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Environmental Project, no. 810, 2003 Ozone depleting substances and the greenhouse gases HFCs, PFCs and SF6Danish consumption and emissions 2001Contents
1 Summary and Conclusions1.1 Ozone-depleting SubstancesThe 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.
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
Figure 1.1 shows the development of ODP-weighted consumption.
Figure 1.1 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 gasesThe 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
Figure 1.2 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 1.2.1 HFCsThe 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 gasesFigure 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 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
2 Introduction
On behalf of the Danish Environmental Protection Agency, COWI has conducted an assessment of the Danish consumption and emissions of ozone-depleting substances and the greenhouse gases HFCs, PFCs, and SF6 for 2001. The evaluation survey has been carried out in continuation of previous assessments, refer to /13/ and references in this report. The report provides an evaluation of the actual emissions of HFCs, PFCs, and SF6. This method of determination was first used in the 1998 evaluation /2/. The determination of the actual emissions takes into account the emissions from stock contained in products and adjustments have been made for the import and export of the substances contained in products. In 2001, the method of determination underwent further development and now defines Danish emission factors for certain primary areas of application such as commercial refrigerators and mobile refrigerator units. In order to ensure consistency of the determination, the new basis of determination has been used in the 2001 evaluation for all historical data back to 1990. The report has been prepared partly to enable Denmark to fulfil its international obligations to provide statistics in the area and partly to follow the trend in consumption of ozone-depleting substances and emissions of HFCs, PFCs, and SF6. A report on Danish emissions is given in reference /18/ as an example on the reporting as part of international obligations. The ozone-depleting substances regulated in the Montreal Protocol are depleting the earth’s protective ozone layer at a much greater rate than natural processes reproduce ozone. This is disturbing the natural balance and leading to an increase in dangerous ultraviolet radiation. The depletion is dependent on the different depleting potentials of specific substances - ODP values (Ozone-depleting Potential). Greenhouse gases cause an increase in the ability of the atmosphere to retain heat radiated from the earth. Consequently the temperature of the earth’s surface rises and this can lead to climate changes. There are several ozone-depleting substances that also have a strong greenhouse effect. The potential effect of different greenhouse gases varies from substance to substance. This potential is expressed by a GWP value (Global Warming Potential). The so-called ‘pure’ greenhouse gases that do not have an ozone-depleting effect, but which have high GWP values (HFCs, PFCs and SF6) are regulated in the Kyoto Protocol under the Climate Change Convention. The Danish Environmental Protection Agency has published a booklet on the ozone layer and the greenhouse effect /5/, and in cooperation with the other Nordic countries the Agency has published a booklet on the protection of the ozone layer – Nordic Perspective /6/. The Danish Environmental Protection Agency has also published a report on substitutes for the greenhouse gases HFCs, PFCs and SF6 /10/. 2.1 Monitoring GroupThe project has been overseen by a monitoring group which has reviewed the results of the assessment. The monitoring group consisted of:
2.2 ObjectiveThe objective of the project is to evaluate the 2001 consumption of recently produced ozone-depleting substances and the consumption and the actual emission of the greenhouse gases HFCs, PFCs, and SF6. The evaluation has been made partly in accordance with the IPCC guidelines, the Intergovernmental Panel on Climate Change /4/, and partly following the methods employed in previous evaluations. In Appendix 1, Tables 1.a and 1.b show the ozone-depleting substances regulated in the Montreal Protocol, their chemical formulas and ODP values (Ozone-depleting Potential), and the ‘pure’ potent greenhouse gases covered by the Kyoto Protocol under the Climate Change Convention, and their chemical formulas and GWP values (Global Warming Potential). 2.3 Scope and definitionOzone-depleting substances This evaluation survey covers the net consumption of ozone-depleting substances. The term net consumption is understood as the amount of imported goods in bulk or drums, not counting any re-export of substances as raw materials. Ozone-depleting substances contained in finished products that are imported and exported are not included in the evaluation. This delimitation is in full compliance with international guidelines. The evaluation does not account for the consumption of ozone-depleting substances as raw material used in the production of other substances, such as tetrachloromethane, which are not subsequently emitted to the atmosphere. The information on consumption has been gathered from importers, suppliers and user enterprises (usually the purchasing departments), and Statistics Denmark. The method of data gathering used ensures that the information collected corresponds to the quantities of substances that are traded. The purchase and sales figures are utilised in this evaluation as an expression synonymous with the level of consumption. This approach is considered to be suitable and adequate for the present purpose, since experience from previous projects shows that a levelling out occurs with time and the substances sold/bought are consumed within a relatively small time horizon. None of the substances covered here are produced in Denmark. Furthermore, ozone-depleting substances in Denmark are transported for treatment at chemical waste processing plants in Denmark. This data is included in the evaluation, but is not offset in the consumption figures, as was the case in all previous surveys. Greenhouse gases The evaluation of the actual emissions of the greenhouse gases HFCs, PFCs and SF6 has been carried out in continuation of foregoing assessments which have become increasingly more accurate as advances have been made in internationally approved guidelines (IPCC Guidelines) and the ability to gather more detailed data. The evaluation of actual emissions includes the quantification and determination of any import and export of HFCs, PFCs, and SF6 contained in products, and takes into account the substances in stock form. This is in accordance with the latest and most accurate method of determination (Tier 2) among the available methods provided in the IPCC Guidelines /4/. 2.4 MethodsConsumption and emissions The evaluation of consumption and determination of emissions and stock have been carried out based on information from six sources:
Information for evaluation is firstly gathered by means of a questionnaire survey. The responses to the questionnaires are supplemented where necessary with information gathered by telephone. The results of the project are primarily based on the information received from enterprise and importer respondents etc. The information gathered from importers and suppliers is recorded with information on consumer enterprises in order to monitor any disagreements between purchase and sales information and application of the substances. In some cases the application of individual substances can be estimated on the basis of two sources, given that the majority of the consuming enterprises are known. In cases where not all the user enterprises specify the application of substances, the consumption of individual substances is estimated from the information provided by importers, suppliers, and any industry-related organisations, such as the Danish Refrigeration Installers’ Environmental Scheme (KMO). Occasionally there are disagreements in the information provided by suppliers and user enterprises. This is partly due to imports from other EU countries, changes in stocks of substances, or a lack of correspondence between the quantities sold and consumed. It can also be due to a degree of uncertainty in the method of determination used by enterprises. Sales and consumption information has been harmonised. The average degree of uncertainty in the report’s consumption figures (sold and bought quantities) is estimated at approx. 10-15%, and slightly greater for data regarding the areas of application. The degree of uncertainty in the determination of actual emissions is estimated at 20-25% depending on import/export information on the actual products. The evaluation has been conducted using two different methods /2/:
The ozone-depleting substances are not included in the determinations of emissions of greenhouse gases, since ozone-depleting substances are regulated by the Montreal Protocol. When evaluating the emission of ozone-depleting substances, the net consumption is considered equivalent to the potential emission. Thus: Potential emission = import + production - export - destruction/treatment. The evaluation of greenhouse gas emissions is based on a calculation of the actual emission. The actual emission is the emission in the evaluation year, accounting for the time lapse between consumption and emission. The actual emission includes Danish emissions from production, from products during their lifetimes, and from waste products. The actual emissions for the specific areas of application are determined on the grounds of the following analyses: Tier 2 – Top-down analysis. In the Tier 2 – top-down analysis the emission is determined on the basis of information on consumption in the various areas of application and calculated or estimated emissions in the area of application (emission factors). Tier 2 – Bottom-up analysis. In the bottom-up analysis an estimation is made of the emission from a specific application area based on information from producers using substances in production and products; information on import and export of products; information on the technological developments within the application areas; information on the average amount of greenhouse gases contained in products; and information on the lifetime of products and the actual emission during the consumption phase and disposal phase. The Tier 2 – Bottom-up analysis was first employed in the evaluation of emissions from HFCs, PFCs, and SF6 in 1998, and it covered the following activities /2/:
The results from this analysis are built on further in the evaluation of the actual emissions for the present year. Consumption and emissions of greenhouse gases are wherever possible carried out for individual substances, even though the consumption of certain HFCs has been very limited. This has been done to ensure transparency of evaluation in the determination of GWP values. However, the continued use of a category for "Other HFCs" has been necessary since not all importers and suppliers have specified records of sales for individual substances. Uncertainty varies from substance to substance. Uncertainty is greatest for HFC-134a due to its widespread application in products that are imported and exported. The greatest uncertainty in the distribution of substances in the areas of application is judged to arise from the consumption of HFC-404a and HFC-134a in commercial refrigerators and mobile refrigerators. The distribution is significant in the differences in the emission determinations in the short term (approx. five years), but balances out in the long term. This is because the distribution is only significant for the rate at which emissions are released. Appendix 5 shows an overview of all the application areas evaluated with descriptions of the bases of determination. 2.5 Explanation of terminologyThe following terms and abbreviations are used throughout this report.
