Laser Ignition Technology for Gaseous Fuelled Automotive Engines
Author:
Publisher
Springer Singapore
Link
http://link.springer.com/content/pdf/10.1007/978-981-15-0335-1_10
Reference44 articles.
1. Agarwal AK, Singh AP, Pal A (2017) Effect of laser parameters and compression ratio on particulate emissions from a laser ignited hydrogen engine. Int J Hydrogen Energy 42(15):10622–10635
2. Ahrens DL, Yalin AP, Olsen DB, Kim GH (2005) Development of an open path laser ignition system for a large bore natural gas engine: part 1—system design. In: ASME 2005 internal combustion engine division spring technical conference 2005 Jan 1, pp 489–498. American Society of Mechanical Engineers
3. Biruduganti MS, Gupta SB, Bihari B, Klett G, Sekar R (2004) Performance analysis of a natural gas generator using laser ignition. In: ASME 2004 internal combustion engine division fall technical conference 2004 Jan 1, pp 857–863. American Society of Mechanical Engineers
4. Bradley D, Sheppard CG, Suardjaja IM, Woolley R (2004) Fundamentals of high-energy spark ignition with lasers. Combust Flame 138(1–2):55–77
5. Dale JD, Smy PR, Clements RM (1978) Laser ignited internal combustion engine—an experimental study. SAE Transactions. 1:1539–1548
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