1954
DOI: 10.21236/ad0046523
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Similarity Analysis for Chemical Reactors and the Scaling of Liquid-Fuel Rocket Engines

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Cited by 9 publications
(23 citation statements)
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“…It is presumed that the problem to be solved when h is nonzero is truly a perturbation of the exactly solvable problem for h = 0 in the sense that it is possible to proceed continuously from one to the other by appropriately varying h. The solutions 1' / in both the perturbed and unperturbed problems satisfy the same boundary conditions (13) and' (15). Useful information therefore may be gained by separating off the mode tf N to which 1' / tends when h tends to zero; tfN may, of course, be anyone of the "natural" modes.…”
Section: Approximate Solution For Mode Shapes and Eigenvaluesmentioning
confidence: 99%
“…It is presumed that the problem to be solved when h is nonzero is truly a perturbation of the exactly solvable problem for h = 0 in the sense that it is possible to proceed continuously from one to the other by appropriately varying h. The solutions 1' / in both the perturbed and unperturbed problems satisfy the same boundary conditions (13) and' (15). Useful information therefore may be gained by separating off the mode tf N to which 1' / tends when h tends to zero; tfN may, of course, be anyone of the "natural" modes.…”
Section: Approximate Solution For Mode Shapes and Eigenvaluesmentioning
confidence: 99%
“…Scaling criteria for homogeneous and heterogeneous chemical reactors may be obtained from the conservation equations for reacting gas mixtures. The complete set of similarity parameters has been shown to include the following dimensionless groups (5) Froude number = Fr = v0 2 /gL . ........... [5] Damkohler's first similarity group = Dr = (L/vo)/t •.…”
Section: Outline Of Theoretical Studiesmentioning
confidence: 99%
“…The complete set of similarity parameters has been shown to include the following dimensionless groups (5) Froude number = Fr = v0 2 /gL . ........... [5] Damkohler's first similarity group = Dr = (L/vo)/t •. .. [6] Damkohler's third similarity group = Dm = (6) five similarity criteria are obtained (viz., only [1,2,3,6, and 7] must remain invariant in order to maintain thermal, dynamic, and reaction kinetic similarity).…”
Section: Outline Of Theoretical Studiesmentioning
confidence: 99%
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