3 Ozone-depleting substances
All known importers of ODS’s responded to the questionnaire survey. The responses provide information on import/export, sales/purchase, and areas of application relating to relevant substances (including both mixed and pure substances). All ODS’s reported by the importers are new ODS’s. The information from importers is supplemented with statistical information from Statistics Denmark for 2001. Information on CFC-11, CFC-12, CFC-113, tetrachloromethane, 1,1,1-trichloroethane, and methylbromide is available from Statistics Denmark, but for HCFCs, halons and other CFCs the statistics are provided only for groups of substances and not for individual substances. Statistical data is used for cross-checking information on imports. The statistics do not distinguish between new and re-used substances, and thus imports could in principle consist of new and re-used substances. It is therefore assumed that in the import of CFC-113 the difference between data from importers and data from Statistics Denmark derives from the import of re-used ODS. There is no import for feedstock except for methylbromide. None of the exported amounts of HCFC-22 and HCFC-141b are used for feedstock or for essential use. It has not been possible to quantify in detail the export of 1,1,1-trichloroethane but it has been assumed that none is used for essential use or for feedstock purposes. The foreign trade statistics for 2001 assign the following ozone-depleting substances to the following separate positions:
The foreign trade statistics also include some substance group positions that can indicate trends in the import and export of HCFCs (and HFCs and PFCs), among others, but due to the broad definitions of the substance groups it is not possible to utilise the position numbers in the evaluation since this relates to individual substances. In the case of CFCs, Statistics Denmark does not distinguish between new and re-used classes of CFCs. Data on CFCs from Statistics Denmark are therefore not used in the evaluation. The Statistics Denmark information can only be used for halons, tetrachloromethane, and 1,1,1-trichloroethane when making direct comparisons with information from importers and user enterprises. 3.1 Import and exportThe following sections describe the import of individual ozone-depleting substances. 3.1.1 CFCsThe import of new CFCs in 2001, based on information on imports, was 2.6 tonnes. In 2000 the import was 4.8 tonnes. The considerable fall is mostly due to a particular importer reporting a very limited import in 2001. Four importers report imports of 2.6 tonnes of CFC-113 for use as a trace gas for laboratory purposes. There is no other information available for the import of other CFCs. Statistics Denmark registered an import of 3.7 tonnes of CFC-113 in 2001, of which it is assumed 0.9 tonnes has been imported in the form of regenerated CFC-113. This accounts for the difference between 2.6 tonnes of new gas and 3.7 tonnes imported altogether. 3.1.2 TetrachloromethaneIn 2001, three importers reported imports and sales of a total of 1.25 tonnes of tetrachloromethane for laboratory purposes. 3.1.3 TrichloroethaneIn 2001, two importers reported combined imports and sales of < 50 kg of 1,1,1-trichloroethane. 3.1.4 HalonsNo information has been received regarding the import of halons in 2001. 3.1.5 MethylbromideApprox. 180 tonnes of methylbromide have been imported for feedstock in chemical production. 3.1.6 HCFCsSix enterprises have imported HCFCs in 2001. The consumption of HCFC-22 has fallen, while the consumption of HCFC-141b has risen, and the consumption of HCFC-142b has remained almost the same as in 2000. HCFC-123 has also been imported. Import of pure HCFC-22 totals 329.3 tonnes in 2001. Of this, re-export to the rest of Scandinavia and Greenland measures 80.2 tonnes. Thus the Danish consumption amounts to 249.1 tonnes. In 2000 the consumption of HCFC-22 after re-export was 347 tonnes. In addition, approx. 13.8 tonnes of pure HCFC-22 from HFC mixtures has been imported. The import of HCFC-141b has increased to 609.3 tonnes in 2001. The import measured 538.8 tonnes in 2000. There was a small re-export of 0.3 tonnes of HCFC-141b in 2001, giving a final consumption of 609 tonnes. There was no import of HCFC-142b in 2001. In 2000 this import amounted to 15.8 tonnes. Table 3.1 Importers and consumers report that HCPC-22 is only used as a refrigerant and HCFC-123, HCFC-141b and -142b are used exclusively for foam systems in foam production. Table 3.2 shows an overview of the Danish consumption of HCFCs by application areas, using information provided by importers and producers. Table 3.2
|
ODS |
Quantity, tonnes |
HCFC-22 |
15.1 |
CFC-12 |
7.5 |
CFC-11 |
16.1 |
Some of HCFC-22 results from HFC mixtures (HFC-401a, HFC-402a, HFC-403a, HFC-408a, HFC-409a and HFC-502a) that are sent to the Kommune Kemi treatment plant for processing by Danish importers either as mixtures of pure refrigerants or in mixture cylinders.
4 Greenhouse gases
4.1 Import of substances
An overall picture of the trends in the import of greenhouse gases is given in Table 4.1, based on information from importers for the years 1987, 1989, 1992, and 1994-2001.
4.1.1 HFCs
HFCs were imported by nine enterprises in 2001, of which five are Danish suppliers and four are user enterprises, importing directly from other EU countries.
The total import (minus re-export) for all HFCs, according to the importers, has fallen from 1,027 tonnes in 2000 to 676 tonnes in 2001. This is a reduction of about 34% compared to 2000.
The import of HFC-134a has fallen from 711.1 tonnes in 2000 to 472.8 tonnes in 2001. In particular it has been possible to ascertain a reduction in consumption by manufacturers of fridges, as there has been a significant reduction in production by one manufacturer.
The import of HFC-152a has been reduced from 16.4 tonnes in 2000 to 11.1 tonnes in 2001.The import of HFC-404a has been reduced from 193.1 tonnes in 2000 to 126.3 tonnes in 2001. The reduction in the consumption of HFC-404a is to a large degree due to lower consumption by commercial refrigerators. It is not possible to explain this development, but it is clear that the refrigerator industry had a lower turnover in 2001 than in the year before. Therefore it can be assumed that there were fewer refillings in 2001 than in 2000.
