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This book focuses on developing strategies for ultra-lean combustion of natural gas and hydrogen, and contributes to the research on extending the lean flammability limit of hydrogen and air using a hot supersonic jet. The author addresses experimental methods, data analysis techniques, and results throughout each chapter and: Explains the fundamental mechanisms behind turbulent hot jet ignition using non-dimensional analysis | Explores ignition characteristics by impinging hot jet and multiple jets in relation to better controllability and lean combustion | Explores how different instability…mehr

Produktbeschreibung
This book focuses on developing strategies for ultra-lean combustion of natural gas and hydrogen, and contributes to the research on extending the lean flammability limit of hydrogen and air using a hot supersonic jet. The author addresses experimental methods, data analysis techniques, and results throughout each chapter and:
  • Explains the fundamental mechanisms behind turbulent hot jet ignition using non-dimensional analysis
  • Explores ignition characteristics by impinging hot jet and multiple jets in relation to better controllability and lean combustion
  • Explores how different instability modes interact with the acoustic modes of the combustion chamber.
This book provides a potential answer to some of the issues that arise from lean engine operation, such as poor ignition, engine misfire, cycle-to-cycle variability, combustion instability, reduction in efficiency, and an increase in unburned hydrocarbon emissions. This thesis was submitted to and approved by Purdue University.
Autorenporträt
Sayan Biswas received his PhD in Aeronautics and Astronautics from Purdue University in 2017. He is the recipient of numerous awards, including the Magoon Award for Excellence in Teaching from the College of Engineering, Purdue University, in 2017.