A modified analysis for the determination of the burning velocity of a gas mixture in a spherical constant volume combustion vessel

O'Donovan, K.H.; Rallis, C.J.

doi:10.1016/0010-2180(59)90022-7

Cited by 40 publications

(19 citation statements)

References 4 publications

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“…Rallis [10][11][12]. In a later review [13], Rallis and Garforth argue that the constant volume method by that time (1980) is the most reliable method of measuring burning velocities.…”

Section: Literature Reviewmentioning

confidence: 96%

“…Based on the same assumptions mentioned in Section 3.1, O'Donovan and Rallis [10] present an x(p) relation that in the present symbols reads…”

Section: The South-african 'School'mentioning

confidence: 98%

“…The derivation is presented in Appendix A, and the result -which is for instance found already in Ref. [10] -is dp dt…”

Section: Assumptions and Basic Relationsmentioning

confidence: 99%

See 2 more Smart Citations

Accurate analytical models for fractional pressure rise in constant volume combustion

Luijten¹,

Doosje²,

Goey³

2009

International Journal of Thermal Sciences

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“…Rallis [10][11][12]. In a later review [13], Rallis and Garforth argue that the constant volume method by that time (1980) is the most reliable method of measuring burning velocities.…”

Section: Literature Reviewmentioning

confidence: 96%

“…Based on the same assumptions mentioned in Section 3.1, O'Donovan and Rallis [10] present an x(p) relation that in the present symbols reads…”

Section: The South-african 'School'mentioning

confidence: 98%

See 1 more Smart Citation

Accurate analytical models for fractional pressure rise in constant volume combustion

Luijten¹,

Doosje²,

Goey³

2009

International Journal of Thermal Sciences

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“…Using these assumptions, S L can be related to the pressure trace through a differential equation, cf. [1]:…”

Section: Introductionmentioning

confidence: 98%

Impact of dissociation and end pressure on determination of laminar burning velocities in constant volume combustion

Luijten¹,

Doosje²,

Oijen³

et al. 2009

International Journal of Thermal Sciences

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“…The burning velocity was calculated from the pressure history according to the following formula (O'Donovan and Rallis, 1959):…”

mentioning

confidence: 99%

The Effect of Exhaust Gas Recirculation and Turbulence on the Burning Velocity, Dead Space Thickness, and Minimum Ignition Energy in Premixed Methane-Air Combustion

Gat

Kauffman

1980

Combustion Science and Technology

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The dilution of a homogeneous combustible mixture with products of combustion has proven to be a successful method of reducing the oxides of nitrogen produced by a combustion process. The Exhaust Gas Recirculation (EGR) affects the flame velocity, ignition energy, and quenching behavior. An experimental program has been conducted to determine the effects of EGR on these fundamental aspects of a turbulent methane/air flame in a constant volume bomb. Data are presented showing that the decrease in flame velocity caused by the EGR can to some extent be compensated for by an increase in the turbulence intensity at a price of increased ignition difficulty. The effect of the EGR, as determined from both heat transfer and ionization measurements, is to increase the single-wall quenching distance.

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A modified analysis for the determination of the burning velocity of a gas mixture in a spherical constant volume combustion vessel

Cited by 40 publications

References 4 publications

Accurate analytical models for fractional pressure rise in constant volume combustion

Accurate analytical models for fractional pressure rise in constant volume combustion

Impact of dissociation and end pressure on determination of laminar burning velocities in constant volume combustion

The Effect of Exhaust Gas Recirculation and Turbulence on the Burning Velocity, Dead Space Thickness, and Minimum Ignition Energy in Premixed Methane-Air Combustion

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