The import of HFC-407c has been reduced from 44.7 tonnes in 2000 to 40.3 tonnes in 2001. HFC-407c is a substitute refrigerant for HCFC-22 in stationary A/C systems.
The import of other HFCs (HFC-408a, HFC-409a, HFC-410a, HFC-227, HFC-365 and HFC-23) measures 18.4 in 2001 compared with 24.1 tonnes in 2000. The year 2001 is the first year where an import of the new substance HFC-365 has been registered. The import of HFC-365 amounts to approx. 3.5-4 tonnes. HFC-365 has been developed by Solvey as a substitute for HFC-134a and other blowing agents for foam plastics. HFC-227 is often used as a substitute for CFC blowing agents, but the consumption for 2001 has not been ascertained.
The import of HFC-507a has been reduced to 2.2 tonnes in 2001. In 2000 the import totalled 23.9 tonnes. The import of HFC-401a measures 4.1 tonnes and HFC-402a measures 0.8 tonnes. The consumption of these was also relatively small in 2000.
4.1.2 Sulphurhexafluoride
Three importers report imports and sales of 2.7 tonnes of sulphurhexafluoride in 2001. The areas of application concerned are the glass industry, high-voltage plants, and a small amount as trace gas for laboratory purposes. Use of SF6 in the metal industry was phased out in 2000.
In addition, a supplier of GIS plants (power switches in high-voltage plant) imported 2 tonnes of SF6 in 2001 from another EU country.
4.1.3 Perfluorinated hydrocarbons
Two importers report imports of mixture products containing perfluorinated substances. The substance in this case is perfluoropropane, C3F8, for refrigerant application in commercial refrigerators. Imports of this substance amount to approx. 3.2 tonnes.
One producer reports imports and sales of detergent for electronics, containing approx. 0.5 tonnes of perfluoropropane.
Table 4.1
Developments in the import of greenhouse gases, tonnes.
4.2 Consumption distributed among application areas
The evaluation of the consumption distributed by application areas is estimated on the basis of information from importers and producers, and on records regarding sales to the Danish Refrigeration Installers’ Environmental Scheme (KMO). The consumption distributed by application area is shown in Table 4.2.
Table 4.2
Distribution of HFC consumption shown by application area in 2001, tonnes.
Application area |
HFC- 134a |
HFC- 152a |
HFC- 401a |
HFC- 402a |
HFC- 404a |
HFC- 407c |
HFC 507a |
HFC- 365, 227 |
Other HFCs |
Insulation foam (fridges, freezers etc.) |
158.9 |
0 |
0 |
0 |
0 |
0 |
0 |
0 |
0 |
Refrigerant (household and commercial fridges, freezers etc.) |
130.1 |
0 |
0 |
0 |
6.5 |
0 |
0 |
0 |
0 |
Refrigerant (commercial stationary refrigerators and A/C systems)1) |
102.4 |
0 |
4.1 |
0.8 |
113.7 |
40.3 |
2.2 |
0 |
11 |
Transport refrigerators2) |
2.4 |
0 |
0 |
0 |
5.9 |
0 |
|
0 |
0 |
Refrigerants in mobile A/C 2) |
30.9 |
0 |
0 |
0 |
|
0 |
0 |
0 |
0 |
Other (including aerosol sprays and soft foam) |
48 |
11.1 |
0 |
0 |
0 |
0 |
0 |
7.4 |
0 |
Total |
472.8 |
11.1 |
4.1 |
0.8 |
126.2 |
40.3 |
2.2 |
7.4 |
11 |
| 1) | Estimation based on the residual amount of HFC-134a, for which there is no application information available from the producers. The residual amount is distributed among commercial refrigerators and mobile refrigerators, based on the importers’ estimated application distribution. |
| 2) | Danish Refrigeration Installers’ Environmental Scheme statistics (KMO), 2001 |
4.2.1 Consumption of HFC as refrigerant
The general trend in Danish consumption of HFCs for refrigerants is falling in all areas. Refrigerant consumption for production of refrigerators/freezers is falling because of a lower production of appliances based on HFCs. A similar consumption to 2001 is expected in future years. Similarly, there is a falling trend for refrigerant consumption for stationary refrigeration units. Due to new legislation banning construction of new HFC units after 2007, and generally better units, the trend is expected to continue to fall. For use of HFCs in mobile climate equipment there is a clear increase in consumption for refilling mobile equipment.
The consumption distributed according to application area is based on information from producers and importers and on data from the Danish Refrigeration Installers’ Environmental Scheme (KMO), which receives records of the sales of substances from refrigerator installers and automobile garages, and so forth.
The consumption of refrigerants relating to household fridges and freezers is calculated based on information from user enterprises.
The consumer figures for refrigerants in commercial and stationary A/C systems, and mobile A/C systems and refrigerators are estimated using data from the Danish Refrigeration Installers’ Environmental Scheme (KMO) and import information.
Table 4.3 shows the relative consumption of refrigerants according to application area.
Table 4.3
The relative consumption of refrigerants according to refrigerant application, tonnes.
Substance HFC |
Fridge/ freezer (commercial & household) |
Commercial refrigerators and A/C systems |
Mobile A/C systems |
Refrigerated vans and lorries |
Total |
% |
-134a |
130.2 |
102.4 |
30.9 |
2.4 |
265.9 |
59% |
-401a |
- |
4.1 |
- |
- |
4.1 |
1% |
-402a |
- |
0.8 |
- |
- |
0.8 |
0% |
-404a |
6.5 |
113.7 |
- |
5.9 |
126.2 |
27% |
-407c |
- |
40.3 |
- |
- |
40.3 |
9% |
-507a |
- |
2.2 |
- |
- |
2.2 |
0% |
Others |
- |
16.3 |
- |
- |
16.3 |
4% |
Total |
136.7 |
279.8 |
30.9 |
8.3 |
455.7 |
100% |
|
30% |
61% |
7% |
2% |
|
100% |
The largest consumption of HFC refrigerant is related to commercial stationary
refrigerators, which account for 61% of the total consumption of refrigerants. The second
highest consumption is 30% for fridges/freezers and 7% for mobile A/C systems.
Refrigerated vans and lorries make up 2% of the consumption (only includes refrigerators
on lorries).
The consumption of HFC-134a accounts for 59% of the overall consumption and the consumption of HFC-404a accounts for 27%. This distribution is comparable to that of the previous year.
4.2.2 Consumption of HFC for foam production
There are no significant changes in Danish consumption of HFC for foam production since last year. However, over the past 5 years there has been a significant fall in consumption, partly because there is no longer any production of filler foam in Denmark. In the future it is expected that HFC consumption will fall within all foaming applications. With regard to the use of HFC as a propellant it is assumed that 2002 will be the last year in which HFC-134a is used as a propellant in the production of aerosol containers.
The consumption of HFC-134a utilised in insulation foam in fridges, freezers and similar products amounts to 158.9 tonnes in 2001, which is a reduction compared to 2000. It is only HFC-134a that is used in this type of foam production.
The consumption of HFC-134a and HFC-152a for other purposes, such as soft foam production and for use as a propellant, is approximately the same as the previous year. The consumption of HFC-134a amounts to 48 tonnes in 2001 compared to 50.4 tonnes in 2000.
