Evaporating Condensing And Cooling Apparatus Explanations Formulae And Table
Evaporating Condensing And Cooling Apparatus Explanations Formulae And Table
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127 If D is less than G, the drop cannot be driven upwards at any angle ; it always falls downwards.
If the side pressure, D, is equal to the weight of the drop, G, the drop falls downwards when a is less than 90. When a = 90 (i. E. , sin a = 1) the drop is kept exactly in its place.
If D be greater than G, the danger that the drop may be carried upwards occurs even with small values of a. When D is 1'25, 1*5 or 2*0 times as great as G, the angle which the current of steam may make with the hor...izon upwards, may not be greater than \D sin a = G, T25 G sin a = G, sin a = y^ sin a = 1-25' 1-5 a = 53, 41 or 30.
TABLE 24.
The velocities of the currents of gas and steam, which, acting upwards at an angle of 30, 45 or 60 on floating drops, drive them in a horizontal direction.
Diameter of the drop of water in mm.
o-i 0-25 0-5 1 2 3 4 5 6 7 8 9 10 Velocity of the current of gas and steam in m.
Carbonic acid ^ a = 30 s = 1-529 Va = 45 7 = 1-873 ) a = 60 1-48 1-24 1-12 2-3 1-98 1-80 3-36 2-82 2-56 4-78 4-01 3-64 6-78 5-69 5-27 8-42 6-98 6-34 9-61 8-09 7-33 10-74 9-00 8-18 11-8 9-9 9-0 12-66 10-64 9-67 13-79 11-48 10-44 14-45 12-10 11-0 15-22 12-77 11-61 Air ^ a = 30 s = 1 J-a = 45 y = 1-293 ) a = 60 1-82 1-52 1-39 2-91 2-43 2-22 4-15 3-45 3-16 5-89 4-92 4-44 8-36 6-99 6-39 10-26 8-57 7-83 11-86 9-91 9-06 13-24 11-06 10-11 14-50 12-16 11-12 15-65 13-00 11-95 16-87 14-10 12-90 17-80 15-00 13-62 18-78 17-44 14-82 Steam at 100 C.^ a = 30 s = 0-6233 [a = 45 7 = 0-6059 ) a = 60 2-6 2-18 1-85 4-12 3-40 1-96 5-87 4-96 4-21 8-34 7-04 5-99 11-84 10-0 8-51 14-5 12-26 10-43 16-79 14-1 11-98 18-75 15-83 13-04 20-6 17-4 14-8 21-8 18-7 15-9 23-89 19-18 17-17 25-23 21-31 18-1 26-57 22-45 19-04 In Table 24 are given the velocities of currents of carbonic acid, air and steam (the latter at 100 G.
What to read after Evaporating Condensing And Cooling Apparatus Explanations Formulae And Table?
You can find similar books in the "Read Also" column, or choose other free books by E Eugen Hausbrand to read onlineMoreLess
To quickly assess the difficulty of the text, read a short excerpt:
127 If D is less than G, the drop cannot be driven upwards at any angle ; it always falls downwards.
If the side pressure, D, is equal to the weight of the drop, G, the drop falls downwards when a is less than 90. When a = 90 (i. E. , sin a = 1) the drop is kept exactly in its place.
If D be greater than G, the danger that the drop may be carried upwards occurs even with small values of a. When D is 1'25, 1*5 or 2*0 times as great as G, the angle which the current of steam may make with the hor...izon upwards, may not be greater than \D sin a = G, T25 G sin a = G, sin a = y^ sin a = 1-25' 1-5 a = 53, 41 or 30.
TABLE 24.
The velocities of the currents of gas and steam, which, acting upwards at an angle of 30, 45 or 60 on floating drops, drive them in a horizontal direction.
Diameter of the drop of water in mm.
o-i 0-25 0-5 1 2 3 4 5 6 7 8 9 10 Velocity of the current of gas and steam in m.
Carbonic acid ^ a = 30 s = 1-529 Va = 45 7 = 1-873 ) a = 60 1-48 1-24 1-12 2-3 1-98 1-80 3-36 2-82 2-56 4-78 4-01 3-64 6-78 5-69 5-27 8-42 6-98 6-34 9-61 8-09 7-33 10-74 9-00 8-18 11-8 9-9 9-0 12-66 10-64 9-67 13-79 11-48 10-44 14-45 12-10 11-0 15-22 12-77 11-61 Air ^ a = 30 s = 1 J-a = 45 y = 1-293 ) a = 60 1-82 1-52 1-39 2-91 2-43 2-22 4-15 3-45 3-16 5-89 4-92 4-44 8-36 6-99 6-39 10-26 8-57 7-83 11-86 9-91 9-06 13-24 11-06 10-11 14-50 12-16 11-12 15-65 13-00 11-95 16-87 14-10 12-90 17-80 15-00 13-62 18-78 17-44 14-82 Steam at 100 C.^ a = 30 s = 0-6233 [a = 45 7 = 0-6059 ) a = 60 2-6 2-18 1-85 4-12 3-40 1-96 5-87 4-96 4-21 8-34 7-04 5-99 11-84 10-0 8-51 14-5 12-26 10-43 16-79 14-1 11-98 18-75 15-83 13-04 20-6 17-4 14-8 21-8 18-7 15-9 23-89 19-18 17-17 25-23 21-31 18-1 26-57 22-45 19-04 In Table 24 are given the velocities of currents of carbonic acid, air and steam (the latter at 100 G.
What to read after Evaporating Condensing And Cooling Apparatus Explanations Formulae And Table?
You can find similar books in the "Read Also" column, or choose other free books by E Eugen Hausbrand to read onlineMoreLess
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