Dupont Suva HP Series, Suva HP81, Suva HP80, Suva 404A Technical Information

DuPont™ Suva

refrigerants

Technical Information

P–HP

®

DuPont™

®

Suva

HP

Refrigerants

Properties, Uses,

Storage, and Handling

DuPont™ Suva® HP80 (R-402A) refrigerant

®

DuPont™ Suva
DuPont™ Suva

HP81 (R-402B) refrigerant

®

404A (HP62) refrigerant

DuPont™ Suva® HP Refrigerants

Proper ties, Uses, Stora ge, and Handling

Table of Contents

Page

Introduction ................................................................................................................. 1

Background................................................................................................................ 1

Suva® HP Refrigerants ............................................................................................... 1

Uses ............................................................................................................................. 1

Physical Properties ..................................................................................................... 2

Chemical/Thermal Stability ........................................................................................ 2

Stability with Metals .................................................................................................... 2

Thermal Decomposition ............................................................................................10

Compatibility Concerns if R-502 and Suva® HP Refrigerants Are Mixed ...................10

Materials Compatibility ............................................................................................10

Elastomers ................................................................................................................10

Motor Materials .........................................................................................................12

Desiccants ................................................................................................................13

Refrigeration Lubricants ............................................................................................13

Safety ...........................................................................................................................13

Inhalation Toxicity......................................................................................................13

Cardiac Sensitization.................................................................................................15

Skin and Eye Contact................................................................................................15

Spills or Leaks........................................................................................................... 15

Combustibility of Suva® HP Refrigerants ...................................................................15

Air Monitors and Leak Detection ..............................................................................16

Types of Detectors ....................................................................................................16

Nonselective Detectors..........................................................................................17

Halogen-Selective Detectors .................................................................................17

Compound-Specific Detectors ...............................................................................17

Fluorescent Additives ............................................................................................17

Storage and Handling ................................................................................................17

Shipping Containers in the U.S..................................................................................17

Bulk Storage Systems ...............................................................................................18

Converting Bulk Storage Tanks from R-502 to Suva® HP Refrigerants..................19

Material Compatibility Concerns ............................................................................19

Handling Precautions for Suva® HP Refrigerant Shipping Containers .......................19

Recovery, Recycle, Reclamation and Disposal .......................................................20

Recovery ...................................................................................................................21

Recycle .....................................................................................................................21

Reclamation ..............................................................................................................21

Disposal ....................................................................................................................21

Introduction

Background

Chlorofluorocarbons (CFCs), which were devel­oped over 60 years ago, have many unique prop­erties. They are low in toxicity, nonflammable,
noncorrosive, and compatible with other materials.
In addition, they offer the thermodynamic and
physical properties that make them ideal for a
variety of uses. CFCs are used as refrigerants; as
blowing agents in the manufacture of insulation,
packaging, and cushioning foams; as cleaning
agents for metal and electronic components; and
in many other applications.

However, the stability of these compounds, coupled
with their chlorine content, has linked them to
depletion of the earth’s protective ozone layer. As
a result, DuPont has phased out production of CFCs
and introduced environmentally acceptable alterna­tives, such as the DuPont™ Suva
family.

®

HP refrigerant

In addition, DuPont has formulated a mixture based
on all-HFC refrigerants, which results in no ozone
depletion factor. This refrigerant is called Suva

®

404A (HP62), and its composition is:

HFC-125 HFC-143a HFC-134a

®

404A

Suva

(HP62), wt% 44 52 4

The individual components of the three mixtures
are listed in Table 1 to show their chemical names
and formulae. In addition, the physical properties
of the Suva

®

HP refrigerants are listed in Table 3.

Uses

The Suva® HP refrigerants can be used in virtually
all R-502-based applications, either as a result of
retrofiting existing equipment that uses R-502 or
following development of new equipment designed
to use the Suva

®

HP products.

Suva® HP Refrigerants

The products designated as Suva® HP refrigerants
are intended as replacements for R-502 in medium­and low-temperature refrigeration systems. The

®

Suva

HP refrigerant family contains two different
types of refrigerants. Both types involve the use of
refrigerant blends to achieve alternatives that will
act very much like R-502 in refrigeration systems.

The first type of blends incorporate the following
refrigerants in two compositions to optimize differ­ent performance characteristics:

HCFC-22 HFC-125 Propane

Suva® HP80

(R-402A), wt% 38 60 2

Suva® HP81

(R-402B), wt% 60 38 2

R-502 currently serves a wide range of applications
in the refrigeration industry. It is used widely in
supermarket applications, in food service and ware­housing, for transport refrigeration, in cascade sys­tems for very low temperatures, and other assorted
applications. It offers good capacity and efficiency
without suffering from the high compressor dis­charge temperatures that can be seen with HCFC­22 single-stage equipment.

