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Ozone depleting substances and the greenhouse gases HFCs, PFCs and SF6

1 Summary and Conclusions

1.1 Ozone-depleting Substances
1.2 Greenhouse gases
1.2.1 HFCs
1.2.2 Sulphur hexafluoride (SF6)
1.2.3 Perfluorinated hydrocarbons (PFCs)
1.2.4 Trends in the total GWP-weighted contribution of strong greenhouse gases  

1.1 Ozone-depleting Substances

The ODP-weighted consumption for 2001 has been calculated at 83.9 OPD tonnes, showing a slight increase of 1.26 OPD tonnes on 2000 levels, which measured 83.9 ODP tonnes. This increase is due to a greater consumption of HCFC-141b. The consumption of other ozone-depleting substances is roughly the same as in 2000.

Analysis of individual substances in the ODP consumption for 2001shows that the contribution is mainly due to HCFC-141b and HCFC-22.

The table below shows the ODP-weighted consumption calculated on the basis of information on imports from Statistics Denmark, importers, and producers. The ODP values are listed in Appendix 1, Table 1.a.

Table 1.
Overview of consumption and ODP-weighted consumption in 2000-2001, tonnes

Substance

Net consumption, 2000

ODP consumption, 2000

Net consumption, 2001

ODP
consumption, 2001

CFCs (1)

4.8

3.84

2.6

2.08

Tetrachloromethane

0.6

0.66

1.25

1.26

1,1,1-Trichloroethane

0

0

0.05

0.005

Halons

0

0

0

0

Methylbromide

0

0

(179.5)

0

HCFCs

HCFC-22

HCFC-123

HCFC-141b

HCFC-142b

901.6

347

0

538.8

15.8

79.4

19.1

0

59.3

1

889.9

249.1

18

609

0

81.45

13.7

0.36

66.99

0

Total

-

83.9

 

85.16
     
(1) The calculation of the ODP consumption of CFCs is made entirely on the basis of values registered for CFC-113.

Consumption of methylbromide has been stated in brackets and it is only used as feedstock for other chemical production. Therefore it is not included as an emission.

CFCs, tetrachloromethane, and trichloroethane are used exclusively for laboratory purposes. HCFCs are used as refrigerants in cooling or for foam production. The range of application of HCFCs in 2001 is shown in Table 1.2.

Table 2
Consumption distribution of HCFC application areas in 2001, tonnes.

Application

HCFC-22

HCFC-123

HCFC-141b

HCFC-142b

Foam (for panels, insulation, etc.)

 

18

609

0

Refrigerants

249.1

 

0

0

Total

249.1

18

609

0


HCFC-22 is used as a refrigerant, and HCFC-141b and HCFC-142b are used for foam.

Figure 1.1 shows the development of ODP-weighted consumption.

Figure 1.1
The development of ODP consumption 1986-2001, tonnes.

The specific consumption figures for individual groups of substances and the ODP-weighted contribution for the period 1986-2001 are shown in Table 3.1.

1.2 Greenhouse gases

The GWP-weighted actual emission for HFCs, PFCs, and SF6 in 2001 measures approx. 698,900 tonnes CO2 equivalents. In 2000, the equivalent emission was approx. 793,000 tonnes CO2 equivalents (818,000 tonnes CO2 equivalents using a previous method of calculation), which corresponds to an overall reduction of approx. 94,000 tonnes CO2 equivalents. This is the first time a reduction has been seen in the actual emissions of strong greenhouse gases in Denmark.

The emission of HFCs, PFCs, and SF6 in 2001 accounted for less than 1% of the total Danish GWP contribution /18/.

In Table 1.3 below actual emissions and stock from products are summarised after making adjustments for any import and export of substances in products.

Table 3
Consumption, actual emission, stock, adjusted for import/export as well as GWP-emissions 2001, tonnes.

Application

Substance

Danish Consumption

Stock

Actual emission

GWP emission

Commercial refrigerators and stationary A/C

HFC-134a

HFC-404a

HFC-401a

HFC-402a

HFC-407c

HFC-507a

Other HFCs

PFC

All substances

102.4

113.7

4.1

0.8

40.3

2.2

16.3

3.2

650

705.7

39.4

42

132.5

43.5

100.3

26.5

62.6

67.7

4.5

4.7

10.9

4.6

9.6

2.6

81 300

220 600

100

7 800

16 600

14 300

16 600

18 500

375 800

Household fridges/freezers
    
- refrigerants
    
- insulating foam

  
  
   
HFC-134a
   
HFC-404a

HFC-134

HFC-152

All substances

  
  
  
130.1
   
6.5

158.9

0

  
  
   
678
    
64.6

1462

3

   
  
   
8.8
    
<1

84.8

>0

  
  
