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References

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  1. B. N. Broido, Trans. A. S. M. E.,  44, p. 1240; 1922.
  2. From data obtained by Chrs. Eberle of Munich and quoted in Trans A.S.M.E.,  44 p. 1201; 1922.

1922 (2)

B. N. Broido, Trans. A. S. M. E.,  44, p. 1240; 1922.

From data obtained by Chrs. Eberle of Munich and quoted in Trans A.S.M.E.,  44 p. 1201; 1922.

Broido, B. N.

B. N. Broido, Trans. A. S. M. E.,  44, p. 1240; 1922.

Eberle, Chrs.

From data obtained by Chrs. Eberle of Munich and quoted in Trans A.S.M.E.,  44 p. 1201; 1922.

Trans A.S.M.E. (1)

From data obtained by Chrs. Eberle of Munich and quoted in Trans A.S.M.E.,  44 p. 1201; 1922.

Trans. A. S. M. E. (1)

B. N. Broido, Trans. A. S. M. E.,  44, p. 1240; 1922.

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Figures (3)

F. 1
F. 1

Plan view of apparatus.

F. 2
F. 2

Pipe plug types of resistance thermometer and thermocouple.

F. 3
F. 3

Forms of thermocouples tested.

Tables (2)

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Table 1 Results of Pipe Line Temperature Tests General Conditions 8 inch extra heavy pipe, laggedCenter velocity of circulating hot air= 7 ft/sec.Test Conditions (approximate)

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Table 2 Results of Pipe Line Temperature Tests, con.

Equations (31)

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14 1 2
( 16 1 2 )
11 1 2
( 13 1 2 )
( 7 1 2 )
20 1 2
( 16 1 2 )
19 1 2
( 7 1 2 )
( 10 1 2 )
10 1 2
( 18 1 2 )
19 1 2
47 1 2
( 14 1 2 )
26 1 2
18 1 2
( 11 1 2 )
( 9 1 2 )
5 1 2
( 1 2 )
( 13 1 2 )
16 1 2
+ 1 1 2
5 1 2
+ 1 2
7 1 2
( 17 1 2 )
5 1 2
( 12 1 2 )
14 1 2