Suva® HP80 and HP81, which contain HCFC-22,
are each formulated to optimize different perfor­mance characteristics.

®

HP80 offers compressor discharge temper-

Suva
atures equivalent to R-502, with improved capac­ity versus R-502, and slightly lower theoretical
efficiency.

Table 1

Refrigerant Information

Refrigerant Chemical Name Formula CAS No. Molecular Wt.

HCFC-22 Chlorodifluoromethane CF2HCl 75-45-6 86.47
HFC-125 Pentafluoroethane CF
HFC-134a 1,1,1,2-Tetrafluoroethane CF
HFC-143a 1,1,1-Trifluoroethane CF
HC-290 Propane C3H

CHF

3

2

F 811-97-2 102.0

3CH2

3CH3

8

354-33-6 120.02

420-46-2 84.08
74-98-6 44.1

The DuPont Oval Logo, DuPont™, The miracles of science™, and
Suva® are trademarks or registered trademarks of E. I. du Pont de
Nemours and Company.

1

Suva® HP81 offers the highest efficiency versus
R-502, with slightly better capacity. However, the
higher HCFC-22 content results in compressor
discharge temperatures in the range of 14°C (25°F)
higher than that of R-502, which makes Suva

®

HP81 most suited for medium-temperature systems
such as ice machines.

®

Suva

404A (HP62) offers the best overall proper­ties when compared with R-502. Capacity and effi­ciency values should be equivalent to R-502, and
compressor discharge temperatures may be up to
9°C (14°F) lower than R-502, which may equate to
longer compressor life and better lubricant stability.

In addition, the heat transfer characteristics of

®

all the Suva

HP products appear to be better than
R-502, so any loss of compression efficiency may
be offset by improvements in heat transfer.

Due to the differences in operating characteristics
described above, Suva
cally selected for different applications. Suva

®

HP80 and HP81are typi-

®

HP81 is preferred where higher energy efficiency
and capacity are needed and where the higher dis­charge temperatures will not create operating diffi-

®

culties. Both Suva
are full-range R-502 replacements, with Suva

HP80 and Suva® 404A (HP62)

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HP80 preferred for retrofitting of existing systems,

®

and Suva
ment. Suva

404A (HP62) preferred for new equip-

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404A (HP62) can also be used for

retrofitting existing equipment where HFCs are
desired. Table 2 shows markets that currently use
each of these refrigerants.

Thermodynamic tables in English and SI units are
available in Bulletins T-HP80-ENG, T-HP80-SI,
T-HP81-ENG, T-HP81-SI, T-HP62-ENG, and

®

T-HP62-SI for Suva

®

Suva

404A (HP62).

HP80, Suva® HP81, and

Chemical/Thermal Stability

Stability with Metals

Stability tests for refrigerant with metals are typi­cally performed in the presence of refrigeration
lubricants. Results of sealed tube stability tests
available for R-502/mineral oil and alkylbenzene
lubricants have shown long-term stability in contact
with copper, steel, and aluminum in actual refrig­eration systems. Mineral oils, alkylbenzene, mix­tures of mineral oil/alkylbenzene and polyol esters
(POE) are all possible candidates for use with

®

Suva

HP80 and HP81; POE are proposed lubri-

cants for use with Suva
The method followed was generally the same as

ASHRAE 97 with several minor modifications. A
3-mL volume of refrigerant/lubricant solution was
heated in the presence of copper, steel, and alumi­num coupons in an oven for 14 days at 175°C
(347°F). Both the neat lubricant and a mixture of
lubricant and refrigerant (50/50 volume ratio) were
tested. Visual ratings were obtained on both the
liquid solutions and the metal coupons after the
designated exposure time. The visual ratings range
from 0 to 5, with 0 being best.

®

404A (HP62).

Table 2

DuPont™ Suva® HP Refrigerant

Market Applications

Product Medium Temperature Low Temperature

Suva® HP81 Ice Machines To Be Determined

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HP80 Supermarket Supermarket

Suva

®

404A

Suva

(HP62) All

Food Service
Vending
Supermarket

Transport Transport

Food Service

Physical Properties

General physical properties of the Suva® HP refrig­erants are shown in Table 3. Pressure-enthalpy dia­grams for the Suva

Figures 1–6.

Additional physical property data may be found
in other DuPont publications. Bulletin ART-18
contains viscosity, thermal conductivity, and heat
capacity data for saturated liquid and both saturated
and superheated vapor. ART-18 also contains heat
capacity ratios for saturated and superheated vapor.

