN/Other
- ISSN: 0148-7191
- 2013-01-0862