Orifice Nomograph - Industrial & Engineering Chemistry (ACS

Ind. Eng. Chem. , 1941, 33 (3), pp 420–420. DOI: 10.1021/ie50375a034. Publication Date: March 1941. ACS Legacy Archive. Cite this:Ind. Eng. Chem. 33...
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D. S. DAVIS

ORIFICE NOMOGRAPH

IF-ayne Universitl-, Detroit, Micli.

'X'

100

Key

C-A-h A-R-d 8D

-60

40

i

0'2

0.10

0 08

0.06

F

REQUEn'TLYgit is necessary to calculate the rate of flow of water through standard orifices, nozzles, and spray pipes. The discharge expression,

orifice in a plate of thickness equal to from 2 to 3 orifice diameters'. ,4s an illustration of the use of the chart : K h a t is the rate of flow, in gallons of water per minute, through a '/(-inch hole in a wall "/e inch thick under a head of 30 feet of water? The thickness of the wall is 2.5 times the diameter of the hole, corresponding to a coefficient of 0.82. Following the key and the broken lines on the chart, connect 0.82 on the C scale with 30 on the h scale and note the intersection with the A axis. Connect this intersection xvith inch on the d scale and read the rate of flow on the R scale as 5.52 gallons per minute. Conversely, what head is needed t o ensure a rate of flow of 20 gallons of water per minute through a standard beveled orifice in a thin plate? Connect 11%inch on the d scale with 20 on the R scale and note the intersection with the A axis. Connect 0.61, the gage point for a standard orifice, with thib intersection and produce the line to meet the h scale a t 44.8, the required head in feet. Index lines for this solution are not s1iov-n on the chart.

Q = CAT' where Q = rate of flow, cu. ft./sec. C = orifice constant, dependent upon design A = area of orifice, sq. it. P V = velocity of flow, ft./sec.

can be w i t t e n Q = C A d T h = 8.02CAdX

4%

by substituting for i', where h is the head of water in feet. To avoid small numerical values, the rate of flow in gallons perLminute is more convenient and is given by R where!d'=

= 19.64Cdal/J;

diameter of orifice, in.

1

The alignment chart solves the expression readily and bears several gage points corresponding to values of C for four commonly used types of orifice: the short or free-running Borda mouthpiece, square and beveled orifices in thin plates, and an

1 Perry's Chemical Engineers' Handbook, pp. 607, 702, 703, Kew P o l k , i\IoGrau~-IIillBook Co , 1934.

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