Equilibrium diagram, General information – Carrier 16JA User Manual

GENERAL INFORMATION

EQUILIBRIUM DIAGRAM

The Equilibrium Diagram (Fig. 5) is used to

determine solution concentration in your machine.

It is important to maintain solution concentration
within certain limits in order to maintain equilib­

rium conditions.

The following explains the equilibrium diagram

and how to determine solution concentration:

The curved line in the lower right-hand corner

is the crystallization line. This line indicates the

point at which the solution will begin to change
from a liquid to a solid. This sets the limits of
the cycle. Crystallization of a solution is quite

different from the freezing of a single substance

such as water. When water is subjected to a

temperature even slightly below 32 F, all of it
will eventually freeze. In contrast, when the
lithium bromide solution temperature is reduced
below the solidification point for that particular
concentration, only a portion of the salt will
crystallize or freeze. The remainder of the solu­
tion will become more dilute or less concentrated
and will remain in a liquid state. Crossing of the
crystallization line does not necessarily result in

solidification provided the subcooling does not

progress too far. Solidification of solution will
not harm the absorption machine but it will

interrupt service. Satisfactory design requires

that operation take place above the crystalliza­
tion line.

The scale on the left represents the straight

horizontal lines and indicates the vapor pressure
of the solution or evaporator water at equilib­
rium conditions.

On the right-hand side is the saturation temper­

ature scale for pure water corresponding to the
vapor pressures on the left-hand scale. This

scale also represents the horizontal lines and
is located on the right side to avoid confusion in

reading the chart.

The scale at the bottom is for the vertical

lines. They represent solution concentration in
percent by weight. For example, a solution of

60% is 60% lithium bromide and 40% water

by weight.

The curved lines running from left to right

are solution temperature lines. These should not
be confused with the saturation temperatures.

The curved lines which extend upward from the

bottom of the diagram are specific gravity lines.
These are used to determine solution concentra­
tion. By measuring the specific gravity with a
hydrometer and finding the temperature, the per­

cent of concentration can be determined by plot­
ting these two points on the diagram.

Refer to the typical machine absorption cycle

plotted on Fig. 5, Points 1 thru 7 represent a
complete cycle. Specific point values are given

in Table 1. An explanation of each point and the
lines drawn between is as follows:

Point 1 - The strong solution as it sprays out of

the absorber spray nozzle and starts to
absorb refrigerant.

Point 2 - The weak solution as it leaves the ab­

sorber and enters the heat exchanger.
Line 1-2 represents absorption of the
refrigerant thereby diluting solution.

Point 3 - The weak solution after it has passed

thru the heat exchanger. Line 1-3 rep­

resents the amount of heat gained by

the solution in the heat exchanger.

Point 4 - The weak solution entering the genera­

tor and being heated. Line 3-4 repre­

sents the amount of heat required to
start the weak solution to boil.

Point 5 - Maximum solution concentration in the

generator after much of the refrigerant
has boiled out. Line 4-5 represents the
amount of heat required to boil off the
refrigerant.

Point 6 - The strong solution as it leaves the heat

exchanger on its way to spray nozzles.

Point 7 - The strong solution entering the spray

nozzles.

Table 1 - Cycle Data

POINT

SOLUTION

TEMP

(F)

VAPOR

PRESS.
(in Hg)

PERCENT

LITHIUM

BROMIDE SOL

SATURATED

TEMP

(F)

1

115

0 25

63.3

42

2

101

0 25

59 5

42

3

165

1 65

59 5

95

4

192

3.20

59.5

115

5

215

3 20

64 0

115

6

134

0.45

64 0

55

7

119

0.30

63 0

45

10