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The modelling of premixed laminar combustion in a closed vessel
Khizer Saeed
, C.R. Stone
University of Brighton
Research output
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peer-review
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Keyphrases
Chemical State
33%
Closed Vessel
100%
Combustion Equation
33%
Combustion Products
33%
Flame Front
66%
Formaldehyde
33%
Gas Density
33%
Gas Dynamics
33%
Gas State
33%
Gas Zone
66%
Germany
33%
Heat Capacity
33%
Laminar Burning Velocity
33%
Laminar Combustion
100%
Major Species
33%
Mass Fraction Burned
33%
Molecular Structure
33%
Premixed Laminar
100%
Pressure Rise
33%
Pressure Structure
33%
Reactive Systems
33%
Spatial Distribution
33%
Specific Heat
33%
Spherical Vessel
33%
Temperature Distribution
33%
Temperature Structure
33%
Unburnt
100%
Zone Model
33%
Engineering
Aerodynamics
20%
Burnt Gas
100%
Combustion Product
20%
Constant Specific Heat
20%
Flame Front
40%
Gas Density
20%
Germany
20%
Heat Capacity
20%
Initial Temperature
20%
Mass Fraction
20%
Pressure Rise
20%
Reactive System
20%
Spatial Distribution
20%
Temperature Distribution
20%
Chemical Engineering
Combustion Product
50%
Specific Heat
100%
Temperature Distribution
50%