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Commission Regulation (EC) No 706/2007Show full title
Commission Regulation (EC) No 706/2007 of 21 June 2007 laying down, pursuant to Directive 2006/40/EC of the European Parliament and of the Council, administrative provisions for the EC type-approval of vehicles, and a harmonised test for measuring leakages from certain air conditioning systems (Text with EEA relevance)
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List of Annexes
ANNEX I
ADMINISTRATIVE DOCUMENTS FOR EC TYPE-APPROVAL
PART 1U.K.MODELInformation document No … relating to EC component type-approval of an air-conditioning system or of a component thereof
The following information, if applicable, must be supplied in triplicate and include a list of contents. Any drawings must be supplied in appropriate scale and in sufficient detail on size A4 or on a folder of A4 format. Photographs, if any, must show sufficient detail.
If the components have electronic controls, information concerning their performance must be supplied.
0GENERALU.K.
0.1Make (trade name of manufacturer): …U.K.
0.2Type: …U.K.
0.2.1Commercial name(s), if available: …U.K.
0.2.2Component material: …U.K.
0.2.3Drawing or scheme of a component: …U.K.
0.2.4Reference or part number of the component: …U.K.
0.5Name and address of manufacturer: …U.K.
0.7Location and method of affixing of the EC type-approval mark: …U.K.
0.8Address(es) of assembly plant(s): …U.K.
9.BODYWORKU.K.
9.10.8.Leakage in g/year of the leak component/air-conditioning system (if tested by the manufacturer)(1):U.K.
PART 2U.K.MODEL
EC TYPE-APPROVAL CERTIFICATE(maximum format: A4 (210 × 297 mm))U.K.
STAMP OF ADMINISTRATION
Communication concerning the
type-approval
extension of type-approval(2)
refusal of type-approval(2)
withdrawal of type-approval(2)
of a type of vehicle/component/separate technical unit(2) with regard to Directive 2006/40/EC, as implemented by Regulation (EC) No 706/2007(2).
Type-approval number …
Reason for extension …
SECTION IU.K.
0.1Make (trade name of manufacturer): …U.K.
0.2Type: …U.K.
0.2.1Commercial name(s), if available: …U.K.
0.3Means of identification of type, if marked on the vehicle/component/separate technical unit(2) …U.K.
0.5Name and address of manufacturer: …U.K.
0.7In the case of components and separate technical units, location and method of affixing of the EC type-approval mark: …U.K.
0.8Address(es) of assembly plant(s): …U.K.
SECTION IIU.K.
1Additional information (where applicable): (see Addendum)U.K.
2Technical service responsible for carrying out the tests: …U.K.
3Date of test report: …U.K.
4Number of test report: …U.K.
5Remarks (if any): (see Addendum)U.K.
6Place: …U.K.
7Date: …U.K.
8Signature: …U.K.
9The index to the information package lodged with the approval authority, which may be obtained on request, is attached.U.K.
AddendumU.K.to EC type-approval certificate No … concerning the type-approval of an air-conditioning system or leak component with regard to Directive 2006/40/EC
1Additional information
1.1Brief description of the system or leak component: …
1.2Leakage in g/year(3): …
1.3Remarks: (e.g., valid for left-hand drive and right-hand drive vehicles): …
PART 3U.K.EC COMPONENT TYPE-APPROVAL MARK
1.GENERALU.K.
1.1.The EC component type-approval mark consists of:U.K.
1.1.1.a rectangle surrounding the lower case letter ‘e’ followed by the distinguishing number or letters of the Member State which has granted the EC component type-approval:U.K.
1 for Germany
2 for France
3 for Italy
4 for the Netherlands
5 for Sweden
6 for Belgium
7 for Hungary
8 for the Czech Republic
9 for Spain
11 for the United Kingdom
12 for Austria
13 for Luxembourg
17 for Finland
18 for Denmark
19 for Romania
20 for Poland
21 for Portugal
23 for Greece
24 for Ireland
[F125 for Croatia]
26 for Slovenia
27 for Slovakia
29 for Estonia
32 for Latvia
34 for Bulgaria
36 for Lithuania
49 for Cyprus
50 for Malta,
1.1.2.in the vicinity of the rectangle the ‘base approval number’ contained in Section 4 of the type-approval number referred to in Annex VII of Directive 70/156/EEC, preceded by the two figures indicating the sequence number assigned to the most recent major technical amendment to Directive 2006/40/EC or this Regulation on the date the EC component type-approval was granted. For this Regulation, the sequence number is 00.U.K.