HFC-152a consumption has fallen from 15.4 tonnes in 2000 to 11.1 tonnes in 2001.
In addition, consumption of HFC-365 and HFC-227 for foam production purposes measures 7.4 tonnes in total. HFC-365 is used as a substitute for HFC-134a and HFC-227 is typically a substitute for CFC. The information forms returned only state the sum total and therefore the calculations in other parts of this report assume a 50/50 consumption of these substances.
4.2.3 Consumption of SF6
The overall consumption of SF6 in 2001 was 4.7 tonnes. The distribution of the consumption is shown in the table below.
Table 4.4
Consumption of SF6 distributed by application area.
Application |
Danish consumption, tonnes |
Sealed glazing units for window panes |
0.16 |
Power switches in high-voltage plant |
4.37 |
Laboratory purposes |
0.2 |
Total |
4.7 |
4.2.4 Consumption of PFCs
The total consumption of perfluoropropane in 2001 amounts to approx. 3.7 tonnes, of which approx. 3.2 tonnes is used in refrigerant products; perfluoropropane is contained in two different mixture products comprising either 9 % or 39 % (weight) of the product. The remaining approx. 0.5 tonnes of perfluoropropane is employed in detergent for electrical and electronic components.
Other applications of PFCs have not been reported in Denmark.
4.3 Emissions of HFCs, PFCs and SF6
This section describes the actual emission of the greenhouse gases HFCs, PFCs, and SF6 for 2001. The determinations are based on the aforementioned reports on consumption of these substances distributed by application areas (section 4.2). In the case of the current product groups adjustments have been made for the import and export of the substances in products.
It should be noted in the emission evaluation that an improvement in last year’s basis of determination has been made regarding leakage rates in commercial refrigerators, and mobile A/C systems and refrigerators. The IPCC guidelines recommend that consistency is maintained throughout the period of evaluations when making such changes, i.e. 1990-2020. Thus the subtotals for actual emissions and for the affected application areas contain changes in the historical data.
In the present report the historical emissions are listed in brackets. These are based on determinations employing the old basis of determination.
Appendix 5 shows the leakage rates employed, the Tier method etc, in relation to individual substance and application area. The scheme in Appendix 5 provides an overview of the IPCC methods that have been employed. It also shows the extent to which the IPCC default values and specific default values for Denmark have been used /4, 16/.
4.4 The actual emissions of strong greenhouse gases in 2001
The total actual emission of HFCs, PFCs, and SF6 in 2001 has been calculated at approx. 699,000 tonnes CO2 equivalents. The equivalent emission was approx. 793,000 tonnes CO2 equivalents (818,000 tonnes CO2 equivalents using the old basis of determination) in 2000, which is equivalent to a total reduction of approx. 94,000 tonnes CO2 equivalents. This is a reduction of about 13% and this survey is the first time that a reduction can be seen in the actual emission of strong greenhouse gases in Denmark.
The total GWP contribution divided between HFCs, PFCs, and SF6 is shown in the table below.
Table 4.5
GWP contribution from substance groups
Substance group |
DK consumption, tonnes |
GWP contribution, tonnes |
HFCs |
|
646 400 |
PFCs |
|
22 130 |
SF6 |
|
30 400 |
Total |
|
698 900 |
4.4.1 Emissions of HFCs from refrigerants
In this year’s evaluation of the emission from refrigerants the following distinctions have been made:
 | Fridges and freezers for household use |
| Commercial refrigerators (in industry and shops) and stationary air conditioning systems |
| Mobile air conditioning systems (in cars, trucks, busses, trains etc.) |
| Refrigerated vans and lorries |
The actual emission from these sources occurs in connection with:
| filling with refrigerants (0.5 % to 2 % of the consumption depending on the application area) |
| continual release during the operational lifetime. An assumed average value which also accounts for release occurring as a result of accident and damage (10 % to 33 % of consumption per annum depending on application area) |
Release resulting from disposal does not count as emission in Denmark since Danish legislation ensures that management and treatment of refrigerants prevents such emissions. The release is defined as the writing-off of stock (the quantity of refrigerant contained in a product).
Table 4.6 shows the emission factors used in the determination of the emission from refrigerants in household and commercial fridges/freezers, commercial stationary refrigerators, and refrigerated vans and lorries.
Table 4.6
Factors in the determination of the emission from refrigerants in household and
commercial fridges/freezers, refrigerators, stationary A/C and (transport refrigerators) /4/
|
Fridges/freezers |
Commercial refrigerators and stationary A/C |
Transport refrigerators |
Filling |
2% |
1.5% |
0.5% |
Operation |
1% |
10% |
17% |
Disposal |
0% |
0% |
0% |
Lifetime |
15 years |
15 years |
15 years |
Commercial refrigerators and stationary A/C systems
The largest source of emission comes from stationary commercial refrigerators used in supermarkets and in industry. The most commonly used refrigerant in this product group is HFC-134a and HFC-404a.
The primary refrigerant used in A/C systems is HFC-407c, a high temperature refrigerant and substitute product for HCFC-22.
Used to a lesser extent are the refrigerants HFC-401a, HFC-402a, HFC-408a, HFC-409a, HFC-410a and HFC-507c.
It is not necessary to correct for the import and export of HFCs in stationary commercial refrigerators since filling takes place at the site of operation following installation.
Table 4.7 shows the actual emission evaluated for specific HFCs. The total emission of all HFCs is given in CO2 equivalents to take into account the different GWP values of the substances.
The determination of the GWP contribution in the category "other HFCs" (HFC-408a, HFC-409a and HFC-410a) incorporates a worst-case assumption made on the grounds of HFC-410a (50% HFC-32, 50% HFC-125). The GWP value for HFC-410a is 1,725.
Table 4.7
Actual emission and GWP contribution from commercial refrigerators 2001 and 2010,
tonnes
Source |
Substance |
Con- sump-tion, DK |
Stock |
Actual emis-sion |
GWP contribution 2001 |
GWP contribution 20102) |
Com- mercial refrige-rators and stationary A/C |
HFC-134a HFC-401a HFC-402a HFC-404a HFC-407c HFC-507a Other HFCs1) All substances |
102.4 4.1 0.8 113.7 40.3 2.2
|
650 39.4 42 705.7 132.5 43.5
|
62.6 4.5 4.7 67.7 10.9 4.6
|
81 300 0.1 7 800 220 600 16 600 14 300
357 300 |
95 000 0 2 700 282 500 24 000 6 300 13 600 424 100 |
| 1) | The category ’other’ includes HFC -408a, -409a, -410a (in the emission calculation a worst-case assumption is used on the grounds of the GWP value for HFC-410a). |
| 2) | The possible future scenario takes account of the effect of an implemented phasing-out of HFCs and other substances, and the effect of an implemented charge scheme. Conditions relating to the substitution of HCFC-22 with HFC-134a and HFC-404a are also taken into account. |
In the projection of emissions in 2010, in which concrete phase out dates are taken into account, as established in the Statutory Order on regulation of certain industrial greenhouse gases, it is estimated that the GWP contribution from commercial refrigerators in 2010 would be approx. 424,100 tonnes.
Fridges/freezers
The actual emission from refrigerants in fridges and freezers is determined on the basis of consumption corrected for import and export of HFCs. The determination assumes that the refrigerant is removed and treated upon disposal so that no emission occurs.
