Proceedings of the Combustion Institute

The Proceedings of the Combustion Institute are the proceedings of the biennial Combustion Symposium put on by The Combustion Institute. The publication contains the most significant contributions in fundamentals and applications fundamental research of combustion science combustion phenomena. Research papers and invited topical reviews are included on topics of reaction kinetics, soot, PAH and other large molecules, diagnostics, laminar flames, turbulent flames, heterogenous combustion, spray and droplet combustion, detonations, explosions & supersonic combustion, fire research, stationary combustion systems, internal combustion engine and gas turbine combustion, and new technology concepts. The editors-in-chief are Daniel C. Haworth (Pennsylvania State University) and Terese Løvås (Norwegian University of Science and Technology).

Proceedings of the Combustion Institute
DisciplineCombustion phenomena
LanguageEnglish
Edited byDaniel C. Haworth and Terese Løvås
Publication details
Former name(s)
Symposium (International) on Combustion; Symposium on Combustion and Flame, and Explosion Phenomena; Proceedings of the Symposium on Combustion
History1948-today
Publisher
FrequencyBiennial
Option
5.627 (2019)
Standard abbreviations
ISO 4Proc. Combust. Inst.
Indexing
ISSN1540-7489
Links

History

The need for development of automotive engines, fuels, and aviation formed the basis for the organization which became The Combustion Institute. The first three symposiums were held in 1928, 1937, and 1948. Since 1952, symposiums have been held every second year. The first combustion symposium with published proceedings was in 1948.

Abstracting and indexing

The journal is abstracted and indexed in:

According to the Journal Citation Reports, the journal has a 2015 impact factor of 4.120.[1]

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gollark: Though I guess you just need to reduce it to 10% or so to stop humans from being able to use it.
gollark: A complicating factor here is that whatever process you need to either remove the oxygen from earth or bind it in some chemical will probably run less efficiently as the oxygen content declines.
gollark: Wikipedia puts the mass of the atmosphere at 5.15e18 kg.
gollark: I was just thinking "hmm, big number".

See also

References

  1. "Proceedings of the Combustion Institute". 2015 Journal Citation Reports. Web of Science (Science ed.). Thomson Reuters. 2015.
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