1.2.The EC component type-approval mark must be clearly legible and indelible.U.K.
2.EXAMPLE OF THE EC COMPONENT TYPE-APPROVAL MARKU.K.
PART 4U.K.MODELInformation document No … relating to EC type-approval of a vehicle with regard to emissions from air-conditioning system
The following information, if applicable, must be supplied in triplicate and include a list of contents. Any drawings must be supplied in appropriate scale and in sufficient detail on size A4 or on a folder of A4 format. Photographs, if any, must show sufficient detail.
If the components have electronic controls, information concerning their performance must be supplied.
0GENERALU.K.
0.1Make (trade name of manufacturer): …U.K.
0.2Type: …U.K.
0.2.1Commercial name(s), if available: …U.K.
0.3Means of identification of type, if marked on the vehicle/component/separate technical unit(4) …U.K.
0.3.1Location of that marking: …U.K.
0.4Category of vehicle: …U.K.
0.5Name and address of manufacturer: …U.K.
0.7In the case of components and separate technical units, location and method of affixing of the EC type-approval mark …U.K.
0.8Address(es) of assembly plant(s) …U.K.
9.BODYWORKU.K.
9.10.8The air-conditioning system is designed to contain fluorinated greenhouse gases with a global warming potential higher than 150: YES/NO(4) U.K.
Gas used as refrigerant: …
If YES, fill in the following sections
9.10.8.1Drawing and brief description of the air-conditioning system, including the reference or part number and material of the leak components: …U.K.
9.10.8.2Leakage in g/year of the air-conditioning system: …U.K.
9.10.8.2.1.In case of leak component testing: list of leak components including the corresponding reference or part number and material, with their respective yearly leakages and information about the test (e.g. test report no., approval No, etc.): …U.K.
9.10.8.2.2.In case of system testing: reference or part number and material of the components of the system and information about the test (e.g. test report No, approval no., etc.): …U.K.
PART 5U.K.MODEL
EC TYPE-APPROVAL CERTIFICATE(maximum format: A4 (210 × 297 mm))U.K.
STAMP OF ADMINISTRATION
Communication concerning the
type-approval
extension of type-approval(5)
refusal of type-approval(5)
withdrawal of type-approval(5)
of a type of vehicle/component/separate technical unit(5) with regard to Directive 2006/40/EC, as implemented by Regulation (EC) No 706/2007.
Type-approval Number: …
Reason for extension: …
SECTION IU.K.
0.1Make (trade name of manufacturer): …U.K.
0.2Type: …U.K.
0.2.1Commercial name(s), if available: …U.K.
0.3Means of identification of type, if marked on the vehicle/component/separate technical unit(5) …U.K.
0.3.1Location of that marking: …U.K.
0.4Category of vehicle: …U.K.
0.5Name and address of manufacturer: …U.K.
0.7In the case of components and separate technical units, location and method of affixing of the EC type-approval mark: …U.K.
0.8Address(es) of assembly plant(s): …U.K.
SECTION IIU.K.
1Additional information (where applicable): (see Addendum)U.K.
2Technical service responsible for carrying out the tests: …U.K.
3Date of test report: …U.K.
4Number of test report: …U.K.
5Remarks (if any): (see Addendum)U.K.
6Place: …U.K.
7Date: …U.K.
8Signature: …U.K.
9The index to the information package lodged with the approval authority, which may be obtained on request, is attached.U.K.
AddendumU.K.to EC type-approval certificate No … concerning the type-approval of a vehicle with regard to Directive 2006/40/EC
1Additional information
1.1Brief description of the vehicle type as regards its air-conditioning system: …
1.2The air-conditioning system using a fluorinated greenhouse gas with a global warming potential higher than 150: YES/NO
Gas used as refrigerant:
If YES, fill in the following sections
1.3Overall leakage in g/year: …
1.4Remarks: (e.g., valid for left-hand drive and right-hand drive vehicles): …
Textual Amendments
F1 Inserted by Commission Regulation (EU) No 519/2013 of 21 February 2013 adapting certain regulations and decisions in the fields of free movement of goods, freedom of movement for persons, right of establishment and freedom to provide services, company law, competition policy, agriculture, food safety, veterinary and phytosanitary policy, fisheries, transport policy, energy, taxation, statistics, social policy and employment, environment, customs union, external relations, and foreign, security and defence policy, by reason of the accession of Croatia.