After adjusting for import and export, estimations based on values calculated in /3/ show that export accounts for 50 % of consumption. Only fridges containing HFC-134a are imported/exported. The determination is made on the basis of Denmark’s foreign trade statistics of average figures for the amount of HFC-134a in a standard fridge/freezer manufactured in 1999. The statistical background data for this is given in Appendix 2.
In addition, the effect of charges in the reduction in consumption is taken into account in the case of HFC-134a fridges. This is not accounted for in the case of HFC-404a refrigerators because these products are an exception.
Table 4.8 shows the actual emission from fridges/freezers in 2001 and 2010.
Table 4.8
Emission of refrigerants from fridges/freezers 2000 and 2010, tonnes
|
2001– 134a |
2010- |
2001– 404a |
2010 –404a |
Consumption |
130.1 |
106 |
6.5 |
6.5 |
Emission during production |
2.6 |
2.1 |
<1 |
<1 |
Export |
65.1 |
53 |
- |
- |
Stock |
678.4 |
1 027.9 |
64.6 |
112.3 |
Emission from stock |
6.2 |
10.1 |
0.6 |
1.2 |
Emission from treatment |
0 |
0 |
0 |
0 |
Actual emission |
8.8 |
12.2 |
<1 |
<1.5 |
GWP contribution, ’000 tonnes of CO2 equivalents |
11.5 |
15.9 |
2.4 |
4.3 |
The total emission of HFC refrigerants from fridges/freezers in 2001 measures 13,900
tonnes CO2 equivalents. In the projections of the actual emissions a small
increase is expected to approx. 20,000 tonnes CO2 equivalents in 2010.
Mobile A/C
The emission from mobile A/C systems is released during filling and from continual loss of HFC-134a, and is also due to accident and damage.
The determination has been corrected for import and export of HFC-134a, which is the only HFC imported in A/C systems in cars and trucks. In Denmark filling is only carried out after import. Initial filling is carried out by car manufactures.
The total filling (stock) in Denmark in A/C systems in cars and trucks is determined using statistical information about annual imports and re-exports of cars, vans, and trucks. The statistical figures for imported units are multiplied by an estimated percentage that expresses the proportion of cars and trucks with air conditioning. In 1998 an evaluation was made of the stock for 1998 and the projections since then have accounted for a 20% proportion of cars and a 50% proportion of trucks.
In the present year, this estimate has been revised and the total stock figure has been updated. The conditions employed in the final evaluation are shown in the table below. The conditions have been grouped according to individual statistical categories for types of transport and they represent estimated values based on information from car importers and refrigerator service enterprises.
Table 4.9.
Conditions used in the calculation of stock in mobile A/C systems
|
Percentage with A/C |
Filling, Kg HFC-134a |
Percentage of all vehicles that undergo A/C maintenance |
Cars |
10 % |
0.75 |
50 % |
Busses |
20 % |
9 |
20 % |
Vans |
10 % |
0.8 |
50 % |
Trucks up to 6 t |
50% |
1.2 |
50 % |
Trucks over 6 t |
50% |
1.5 |
40 % |
The Danish Automobile Dealers Association (DAF) publishes annual statistics of the number
of vehicles in Denmark /17/. This data forms the basis for evaluating
the HFC-134a stock in vehicles in Denmark below. Determinations are also provided for the
percentage of installed A/C systems that are currently undergoing servicing and are thus
refilled with refrigerant upon leakage and other repairs. This forms the basis for
determining the amount of refilling of HFC-134a in vehicles in Denmark in 2001.
The results are shown in the table below.
Table 4.10.
Determination of Danish stock in mobile A/C systems in 2001 grouped by vehicle type
|
|
2001 |
Stock, kg |
Filling undergoing maintenance |
Refrigerant (HFC-134a) refilled in Danish vehicles 2001, tonnes |
Cars |
|
1 854 060 |
139 055 |
69 527 |
23.2 |
Buses |
|
13 968 |
25 142 |
5 028 |
1.7 |
Vans |
|
335 990 |
13 440 |
6 720 |
2.2 |
Trucks up to 6 t |
|
4 628 |
2 777 |
1388 |
0.5 |
Trucks over 6 t |
|
32 975 |
2 4731 |
9 892 |
3.3 |
TOTAL |
|
|
205 145 |
92 556 |
30.9 |
The figures shown in the table have been determined using various assumptions, such as the estimated percentage of the various types of vehicles with A/C systems. The total stock of HFC-134a in mobile A/C systems in Denmark has been calculated as 203 tonnes in 2001. This increase is expected to increase further in coming years since there is a continuing trend of more vehicles and new vehicles with more A/C systems. The filled amount of HFC-134a refrigerant in mobile A/C systems in 2001 has been calculated as 30.9 tonnes. This alone accounts for usage in refilling during maintenance of existing systems /16/.
Actual emissions from mobile A/C systems have been calculated on the basis of the following emission factors.
Table 4.11
Emission factors for mobile A/C systems
|
Emission factor |
Filling |
4.5 % |
Operation |
30 % |
Destruction |
0 % |
The table below shows the actual emissions from mobile A/C systems in Denmark. The table
has been prepared on the basis of a steady-state assumption where consumption for
refilling in 2010 is assumed to be the same as in 2001. This assumption is very
conservative as all signs indicate continued increases in vehicles with A/C systems.
Table 4.12
Calculated emissions of HFC-134a from mobile A/C systems in 2001 and 2010
|
2001, tonnes |
2010, tonnes |
Imported via vehicles |
27.8 |
27.8 |
Consumption with refilling |
30.9 |
30.9 |
Total addition to stock |
58.7 |
58.7 |
Emission from filling |
1.4 |
1.4 |
Emission from operation of stock |
44.8 |
57.5 |
Total reduction in stock |
46.2 |
58.9 |
Stock |
205.1 |
191.5 |
Actual emission |
46.2 |
58.9 |
GWP contribution |
60 000 |
76 600 |
Refrigerated vans and lorries
The evaluation of refrigerated vans and lorries employs the following Danish emission factors, which are based on a study of the servicing of Danish transport refrigerators /17/.
|
Emission factor |
Filling |
0.5 % |
Operation |
17 % per year |
Destruction |
0 % |
There are an estimated 5,500-6,000 refrigerated vans and lorries in Denmark /16/. These refrigerators require an average filling of approx. 8 kg,
equivalent to 44-49 tonnes of refrigerant altogether, either HFC-134a, HFC-404a or
HCFC-22. An estimated one third of the refrigerators utilise HCFC-22 and for HFC
refrigerators 75 % of the HFC stock consists of HFC-404a. The remaining 25 % use HFC-134a.
This results in the following stock distribution for 2000:
| Stock in refrigerated vans and lorries containing HFC-404a = 22-24.5 (23.2 tonnes) |
| Stock in refrigerated vans and lorries containing HFC-134a = 7.3-8.1 (7.7 tonnes) |
| Stock in refrigerated vans and lorries containing HCFC-22 = 14.6-16.3 (15.5 tonnes) |
The actual emission from refrigerated vans and lorries is stated in the table below.
4.4.2 Emission of HFCs from foam plastic products and propellants
The HFC emission determination used for foam plastic products employs two determination principles, depending on the type of product:
1) Hard PUR foam plastics (closed cell)
2) Soft PUR foam plastics (open cell)
The following basis of determination has been used in the emission calculation for foam plastic products.
