Part, §

 1 Int    |      condensing water into the cylinder is that it arose from a
 2 Int    |    accidentally formed, in the cylinder wall, through which water
 3 Int    |        lead case embracing the cylinder. This invention of the injection
 4 Int    |      With the exception of the cylinder the metal parts were sent
 5 Int    |    were sent from England. The cylinder, 36 in. diameter of brass,
 6 Pre,  2|        lead-case embracing the cylinder, pierced through an imperfection
 7 Pre,  2|   water, which rushed into the cylinder and immediately condensed
 8 Pre,  2|        crush the bottom of the cylinder as well as the lid of the
 9 Pre,  5|                       5.~ ~The cylinder of this machine measured
10 Pre, 10|       constructed, which had a cylinder 28 inches diameter, the
11 Pre, 10|        machine with such a big cylinder would be totally impracticable,
12 Pre, 10|     machine with the 28 inches cylinder was scarcely able to furnish
13 Pre, 10|     construct a machine with a cylinder 33 inches diameter and 9
14 Exp    |       upper part.~ ~C. A metal cylinder, 9 feet long, and 36 inches
15 Exp    |    from the boiler up into the cylinder.~ ~E. The regulator, which
16 Exp    |        rise and enter into the cylinder is opened, and, when the
17 Exp    |     warm water coming from the cylinder. ~ ~L. The piston formed
18 Exp    |       fits the interior of the cylinder, round the rim of the disk
19 Exp    |       between the disk and the cylinder, thus causing the great
20 Exp    |       is pressed down into the cylinder.~ ~The weight which has
21 Exp    | conducts the cold water to the cylinder, and which spurts it into
22 Exp    |     between the boiler and the cylinder.~ ~Q. A beam called the
23 Exp    |      steam is rushing into the cylinder and pressing the great beam
24 Exp    |     steam to be shut up in the cylinder. The other iron pin in its
25 Exp    |       allowed to rush into the cylinder; the vacuum, which existed
26 Exp    |     and instantaneously in the cylinder, by the cold water, spurting
27 Exp    |       water, spurting into the cylinder and falling back like a
28 Exp    |  allows the steam to enter the cylinder, in which a constant alternation
29 Exp    |     rises above the rim of the cylinder.~ ~W. A pipe conducting
30 Exp    |      air which steals into the cylinder with the injection-water
31 Exp    |        is allowed to enter the cylinder.~ ~Y. The valve of the sinking-pipe,
32 Exp    |      through the pipe into the cylinder when the water spurts out
33 Exp    |       floor. Between these the cylinder is firmly fixed.~ ~b.c.d.
34   I,  2| diameter or piston-area of the cylinder, and is in every way equal
35   I,  9|       allowed to pass into the cylinder, is nothing but moist air,
36   I, 10|       soon as it gets into the cylinder, which event takes place
37   I, 11|        the cold air out of the cylinder, but it must also be understood
38   I, 11|   valve as well as between the cylinder and piston, so that the
39   I, 11|      it is able to find in the cylinder; as soon as the cold air
40  II, 14|                      14.~ ~The cylinder of the machine is 9 feet
41  II, 19|      will certainly not be the cylinder he made for the Dannemora
42  II, 19|       and absolutely faultless cylinder than this, though all the
43  II, 20|    machine at Königsberg has a cylinder, 7 1/2 feet high and 28
44  II, 21|        Hungarian machine has a cylinder 7 1/2 feet high and 27 inches
45  II, 21|  Dannemora machine again has a cylinder 9 feet long and 36 inches
46 III, 30|       fire-machine has got one cylinder, 21/2 feet or 30 inches
47 III, 46|      depth. Should a 36 inches cylinder prove insufficient, it can,
48 III, 46|       increase the width of my cylinder the power of the machine
49 III, 48|      able to defy time, nay, a cylinder, after a hundred and even