ANNEX II
TECHNICAL PROVISIONS FOR THE DETERMINATION OF LEAKAGES FROM AIR-CONDITIONING SYSTEMSU.K.
1.INTRODUCTIONU.K.
This annex applies to vehicles with an air-conditioning system (AC) designed to contain fluorinated greenhouse gases with a global warming potential higher than 150, in order to evaluate the release to the atmosphere of refrigerant fluid. Topics addressed in this Annex include:
1.
Equipment requirements
2.
Test conditions
3.
Test procedure and data requirements
2.DESCRIPTION OF TESTU.K.
2.1.The air-conditioning leakage test is designed to determine the amount of hydro-fluoro-carbons (HFC-134a) released to the atmosphere from vehicles fitted with an air-conditioning system, as a consequence of the normal operation of such a system.U.K.
2.2.The test can be undertaken on the whole vehicle, on the air-conditioning system or on individual leak components.U.K.
2.3.Leak components need to be tested without additional oil involved. Residual oil from the manufacturing process can stay in. Compressors use standard charge of oil.U.K.
2.4.The individual components boundaries have to be within a metal tube area. The boundary sections have to be sealed tightly by welding or brazing. One of the components boundaries may, if appropriate, be connected to a suitable volume metal container holding the two-phase refrigerant.U.K.
2.5.The HFC-134a container and leak component has to be filled with two-phase (liquid and vapour) refrigerant HFC-134a to maintain constant pressure at the required temperature level by heating means. The leak component under pre-conditioning or under test is installed in the sealed enclosure. The temperature of the component is maintained at the requested preconditioning or testing temperature in order to have only the vapour phase of HFC-134a inside the component. For complete air-conditioning systems the actual nominal charge has to be used. The manufacturer recommended oil concentration and type should be used.U.K.
2.6.Every leak component of the air-conditioning system shall be submitted to a test except those considered as leak free.U.K.
2.6.1.The following components are considered leak free:U.K.
Evaporator without connections
Metallic tubes without connections
Condenser without serviceable integrated dryer without connections
Receiver/dryer without connections
Accumulator without connections.
2.7.The worst case sample of a leak component or an air-conditioning system shall be chosen for testing.U.K.
2.8.Mass leakage of refrigerant fluid from any leak component is added up to provide an overall result for the test.U.K.
3.TEST EQUIPMENTU.K.
The test has to be undertaken in a sealed enclosure including an equipment to ensure a homogeneous concentration of gas and the use of a gas analysis method.
All the equipment used during the test shall be calibrated with relation to reference equipment.
3.1.Measurement enclosureU.K.
3.1.1.For the pre-conditioning phase, the temperature conditioning system must be capable of controlling the internal air temperature throughout the duration of this phase, with a tolerance of ± 3 K.U.K.
3.1.2.For the measurement phase, the leakage measurement enclosure must be a sealed gas-tight measurement enclosure able to contain the system, component under test. The enclosure when sealed must be gas tight in accordance with the Appendix. The inner surface of the enclosure must be impermeable and non-reactive to the air-conditioning refrigerant fluid. The temperature conditioning system must be capable of controlling the internal enclosure air temperature throughout the test, with an average tolerance of ± 1 K over the duration of the test.U.K.
3.1.3.The measurement enclosure must be constructed with rigid panels that maintain a fixed enclosure volume.U.K.
3.1.4.The inner size of the measurement enclosure shall be appropriate to contain the components or systems to be tested with the required accuracy.U.K.
3.1.5.Gas and temperature homogeneity inside the measurement enclosure shall be ensured by mean of at least one recirculation fan or an alternative method that can be demonstrated to provide homogeneous temperature and gas concentration.U.K.
3.2.Measuring equipmentU.K.
3.2.1.The amount of HFC-134a released shall be measured by means of gas chromatography, infrared spectro-photometry, mass spectrometry, infrared photo-acoustic spectroscopy (see the Appendix).U.K.
3.2.2.If the used technique is not one of the mentioned before, equivalency shall have to be demonstrated and the equipment has to be calibrated with a procedure similar as described in the Appendix.U.K.
3.2.3.The target accuracy of the measuring equipment for the total air-conditioning system is established in ± 2 g/year.U.K.