Table 4.13
Factors in the determination of emission from foam plastic products.
|
Hard PUR foam |
Soft PUR foam |
Polyether foam |
Emission during production |
10% |
100% |
15% |
Annual release |
4.5% |
- |
4.5% |
Lifetime |
15 |
- |
1-10 (3 years) |
Insulating foam
Hard foam plastics produced with HFC-134a are mainly used in insulating foam in fridges/freezers. The emission determinations for insulating foam in fridges/freezers are adjusted for the import and export of fridges /freezers. The determinations are carried out on the basis of 1998 figures for the average quantity contained in fridges/freezers for household use. Based on manufacturer information the average content has been estimated at 240 grams per product, and in 1998 there was a net export of two tonnes of HFC-134a (see Appendix 3).
Usage of HFC-134a in insulating foam in industrial and commercial refrigerators is very limited. Insulating foam for such purposes is usually produced using HCFC-141b.
The actual emission of HFC-134a from insulating foam is summarised in Table 4.12.
Table 4.14
Emission of HFCs from insulating foam, tonnes
|
2001 |
2010 |
Consumption |
158.9 |
0 |
Emission during production |
15.9 |
0 |
Export |
2 |
0 |
Stock |
1462 |
1138 |
Emission from stock |
68.9 |
89.2 |
Actual emission |
84.8 |
89.2 |
GWP contribution, ‘000 tonnes of CO2 equivalents |
110.2 |
115.9 |
In the projections for 2010, it is estimated that the stock will reduce as a result of the
phase out of HFC-134a in foam production by 1/1 2006 in compliance with regulations on the
phase out of strong greenhouse gases.
Foam polyether
There is only one Danish producer of foam polyether and the firm concerned in this specialised area of production did not wish to provide any information again on their consumption for 2001. Therefore the firm’s consumption of HFC-134a in 1999 is taken in their polyether-based shoe production in 2001. The consumption in 1999 was reported as approx. 5 tonnes and the actual emission is estimated at 2.1 tonnes, equivalent to 2,800 tonnes CO2 equivalents. The determination makes the assumption that no emission is released upon disposal since the gases are destroyed during incineration.
Evaluations from 1998 are used for the export adjustments. In the evaluation it is estimated that 5 % of all shoes with plastic, rubber, or leather soles contain polyether. In 1998 approx. 12.8 million pairs of shoes were exported (Statistics Denmark, Foreign Trade) and it is estimated that a single pair of shoes contains an average of 8 grams HFC-134a. Based on these figures the export is estimated at 0.3 tonnes of HFC-134a.
Joint foam/soft foam/aerosol sprays
The emission of HFCs from joint foam and soft foam (open cell foam) accounts for 100% of the consumption in the year of application /4/. The emission from soft foam occurs during production and it is thus not necessary to correct for import/export.
Joint foam is no longer produced in Denmark, leaving only emissions from imported joint foam products to be accounted for. The determination of joint foam imports is based on previous information made available by the producers /2/. An estimated average of 100 grams of HFC-134a and 25 grams of HFC-152 per can of joint foam is considered reasonable. The emission calculation assumes that the joint foam is used in the same year as the production year.
It is estimated by the producers that in 1998 the amount of imported HFC-based joint foam was equivalent to 10 tonnes of HFC-134a and 1 ton of HFC-152a. This import quantity is also assumed for 2001, following which the consumption will be phased-out. This is equivalent to a GWP contribution from joint foam in 2001 of 13,140 tonnes CO2 equivalents.
The emission of HFC in the production of soft foam is identical to the consumption in Denmark and the emission of HFC as a propellant used in aerosol sprays is equal to the consumption of HFC-based aerosol sprays in Denmark after adjusting for import and export. The total emission from these two areas is 43.1 tonnes of HFC-134a, equivalent to 57,000 tonnes CO2 equivalents, and 11.1 tonnes of HFC-152a, equivalent to 1,600 tonnes CO2 equivalents, which is a small decrease compared with 2000.
Medical supplies
Due to marginal emissions the HFC emission from medical supplies has not been evaluated this year.
4.4.3 Emission of sulphur hexafluoride
The total emission of SF6 in 2001 has been determined at approx. 1.3 tonnes, equivalent to a GWP contribution of approx. 30,400 tonnes CO2 equivalents. The net consumption was 4.7 tonnes.
The emissions derive from four sources, of which power switches and sealed glazing units for windowpanes are the main sources, contributing approx. 41 % and 34 %.
Sealed glazing units for windowpanes. The emission determination for SF6 from sealed glazing units for windowpanes has been evaluated using information from producers and industry experts. The emission factors below are employed in the determination. The emission of SF6 in the life cycle of a sealed glazing units for windowpanes consists of three phases:
| Production, 15% resulting from filling. |
| Ongoing release following installation, 1% per year. |
| Emission during disposal of windows, equivalent to the remaining quantity of SF6. Based on an average expected lifetime of 20 years this gives an emission of 66 % during treatment. The determination assumes that the gas is not released from the windows prior to disposal. |
The determination of import and export of sealed glazing units for window panes filled with SF6 takes into account an estimated net export of 50 %.
Table 4.15.
Emission of SF6 from sealed glazing units for windowpanes, tonnes
|
2001 |
2010 |
2015 |
Consumption |
0.2 |
0 |
0 |
Emission from production |
0 |
0 |
0 |
Release from installed sealed glazing units for window panes |
0.4 |
0.4 |
0.2 |
Export |
0.1 |
0 |
0 |
Emission during disposal |
0 |
0 |
3.7 |
Stock |
39.9 |
36.5 |
18.5 |
Actual emission |
0.4 |
0.4 |
3.9 |
GWP contribution, ‘000 tonnes CO2 equivalents |
10.2 |
8.8 |
94.5 |
The projections assume that the consumption will be zero in 2003. In subsequent years the
emission will rise again due to the start of disposal /substitution of windows with SF6
thermal glass and in 2015 it is estimated that the GWP contribution from thermal glass
will be 94,500 tonnes CO2 equivalents.
Metal work
Metal workers in Denmark no longer use sulphurhexafluoride in magnesium smelting.
Power switches in high-voltage plant
Power switches are filled or refilled with SF6, either during new installations of plant or during service and repair. The filling is usually carried out at new plant and a small proportion of the consumption is due to re-filling /11/.
Emissions from power switches in high-voltage plant are released according to the following:
| release of 5 % on filling with new gas |
| ongoing release of 0.5 % of the stock |
| release of 5 % on drawing off and recycling of used gas |
No emission is assumed to result from disposal since the used SF6 is drawn off from the power switches and is either re-used internally by the power enterprise concerned or is re-used externally through means of a collection scheme. The emission resulting from external re-use is determined on the assumption that 0.5 % of the annual stock is sent for external re-use.
Table 4.16 shows the evaluated actual emission from SF6 power switches.
Table 4.16
Emission of SF6 from power switches in high-voltage plant 2000, 2010, and
2015, tonnes
|
2001 |
2010 |
2015 |
Consumption |
4.4 |
3 |
3 |
Emission during service |
0.2 |
0.15 |
0.15 |
Emission from re-use |
0.02 |
0.02 |
0.03 |
Emission from stock |
0.28 |
0.4 |
0.46 |
Stock |
61.2 |
83.5 |
95.4 |
Actual emission |
0.50 |
0.6 |
0.6 |
GWP contribution, ‘000 tonnes of CO2 equivalents |
12.5 |
13.7 |
15.2 |
Laboratories
In 2001 the consumption for laboratory purposes measures 0.2 tonnes and the actual emission amounts to 5,000 tonnes CO2 equivalents.
