Polyurethanes Blowing agent options for insulation foam

Polyurethanes Blowing agent options for insulation foam after HCFC phase out...

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Polyurethanes

Blowing agent options for insulation foam after HCFC phase out

HCFC phase out

100% 90%

Consumption cap set at 2015 levels; gradual reduction begins in 2015

80% 65% 60%

40%

32.5%

HCFCs have been an established intermediate alternative

Mandatory review of need for service tail in 2025

20%

United States of America, the use of HCFC141b in foam 2020

(non article 5) countries, such as the Russian Federation,

Freeze 2015

developing (article 5) countries and in some industrialised

0%

2013

applications has been banned for almost a decade. In most

2025

to CFCs. In regions such as the European Union or the

2040

Because of their lower ODP (Ozone Depletion Potential),

Figure 1: HCFC141b phase out schedule in developing countries

2030

In 1987, the Montreal Protocol was signed to protect the ozone layer by phasing out the production of a number of substances responsible for ozone depletion such as CFCs (chlorofluorocarbons) and HCFCs (hydrochlorofluorocarbons). CFCs have been phased out since 1996 in industrialised countries, and recently in developing countries.

2.5% Service tail

HCFC141b has been the preferred blowing agent in the last decade. However, in 2007 at the 19th meeting of the

n New phase-out shedule

Montreal protocol, nations signed up to accelerate the

n Pre Montreal 2007 phase-out shedule

phase-out of HCFCs (see Figure 1). For developing countries, as of 1st January 2013, the consumption of HCFC141b will be capped and 2 years later, as of 1st January 2015, it will be gradually reduced until 2030.

n Non-Article 5 countries (industrialised) n Article 5 countries (developing)

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Blowing agent evolution The transition process from HCFC141b to alternative

Examining alternatives for HCFC141b, it is important to consider

blowing agents has been taking place in most industrialised

the global warming potential (GWP) of replacement blowing

countries in the beginning of the previous decade. As can be

agents. Since the Kyoto Protocol identified HFCs as industrial

seen in Figure 2, various blowing agent choices are available,

gases requiring emissions control because of their high GWP,

depending on technical, regulatory and economical drivers.

several producers have started the development of HFOs

In Europe, an estimated 85 to 90% of all insulation foams are

(hydrofluoroolefins). HFOs have a very low GWP but availability

currently blown with pentane technology, which has an excellent

at an industrial scale is expected to take a few years.

track record for both foam performance and safe handling.

Figure 2 HC Flammable Zero ODP Low GWP CFC 11

HCFC141b

HFC

Not flammable

Not flammable

Not flammable

High ODP

Medium ODP

Zero ODP

High GWP

High GWP

High GWP Water Not flammable Zero ODP Low GWP

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Isopentane Normal pentane Cyclopentane

HFO 245fa 365mfc/227ea 134a

Not flammable Zero ODP Low GWP

Alternatives to HCFC141b The table shows the properties of alternative

Properties of other blowing agents relative to HCFC141b

blowing agents relative to HCFC141b.

Pentane

HFC245fa HFC365mfc/227ea

Water

Blowing agent price

Lower

Much higher

None

Foam thermal conductivity

5-10% higher

5-10% higher

±20% higher

Foam density

5% lower density feasible

Similar

5-10% higher

Machine adjustments

Explosion proof equipment needed

Almost none

Almost none

GWP

Low Long term solution

High

Low Long term solution

Foam processing

Limited solubility in polyols

Comparable

Worse surface and adhesion

There is no "drop-in" replacement for HCFC141b that combines ease of use and processing alongside low operating costs. Huntsman has acquired a broad technical expertise with all blowing agent alternatives, both by the application development teams located in Ternate (Italy) and by regional teams implementing dedicated solutions at customers.

PENTANE is a cheap blowing agent, which produces low

WATER is obviously a cheap blowing agent but has

density foams with low thermal conductivity and good

limitations for both foam processing and final foam properties.

properties. However, the investment to handle a flammable

Foam density is substantially higher and good adhesion

blowing agent is not always justifiable, especially for small foam

and foam surface quality are more difficult to achieve.

producers. In most cases, pentane is added to the polyol

Waterblown foams also have a higher thermal conductivity.

blend at the customer’s premises to avoid the transportation

Waterblown foams, which are not protected by diffusion

of a flammable polyol blend. In continuous operations

tight facings, are subject to a gradual increase of thermal

(lamination), pentane is added in line, just before the mixing

conductivity over time, much more than is the case for

head. In discontinuous operations, pentane is pre-blended

foams produced using a physical blowing agent.

to the polyol blend with suitable equipment.

HFC365mfc/227ea and HFC245fa can be implemented

METHYLFORMATE and DIMETHOXYMETHANE

easily as replacements of HCFC141b without major changes

are potential blowing agents for rigid foam, but current

in foam processing. In view of the high cost of HFCs,

industrial experience is limited in the European market.

formulations have been finetuned towards an optimum cost /

These blowing agents can be interesting options in

performance ratio. HFCs are typically added by the polyol

certain cases, particularly in combination with one of

blend supplier and transported to the customer as a non-

the aforementioned options.

flammable polyol blend. The pressure build-up of HFC containing polyol blends is normally limited, but appropriate packaging of the polyol blend needs to be chosen as a function of HFC content, HFC compatibility with the polyol blend and storage conditions.

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Blowing agent choice per application In contrast to HCFC141b, where one blowing agent was chosen

The three corners of the triangle represent a situation where

for all rigid foam applications, different blowing agent choices

a market segment has been entirely converted to pentane,

will be available after the HCFC phase out. Pentane is generally

HFC or to a fully water blown solution. Positions within the triangle

preferred when the foam consumption is high (e.g. in board or

indicate the relative amount of producers within a segment,

panel lamination). In figure 3, the blowing agent choice in

that have chosen any of the three blowing agent options.

industrialised countries is schematically given.

Figure 3

HC European refrigerator / freezer Board / panel lamination

Pre-insulated pipes

Discontinuous panels, display units, etc

North American refrigerator / freezer

WATER

HFC

Spray technology

Physical properties of blowing agents The physical properties of blowing It is interesting to note the differences

HFC365mfc HFC365mfc/ 227ea 93/7

HFC 134a

CYCLO PENTANE

NORMAL PENTANE

ISO PENTANE

150

102

70

72

72

40

30

-27

49

36

28

11

11

11

12.5

11.5

13.5

12.5

None

None

-24

None

None

-40

-49

-51

Solubility in polyols (1=low, 5=high)

5

4

4

4

1

3

2

2

ODP

0.11

0

0

0

0

0

0

0

GWP

700

990

910

910

1600

<11

<11

<11

HCFC 141b

HFC245fa

Mol weight

117

134

148

Boiling point (°C)

33

15

Lambda gas -10C (mW/m.K)

9

Flash point (°C)

agents are given in the table. between the three pentane isomers. There are significant differences in boiling point, gas thermal conductivity and polyol solubility, which leads to very different foam properties and processing characteristics. Cyclo/iso pentane mixtures tend to produce the lowest thermal conductivity foams and are preferred in applications such as refrigerators. Cyclopentane is, in certain cases, preferred when local storage regulations are less stringent than for other pentanes.

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Copyright © 2011 Huntsman Corporation or an affiliate thereof. All right reserved. Editor: Kristof Dedecker