3.2.4.Equipment for gas analysis, combined with any other equipment, which allows an accuracy down to 0,2 grams/year shall be used for any component test.U.K.
3.2.5.For components where it is very difficult to achieve the above mentioned accuracy the number of samples in each test can be increased.U.K.
3.2.6.The repeatability of the analyser expressed as one standard deviation must be better than 1 % of full scale deflection at zero and at 80 % ± 20 % of full scale on all ranges used.U.K.
3.2.7.The zero and span of the gas analyser must be calibrated before any test according to manufacturer instructions.U.K.
3.2.8.The operational ranges of the analyser must be chosen to give best resolution over the measurement, calibration and leak checking procedures.U.K.
3.3.Gas analyser data recording systemU.K.
3.3.1.The gas analyser must be fitted with a device to record electrical signal output either by strip chart recorder or other data processing system at a frequency of at least once per 60 minutes. The recording system must have operating characteristics at least equivalent to the signal being recorded and must provide a permanent record of results. The record must show a positive indication of the beginning and end of the test (including beginning and end of sampling periods along with the time elapsed between start and completion of each test).U.K.
3.4.Additional equipmentU.K.
3.4.1.Temperature recordingU.K.
3.4.1.1.The temperature in the measurement enclosure is recorded at one or two points by temperature sensors which are connected so as to show a mean value. The measuring points shall be representative of the temperature inside the measurement enclosure.U.K.
3.4.1.2.Temperatures must, throughout the HFC-134a leakage measurements, be recorded or entered into a data processing system having a frequency of at least once per minute.U.K.
3.4.1.3.The accuracy of the temperature recording system must be within ± 1,0 K.U.K.
3.4.2.Pressure measuring deviceU.K.
3.4.2.1.The accuracy of the pressure recording system for Pshed must be within ± 2 hPa and the pressure must be capable of being resolved to ± 0,2 hPa.U.K.
3.4.3.FansU.K.
3.4.3.1.By the use of one or more fans, blowers or other appropriate method, like N2 flush, it must be possible to reduce the HFC-134a concentration in the measurement enclosure to the ambient level.U.K.
3.4.3.2.The leak component or system to be tested in the enclosure must not be subjected to a direct stream of air from the fans or blowers when used.U.K.
3.4.4.GasesU.K.
3.4.4.1.Where specified by the supplier of the gas analyser, the following gases must be available for calibration and operation:U.K.
purified synthetic air with an oxygen content between 18 % and 21 % by volume,
HFC-134a, 99,5 % minimum purity,
3.4.4.2.Calibration and span gases must be available containing mixtures of HFC-134a and purified synthetic air or any other suitable inert gas. The true concentrations of a calibration gas must be within ± 2 % of stated figures.U.K.
4.PRECONDITIONINGU.K.
4.1.General requirementU.K.
4.1.1.Before preconditioning and leakage measurement is performed, the air-conditioning system is to be evacuated and charged with the specified nominal charge of HFC-134a.U.K.
4.1.2.In order to ensure saturated conditions during the whole duration of the test, including preconditioning phase, each ‘leak’ component, with or without additional container, is to be evacuated and charged with sufficient amount of HFC-134a but not exceeding 0,65 g/cm3 of the total inner volume of the leak component or container.U.K.
4.2.Preconditioning conditionsU.K.
4.2.1.The applicant for approval may choose to conduct preconditioning either in a single step at 40 °C or in a two step approach of shorter total duration. The two step approach shall involve two sequential stages, the first at 50 °C immediately followed by the second at 40 °C. The duration of preconditioning shall be as shown below.U.K.
| Option 1 | Option 2 | ||
|---|---|---|---|
| System part | 40 °CTime[h] | Step 1 — 50 °CTime[h] | Step 2 — 40 °CTime[h] |
| Complete system | 480 | 240 | 24 |
| Compressor | 144 | 72 | 24 |
| Hose assemblies | 480 | 240 | 24 |
| All other leak parts | 96 | 48 | 24 |
Shorter preconditioning times can be used if it can be demonstrated the steady state (constant loss rate) regarding permeation losses has been reached.
4.2.2.After preconditioning, the leak components or system have to be placed in the measurement enclosure for the leak test within four hours.U.K.
4.3.CompressorU.K.