Running shoes
Information provided by importers shows that the quantity of SF6 contained in imported running shoes totals approx. 1 tonne, imported during the period 1990-1998. The emission of SF6 occurs as a result of the disposal of the shoes. The emission from running shoes in 2001 is estimated at 0.11 tonnes as in previous years, which is equivalent to a GWP contribution of approx. 2,650 tonnes CO2 equivalents. The consumption of SF6 for use in running shoes will end in 2003.
4.4.4 Emission of perfluorinated hydrocarbons
The actual emission of perfluoropropane has been calculated at 22,000 tonnes CO2 equivalents in 2001 and the total consumption measures approx. 3.7 tonnes. Perfluoropropane is the only known perfluorinated hydrocarbon used in Denmark. The emission is released from refrigerants in commercial refrigerators and from cleaning liquids for electronics.
The consumption of perfluoropropane in refrigerants for commercial refrigerators in 2001 was 3.2 tonnes and the stock in commercial refrigerators was evaluated at approx. 26.5 tonnes. The emission in 2001 has been determined as approx. 2.6 tonnes, equivalent to a GWP contribution of 18,500 tonnes of CO2 equivalents. Since mixture products containing PFC are used in stationary refrigerators adjustments have not been made for the import and export of the substance in products.
The consumption of perfluoropropane in liquid cleaners for electronics has been reported as 0.5 tonnes in 2001 and the actual emission amounts to 3,600 tonnes of CO2 equivalents.
5 References
| /1/ | Arbejdsrapport nr. 20. Forbrug og emissioner af 8 fluorerede
og klorerede kulbrinter, Miljøstyrelsen, 1996. |
| /2/ | Miljøprojekt nr. 523. Ozonlagsnedbrydende stoffer og visse
drivhusgasser - 1998, Miljøstyrelsen, 2000. [Back] |
| /3/ | Udenrigshandelen fordelt på varer og land. Januar-december
1989, 1990-1999. Danmarks Statistik. [Back] |
| /4/ | Reference Manual and Workbook of the IPCC 1996 Revised
Guidelines for National Greenhouse Gas Inventories, IPCC Switzerland September 1996. [Back] |
| /5/ | Ozonlaget og drivhuseffekten. Miljøstyrelsen, april 1996. [Back] |
| /6/ | Beskyttelse af ozonlaget - nordisk perspektiv. Nordisk
Ministerråd, okt. 1997. [Back] |
| /7/ | DEFU Komiterapport 94. Håndtering af SF6 og dets
reaktionsprodukter i elforsyningsanlæg. |
| /8/ | Methods used to Estimate Emission Inventories of
Hydrofluorocarbons, Perfluorocarbons and Sulphur Hexafluoride. Draft report prepared for
the UNFCCC secretariat. March Consulting, May 1999. |
| /9/ | Hvor kommer luftforureningen fra? - fakta om kilder, stoffer
og udvikling. TEMA-rapport fra DMU, 29/1999. |
| /10/ | Erstatning af kraftige drivhusgasser (HFC'er, PFC'er, SF6).
Per Henrik Pedersen, Miljøstyrelsen 1998. (Substitutes for Potent Greenhouse Gases –
Final Report, Per Henrik Pedersen, Danish Environmental Protection Agency, 1999) [Back] |
| /11/ | Indsamling og genanvendelse af SF6 fra
højspændingsanlæg. Tomas Sander Poulsen, Miljøstyrelsen 2000. [Back] |
| /12/ | Denmark’s National Inventory Report – Submitted
under the UN Convention on Climate Change. Illerup, J.B., Lyck, E., Winther, M. Rasmussen,
E. DMU, 2000 Arbejdsrapport nr. 127 (http://arbejdsrapporter.dmu.dk). [Back] |
| /13/ | Arbejdsrapport nr. 580. Ozonlagsnedbrydende stoffer og visse
drivhusgasser -1999, Miljøstyrelsen, 2001. [Back] |
| /14/ | Denmark’s National Inventory Report. Submitted under the
UN Framework Convention on Climate Change 1990-1999. Emissions Inventories. Department of
Policy Analysis. Illerup, Lyck, Winther, 2001. 675 pp Research Notes from NERI 149
(http://www.dmu.dk/1_viden/2_publikationer/ 3_arbrapporter/rapporter/AR149.pdf) |
| /15/ | Annual Danish Atmospheric Emissions Inventory. 1999. Illerup,
Andersen, Winther, Lyck, Bruun. National Environmental Research Institute, Denmark. 8 pp. |
| /16/ | Revurdering af emissionsfaktorer for kommercielle køleanlæg
og mobile A/C og køleanlæg. Poulsen, T.S, COWI; Arbejdsrapport for Miljøstyrelsen,
2002. (I tryk) [Back] |
| /17/ | D.A.F prepare statistics of registered vehicles, analysed
into various categosries of vehicle. These statistics are updated annaully and used to
calculate Danish filling of HFC-134a in vehicles. [Back] |
Table 1.a
Ozone-depleting substances, their chemical formulas and ODP values. Regulated by the
Montreal Protocol.
Substance |
Chemical formula |
ODP values |
CFCs CFC-11 CFC-12 CFC-113 CFC-115 Other CFCs |
CFCl3 CF2Cl2 C2F3Cl3 C2F5Cl - |
1.0 1.0 0.8 0.6 - |
Tetrachloromethane |
CCl4 |
1.1 |
1,1,1-trichloroethane |
CH3CCl3 |
0.1 |
Halons Halon-1301 Halon-1211 Halon-2402 |
CF3Br CF2BrCl CF2BrCF2Br |
10 3 6 |
Methylbromide |
CH3Br |
0.6 (1) |
HCFCs HCFC-22 HCFC-123 HCFC-141 b HCFC-142 b |
CHF2Cl C2H3FCl2 C2H3F2Cl - |
0.055 0.11
0.065 |
| (1) | Changed from 0.7 to 0.6 at the 7th Meeting of the Parties to the Montreal Protocol, December, 1995. 0.6 is used in the determinations for 1996 and 1997. |
Table 1.b
Pure(1) greenhouse gases, their chemical formulas and GWP values,
stipulated in the Kyoto Protocol.
