R410a application and service guide, R410a overview, R407c overview – Heat Controller HFC REFRIGERANT R410A User Manual

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R410a

Application and Service Guide

Table 1. R407c Pressure/Temperature Chart

Although the bulk of this manual is information

regarding R410a, R407c will also be discussed for

purposes of comparison and since it is one of the so-

called new refrigerants.

R410a Overview

R410a is a non-chlorine based (HFC) refrigerant, that

with R407c and R134a, is seen as the future of all refrig-

erants used worldwide. R410a characteristics compared

to R22 are:

•

Binary and near azeotropic mixture of R32-50%

and R125-50%
•

Higher effi ciencies

•

Higher operating pressures

•

Requires POE oil in compressors

•

In some systems can result in smaller heat exchang-

ers with the same performance
•

Low global warming potential and zero ozone

depletion (0.39/0.0)
•

Temperature glide of 0.2°F

•

Containers are “ROSE” colored

R407c Overview

R407a is a non-chlorine based (HFC) refrigerant. R407c

characteristics compared to R22 are:

•

Ternary and near azeotropic mixture of R32-23%,

R125-25%, R134a-52%
•

Slightly lower effi ciencies

•

Nearly equal operating pressures

•

Requires POE oil in compressors

•

Considered a near drop-in replacement for R22

•

Low global warming potential and zero ozone

depletion (0.34/0.0)
•

Temperature glide of 10°F

•

Containers are “MEDIUM BROWN” colored

What is “Glide”?

Pure compounds like CFC-R12 boil and condense at

exactly the same temperature for a given pressure. Near-

azeotropic blends are not pure compounds but a blend of

compounds. These compounds will have a temperature

glide or range of temperatures in which the blend will

boil or condense. In these situations, for example R407c,

a chart listing a bubble and dew point must be used as the

pressure/temperature chart since it has a glide of 10°F.

The bubble point is used for subcooling calculations.

The dew point is used for superheat calculations. See

Table 1. R410a has a very small glide (0.2°F) and acts

as a single component refrigerant. Therefore R410a can

utilize a more traditional table with only one pressure

column as shown in Table 2.

What is “Fractionation”?

Many of the newer refrigerants are a blend of two or more

other refrigerants. At various conditions these compo-

nents can separate and change the ratio of the original

mixture and in effect change the total performance of the

remaining blend. Therefore it is recommended to use the

refrigerant in liquid form, insuring that all of the compo-

nents are handled together in the proper blend.

R407c

Temperature

TT

Bubble

Dew

Pressure

Pressure

(for subcooling) for (superheat)

°

F

psig

psig

-15

17.2

9.2

-10

21.0

12.3

-5

25.1

15.7

0

29.5

19.4

5

34.4

23.4

10

39.6

27.8

15

45.2

32.6

20

51.3

37.8

25

57.8

43.4

30

64.8

49.4

35

72.4

56.0

40

80.4

63.0

45

89.0

70.6

50

98.1

78.7

55

107.9

87.4

60

118.2

96.7

65

129.2

106.6

70

140.9

117.1

75

153.2

128.4

80

166.2

140.4

85

180.0

153.1

90

194.6

166.5

95

209.9

180.8

100

226.0

195.9

105

243.0

211.9

110

260.8

228.7

115

279.5

246.5

120

299.0

265.3

125

319.6

285.0

130

341.0

305.8

135

363.4

327.6

140

386.9

350.5

145

411.3

374.6

150

436.8

399.8