4.3.1.When necessary for lubrication and seal running-in, compressor may be run in between preconditioning and test during a minimum period of 1 min at minimum speed of 200 rpm.U.K.
4.3.2.The HFC-134a charge in the leak component or air-conditioning system has to be kept intact between preconditioning and measurement in order not to loose the preconditioning effect. This means that the same configuration has to be submitted to both preconditioning and measurement without disassembling and re-assembling in between.U.K.
5.TEST SEQUENCEU.K.
5.1.General requirementsU.K.
The test sequence, in figure I, shows the steps to be followed during the development of the test.
5.2.Leakage testU.K.
5.2.1.The test is to be undertaken at static and steady state conditions at the temperature of 313 K (40 °C). Differences in HFC-134a concentration over the test time is used to calculate annual losses.U.K.
5.2.2.The measurement enclosure must be purged for several minutes until a stable background is obtained.U.K.
5.2.3.Prior to the test the background level in the measurement enclosure must be measured and the gas analyzer zeroed and spanned.U.K.
5.2.4.In case the configuration is moved from the preconditioning to a different measurement chamber, the start of the measuring period shall be not earlier than four hours after the measurement enclosure is closed, sealed and test temperature set.U.K.
5.2.5.The leak component or system is then introduced in the measurement enclosure.U.K.
5.2.6.The measurement enclosure is closed and sealed gas-tight. The test chamber has to be completely filled at atmospheric pressure with a reference gas (e.g. clean air).U.K.
5.2.7.The test period begins when the measurement enclosure is sealed and the temperature in the measurement enclosure reaches 313 K (40 °C). The temperature is maintained at that value until the end of the testing period. The HFC-134a concentration, temperature and barometric pressure are measured to give the initial readings CHFC-134ai; Pshed and Tshed for the testing period but not earlier than four hours after closing the measurement enclosure and setting the test temperature as specified in section 5.2.4. These values are used in the leakage calculation according to section 5.3.U.K.
5.2.8.The nominal measurement period shall be 24 hours. A shorter period is allowed provided that sufficient accuracy can be demonstrated.U.K.
5.2.9.The gas analyser must be zeroed and spanned immediately after the end of the testing period.U.K.
5.2.10.At the end of the testing period the HFC-134a concentration, temperature and barometric pressure in the measurement enclosure must be measured. These are the final readings CHFC-134af, Pshed and Tshed for the leakage calculation according to section 5.3.U.K.
5.3.CalculationU.K.
5.3.1.The test described in section 5.2 allows the HFC-134a emissions to be calculated. Leakage is calculated using the initial and final HFC-134a concentrations, temperatures and pressures in the enclosure, together with the net measurement enclosure volume.U.K.
The total Leakage-Mass HFC-134a is calculated by means of the following formula:
where:
 HFC-134a | = Leak flow rate of HFC-134a | [kg/s] |
| nHFC-134a | = Number of moles of HFC-134a | [mol] |
| Vshed | = SHED-chamber net volume | [m3] |
| VAC | = Gross volume of the air-conditioning system or component | [m3] |
| Tshed | = Temperature in the SHED | [K] |
| Pshed | = Pressure in the SHED | [kPa] |
| CHFC-134ae | = HFC-134a final concentration | [ppmv] |
| CHFC-134ai | = HFC-134a initial concentration | [ppmv] |
| te | = Final time | [s] |
| ti | = Initial time | [s] |
| MHFC-134a | = Molar mass of HFC-134a(=102 kg/kmol) | [kg/kmol] |
| R | = Gas constant(= 8,314 kJ/(kmol*K)) | [kJ/(kmol*K)] |
NB: CHFC-134a is defined as the number of moles of HFC-134a (nHFC-134a) per mole of air (nair+HFC-134a)U.K.
ppmv: parts per million volume/volume equivalent to mol/mol.
5.3.2.The mass in grams, obtained as a function of the time, shall be transformed to grams/year (g/y).U.K.
5.4.Overall results of testU.K.
The total leakage for the complete air-conditioning system is calculated by adding the partial values for any of the leak component tested.
6.APPROVALU.K.
1.The tested air-conditioning system shall be approved if the value L (g/y) is lower than the values expressed in the next table, according to Directive 2006/40/EC:U.K.
| a In case of dual evaporation system. | |
| L (g/y) | AC Refrigerant |
|---|---|
| 40/60a | HFC-134a |
2.The leak component shall be approved if it has been tested in accordance with the requirements of Sections 2 to 5.3.U.K.