Substance name |
Chemical formula |
GWP value |
HFCs HFC-32 HFC-125 HFC-134 a HFC-143 a HFC-152 a HFC-245 HFC-365 HFC-404 a(2) HFC-401a(3) HFC-402a(4) HFC-407c(5) HFC-408a(6) HFC-409a(7) HFC-410a(8) HFC-507a(9) |
CH2FH2 C2HF5 CF3CFH2 C2H3F3 CF2HCH3
- - |
650 2,800 1,300 3,800 140 950 890 3,260 18 1,680 1,525 1,030 0 1,725 3,300 |
Sulphurhexafluoride |
SF6 |
23,900 |
Perfluorinated hydrocarbons Tetrafluoromethane (perfluoromethane) Fluoroethane (perfluoroethane) Fluoropropane (perfluoropropane) Fluorocyclobutane (perfluorocyclobutane) Fluorohexane (perfluorohexane) |
CF4 C2F6 C3F8 C-C4F8 C6F14 |
6,500 9,200 7,000 8,700 7,400 |
| (1) | Not having an ozone-depleting effect. |
| (2) | Mixture consisting of 52% HFC-143a, 44% HFC-125 and 4% HFC-134a. The GWP value is determined from this. |
| (3) | Mixture consisting of 53% HCFC-22, 13% HFC-152a and 34% HCFC-124. The GWP value is determined from this. |
| (4) | Mixture consisting of 38% HCFC-22, 60% HFC-125 and 2% propane. The GWP value is determined from this. |
| (5) | Mixture consisting of 25% HFC 125, 52% HFC 134a, and 23% HFC 32. The GWP value is determined from this. |
| (6) | Mixture consisting of 46% HFC 143a and 7% HFC 125. The GWP value is determined from this. |
| (7) | A HFCFC mixture consisting entirely of HCFCs, where the GWP value – in accordance with the climate convention guidelines – is 0, since the mixture does not contain greenhouse gases. The real GWP value is 1,440. |
| (8) | Mixture consisting of 50% HFC 32 and 50% HFC-125. |
| (9) | Mixture consisting of 50% HFC 125 and 50% HFC 143a. The GWP value is determined from this. |
Table 1.
Statistical data concerning import and export calculated as net export of fridges and
freezers (commercial + household).
Import/export of fridges/freezers
Key figures, refrigerant + foam: |
grams 134a |
Fridges/freezers |
351 |
Fridges |
305 |
Chest freezers |
404 |
Freezers |
367 |
Export, units |
1998 |
1997 |
1996 |
1995 |
1994 |
1993 |
1992 |
Fridges/freezers |
26 387 |
65 491 |
40 040 |
48 332 |
47 851 |
72 017 |
66 488 |
Fridges |
-109 550 |
4 308 |
-30 381 |
-90 011 |
-29 184 |
-11 382 |
-7 250 |
Chest freezers |
815 523 |
778 580 |
701 748 |
879 172 |
855 691 |
771 198 |
766 453 |
Freezers |
89 878 |
135 376 |
56 385 |
72 232 |
68 278 |
80 312 |
92 278 |
Export, units in total |
822 238 |
983 755 |
767 792 |
909 725 |
942 636 |
912 145 |
917 969 |
Export of foam (a16 chest freezers) |
6 715 |
205 175 |
66 044 |
30 553 |
86 945 |
140 947 |
151 516 |
HFC export, tons |
|
|
|
|
|
|
|
HFC 134a |
338.3 |
388.5 |
309.0 |
371.2 |
372.4 |
90.7 |
0.0 |
HFC 134a (foam) |
197.3 |
236.1 |
184.3 |
218.3 |
169.7 |
54.7 |
|
HFC 134a (refrigerant) |
141.0 |
152.4 |
124.7 |
152.9 |
202.7 |
36.0 |
|
HFC-134a (foam, exp) |
1.6 |
49.2 |
15.9 |
7.3 |
20.9 |
33.8 |
36.4 |
It should be noted that this is an over simplification since the quantity of HFC used for
foam and refrigerant varies depending on the producer and product size. The average
quantities used in evaluation are shown in Table 2.
Table 2.
Average content of HFC refrigerant in household refrigerators and commercial
refrigerators/freezers.
Category |
Fridge/freezer |
Fridge |
Chest freezer |
Freezer |
HFC-134a |
111 g |
65 g |
164 g |
127 g |
Table 3.
Statistical data on the import and export of cars and trucks.
Air conditioning |
Cars |
Trucks |
In total, tons |
Net import, 1998 |
151 385 |
26 249 |
|
Proportion with A/C |
151 38.5 |
13 124 |
|
Quantity of HFC 134a, kg |
11 353.875 |
16 405.625 |
27.8 |
Cars: 10% with A/C and 0.75 kg - 134a
Trucks: 50% with A/C and 1.25 kg - 134a
Table 4.
Projection, with 30% in 2005
Air conditioning |
Cars |
Trucks |
In total, tons |
Net import, 1998 |
151 385 |
26 249 |
|
Proportion with A/C |
45 415.5 |
13 124.5 |
|
Quantity of HFC 134a, kg |
34 061.625 |
16 405.625 |
50.5 |
Table 5.
Projection, with 50% in 2005, cars
Air conditioning |
Cars |
Trucks |
I alt, tons |
Net import, 1998 |
151 385 |
26 249 |
|
Proportion with A/C |
75 692.5 |
13 124.5 |
|
Quantity of HFC 134a, kg |
56 769.375 |
16 405.625 |
73.2 |
Appendix 3 - Consumption and emissions of ozone depleting substances in Greenland
Statistics Denmark registers both imports to Greenland and exports from Denmark to Greenland.
The trends in supply to Greenland during the period 1990 to 2001 are shown in Table 1.
Table 1.
Trends in supply to Greenland based on data from Statistics Denmark, tonnes.
Sub- stance |
1990 |
1991 |
1992 |
1993 |
1994 |
1995 |
1996 |
1997 |
1998 |
1999 |
2000 |
2001 |
CFC-11 |
5.5 |
0.1 |
4.5 |
0 |
2.2 |
1.6 |
0 |
0 |
2.1 |
1.9 |
<0.3 |
0 |
CFC-12 |
6.0 |
0 |
0.1 |
0 |
0.7 |
6.7 |
10.3 |
0 |
1.2 |
0 |
0 |
0 |
CFC-113 |
- |
- |
- |
- |
- |
- |
- |
- |
0 |
0 |
<0.2 |
0 |
CFC-115 |
- |
- |
- |
31 |
5.5 |
0 |
0 |
0.2 |
0.4 |
0 |
0 |
0 |
All CFCs |
13 |
7 |
6 |
31 |
8 |
8 |
10 |
0.2 |
3.7 |
1.9 |
<0.5 |
0 |
Based on the statistics available it was not possible to evaluate the consumption of
substances other than those shown in the table, as these are the only substances specified
individually. The export substance group "Halogen derivatives of methane, ethane or
propane", which is assumed to contain substances such as HFCs and HCFCs, represented
an export to Greenland of 10.1 tonnes in 2001. In 2000 the export was 0 tonnes and in 1999
it was 29.3 tonnes.
There is no information registered on imports of CFCs to Greenland in 2001. In 2000 the import was <0.5 tonnes and in 1999 it was 1.9 tonnes. The import of HCFC-22 cannot be quantified on the basis of information on foreign trade from Statistics Denmark.
The above data does not provide an ODP-weighted consumption for 2001.
Appendix 4 -GWP contribution from HFCs, PFCs, and SF6 1993-2020.The table below shows determined GWP contributions.
The emission projections are determined by starting with a ‘steady state’ consumption using 2001 as the reference year and employing a series of dates for the phasing-out of specific substances in accordance with the phasing-out process of strong greenhouse gases. A charge effect is also included in the relevant areas of application and expected increases in several application areas are taken into account as much as possible, as are reductions in several of the applications areas.
The calculated GWP contribution expresses the actual emission, corrected for import and export (the latest basis of determination).
Table 1.
GWP contribution, ‘000 tonnes from HFCs, PFCs and SF6 1993-20202
| 2 | In light of new knowledge, the determinations of the GWP contributions have been altered in relation to last year’s evaluation /13/. |