  
11 500
    
2 380

110 200

180

124 080

Mobile A/C refrigerants

HFC-134a

30.9

205.1

46.2

60 000

Refrigerated vans and lorries

HFC-134a

HFC-404a

HFC-402a

All substances

2.4

5.9

0

8.7

24.9

3.5

1.4

4.2

0.7

1 900

13 800

1 200

16 900

Shoe soles

HFC-134a

5

42.2

2.1

2 800

Soft foam and aerosol-spray

HFC-134a

HFC-152a

HFC-365

HFC-227

All substances

42.8

11.1

3.7

3.7

-

-

-

-

44.3

11.1

3.7

3.7

57 600

1 600

6 400

6 400

72 000

Joint filler

HFC-134a

HFC-152a

All substances

10

1

-

-

10

1

13 000

140

13 140

Detergent

PFC

0.5

-

0.5

3 600

Sealed glazing units for window panes

SF6

0.2

39.9

0.4

10 200

Power switches in high-voltage plant

SF6

4.4

61.2

0.5

12 550

Laboratories

SF6

0.2

-

0.2

5 000

Running shoes

SF6

0

0.5

0.1

2 650

Metal work

SF6

0

-

0

0

Total

HFCs

PFCs

SF6

676

3.7

4.7

3536

22

99.3

426.7

4.5

2.5

646 400

22 100

30 400

GWP emission

Total

 

 

 

698 900


In Figure 1.2 below the total GWP-weighted emission from HFCs, PFCs, and SF6 is shown in relation to source. The figure shows which applications are responsible for the greatest individual emissions in 2001.

Figure 1.2
GWP contribution in % from HFCs, PFCs, and SF6 by source.

The figure shows that emissions from refrigerants used in commercial stationary refrigerators account for the largest GWP contribution. Such refrigerators make up 54% of the total actual contribution in 2001. The contribution is primarily due to HFCs, and to a lesser degree PFCs.

The second largest GWP contribution, measuring 17.8%, comes from the continuing emission of HFC from the insulating foam in fridges and freezers.

10.3% of the GWP contribution derives from HFC emission in the production of soft foam and the use of aerosol sprays employing HFC.

The primary sources of SF6 emission in 2001 are from power switches, accounting for about 1.8% of the total GWP contribution.

HFCs comprise approx. 92% of the total GWP contribution. The emission of SF6 makes up 4.5% and the emission of PFC contributes 3.5% to the total contribution. Compared to the level in 2000, the relative proportion of HFC emissions has risen. The relative distribution of the emissions is shown in the figure below.

Figure 1.3
The relative distribution of the GWP contribution from HFCs, PFCs, and SF6, 2001.

1.2.1 HFCs

The total consumption of HFCs measures 676 tonnes in 2001, which is a significant reduction, compared to the consumption of approx. 1,027 tonnes in 2000. In general, the consumption of all HFCs has decreased.

The total GWP contribution from HFCs is approx. 646,400 tonnes CO2 equivalents, which is a reduction of roughly 24,400 tonnes (calculated according to the new method) compared to the GWP contribution in 2000.

1.2.2 Sulphurhexafluoride (SF6)

The consumption of sulphurhexafluoride was 4.7 tonnes in 2001, which represents a drop in consumption when compared to 4.3 tonnes in 2001. The decrease is due to a considerable reduction in the use of SF6 for sealed glazing units for windowpanes.

The actual emission has been calculated as 1.3 tonnes, equivalent to a GWP contribution of 30,400 tonnes CO2 equivalents. This is a 50 % reduction compared to 2000 when the contribution was approx. 59,200 tonnes CO2 equivalents.

1.2.3 Perfluorinated hydrocarbons (PFCs)

The consumption of perfluorinated hydrocarbons (perfluoropropane) measured almost 3.7 tonnes in 2000 and the emission has been determined at approx. 3.1 tonnes, which derives from the filling and continuing emission of refrigerants - approx. 2.6 tonnes, partly from the use of PFC detergent for electronics - approx. 0.5 tonnes (perfluoropropane).

The actual GWP-weighted emission is 22,100 tonnes CO2-equivalents which is a slight reduction compared with 2000.

1.2.4 Trends in the total GWP-weighted contribution of strong greenhouse gases

Figure 1.4 shows the trend in the Danish GWP contribution in 1992-2001 from HFCs, PFCs, and SF6. The relative difference in the determination of the total GWP value, derived from the present and earlier calculation methods, is illustrated in the figure.

Figure 1.4
The change in the GWP-weighted potential, actual, and new actual emission 1992-2000, ’000 tonnes CO2 equivalents.

(translation of box – potential – actual – actual adjusted for imports and exports – new actual corrected for imports and exports)

The figure shows that for the year 2001 a reduction in the total GWP contribution can be seen for the first time.

The trend in the GWP contribution 1992-2001 can also be seen in table 1.4 below.

Table 1.4
Total GWP-contribution from HFC, PFC, SF6 000 tonnes CO2 eq. The total GWP-contribution has been determined using four different methods during this period.1

 

Potential

Actual

Actual, adjusted Imp/exp.

New actual, adjusted Imp/exp.

1992

400

 

 

 

1993

800

 

 

230

1994

1300

 

 

263

1995

1600

480

 

344

1996

1700

520

 

435

1997

1700

560

 

472

1998

 

625

577

564

1999

 

 

700

683

2000

 

 

818

793

2001

 

 

 

699

 

1 Due to new information, emissions determined for actual, adjusted import/export GWP emission have been changed for 1998 and 1999 compared to last year's evaluation /13/.

 

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