®

HP refrigerants are shown in

After the visual ratings were obtained, sample tubes
were opened and the lubricant and refrigerant (if
present) were analyzed. The lubricant was typically
checked for halide content and viscosity, while the
refrigerant was examined for the presence of de­composition products. Table 4 summarizes typical
data for Suva

®

HP refrigerants. Visual ratings are
listed for the neat lubricant, the lubricant/refriger­ant solution, and the three metals that were present
in the lubricant/refrigerant solutions. Viscosity was
determined on the unused lubricant, the tested neat
lubricant, and the lubricant tested in the presence
of refrigerant. Decomposition products were deter­mined in some cases. Typical measurements for
decomposition products is in the low parts per
million (ppm) range.

®

Suva

HP81 tests with various lubricants indicate it
has adequate chemical stability with these lubri­cants. In addition, we believe that HP80 will have
similar behavior due to the same refrigerants being
used in the formulation. Suva

®

404A (HP62) tests
with common POE lubricants indicate that chemi­cal stability of Suva

®

404A (HP62) with common

metals used in refrigeration systems is acceptable.

2

Table 3

General Property Information

Physical Property Unit (R-402A) (R-402B) (HP62)

Molecular Wt, avg. g/mol 101.55 94.71 97.6
Boiling Point, 1 atm °C –49.2 –47.4 –46.5

°F –56.5 –53.2 –51.6

Freezing Point °C n/a n/a n/a

°F

Critical Temperature °C 75.5 82.6 72.1

°F 167.9 180.7 161.7

Critical Pressure kPa 4135 4445 3732

psia 599.7 644.8 541.2

lb/ft

lb/ft

3

3

3

3

3

3

Critical Density kg/m

Liquid Density at 25°C (77°F) kg/m

Density, Saturated Vapor kg/m

at –15°C (5°F) lb/ft

Specific Heat at 25°C (77°F)
Liquid kJ/kg•K 1.37 1.34 1.53

Btu/lb•°F 0.328 0.320 0.367

Vapor, 1 atm kJ/kg•K 0.755 0.725 0.870

Btu/lb•°F 0.181 0.173 0.207

Vapor Pressure at 25°C (77°F) kPa 1337 1254 1255

psia 194.0 181.9 182.0

Heat of Vaporization kJ/kg 194.0 210.0 202.1

at Boiling Point Btu/lb 83.5 90.3 87.0

Thermal Conductivity at 25°C (77°F)

Liquid W/m•K 6.91E-2 7.35E-2 6.83E-2

Btu/hr•ft•°F 4.00E-2 4.25E-2 3.94E-2

Vapor, 1 atm W/m•K 1.266E-2 1.205E-2 1.346E-2

Btu/hr•ft•°F 7.32E-3 6.96E-3 7.78E-3

Viscosity at 25°C

(77°F)

Liquid Pa•s 1.38E-4 1.45E-4 1.28E-4
Vapor, 1 atm Pa•s 1.29E-5 1.28E-5 1.22E-5

Flammability Limit vol% None None None

in Air, 1 atm
Ozone-Depletion Potential (CFC-12 = 1) 0.02 0.03 0.0
Halocarbon Global (CFC-11 = 1) 0.63 0.52 0.94

Warming Potential
TSCA Inventory Status Reported/Included? Yes Yes Yes
Inhalation Exposure Limit AEL* ppm 1000 1000 1000

(8- and 12-hr TWA)

Suva® HP80 Suva® HP81 Suva® 404A

541.7 530.7 484.5

33.82 33.13 30.23
1151 1156 1048

71.86 72.14 65.45

19.93 16.90 18.20

1.24 1.05 1.14

* AEL (acceptable exposure limit) is an airborne inhalation exposure limit established by DuPont which specifies time-weighted

average concentrations to which nearly all workers may be repeatedly exposed without adverse effects.

3

Figure 1. DuPont™ Suva® 404A (HP62) Pressure–Enthalpy Diagram (SI Units)

404A (HP62)

®

DuPont™

Suva

Pressure-Enthalpy Diagram

(SI Units)

4

Figure 2. DuPont™ Suva® 404A (HP62) Pressure–Enthalpy Diagram (English Units)

404A (HP62)

®

DuPont™

Suva

Pressure-Enthalpy Diagram

(English Units)

5

Figure 3. DuPont™ Suva® HP80 (R-402A) Pressure–Enthalpy Diagram (SI Units)

HP80 (R-402A)

®

DuPont™

Suva

Pressure-Enthalpy Diagram

(SI Units)

6