Appendix
Calibration of equipment for leakage testingU.K.
1.CALIBRATION FREQUENCY AND METHODSU.K.
1.1.All equipment must be calibrated before its initial use and then calibrated as often as necessary and in any case in the period of six months before type-approval testing. The calibration methods to be used (for equipment listed in paragraph 3.2.1 of Annex II to this Regulation) are described in this Appendix.U.K.
2.CALIBRATION OF THE MEASUREMENT ENCLOSUREU.K.
2.1.Initial determination of measurement enclosure internal volumeU.K.
2.1.1.Before its initial use, the internal volume of the measurement enclosure must be determined as follows. The internal dimensions of the measurement enclosure are carefully measured, allowing for any irregularities such as bracing struts. The internal volume of the measurement enclosure is determined from these measurements.U.K.
2.1.2.The net internal volume is determined by subtracting the volume of the test component or system from the internal volume of the measurement enclosure.U.K.
2.1.3.The measurement enclosure must be leak checked as in 2.3. If the gas mass does not agree with the injected mass to within ± 2 % then corrective action is required.U.K.
2.2.Determination of measurement enclosure background emissionsU.K.
This operation determines that the measurement enclosure does not contain any materials that emit significant amounts of HFC-134a. The check must be carried out at the enclosure's introduction to service, after any operations in the enclosure which may affect background emissions and at a frequency of at least once per year.
2.2.1.The temperature within the measurement enclosure must be maintained at 313 K ± 1 K (40 °C ± 1 °C) throughout the four-hour period mentioned below.U.K.
2.2.2.The measurement enclosure may be sealed and the mixing fan operated for a period of up to two hours before the four-hour background sampling period begins.U.K.
2.2.3.The analyser (if required) must be calibrated, then zeroed and spanned.U.K.
2.2.4.The measurement enclosure must be purged until a stable reading is obtained, and the mixing fan turned on if not already on.U.K.
2.2.5.The measurement enclosure is then sealed and the background concentration, temperature and barometric pressure are measured. Preferably the HFC-134a concentration is set to zero by purging or by evacuating the measuring enclosure. These are the initial readings CHFC-134a, Pshed and Tshed used in the enclosure background calculation.U.K.
2.2.6.The enclosure is allowed to stand undisturbed with the mixing fan on for a period of four hours.U.K.
2.2.7.At the end of this time the same analyser is used to measure the concentration in the measuring enclosure. The temperature and the barometric pressure are also measured. These are the final readings CHFC-134a, Pshed and Tshed.U.K.
2.3.Calibration and HFC-134a retention test of the measuring enclosureU.K.
The calibration and HFC-134a gas retention test in the measuring enclosure provides a check on the calculated volume in 2.1 and also measures any leak rate. The measuring enclosure leak rate must be determined at the chamber's introduction to service, after any operations in the measuring enclosure which may affect the integrity of the enclosure, and at least quarterly thereafter.
2.3.1.The measuring enclosure must be purged until a stable concentration is reached. The mixing fan is turned on, if not already switched on. The analyser is zeroed, calibrated if required, and spanned.U.K.
2.3.2.The ambient temperature control system is then turned on (if not already on) and adjusted for a temperature of 313 K (40 °C).U.K.
2.3.3.When the measuring enclosure stabilizes at 313 K ± 1 K (40 °C ± 1 °C), the enclosure is sealed and the background concentration, temperature and barometric pressure measured. These are the initial readings CHFC-134a, Pshed and Tshed used in the enclosure calibration.U.K.
2.3.4.A known quantity of HFC-134a is injected in the measurement enclosure. The mass to be injected depends on the volume of the measurement enclosure using the following equation:U.K.
where:
| mHFC-134a | = Mass of HFC-134a | [kg] |
| Vshed | = Volume of the chamber | [m3] |
| Tshed | = Temperature in the SHED | [K] |
| Pshed | = Pressure in the SHED | [kPa] |
| C | = HFC-134a concentration | [ppmv] |
| MHFC-134a | = Molar mass of HFC-134a (= 102 kg/kmol) | [kg/kmol] |
| R | = Gas constant (= 8,314 kJ/(kmol*K)) | [kJ/(kmol*K)] |
NB: CHFC-134a is defined as the number of moles of HFC-134a (nHFC-134a) per mole of air (nair+HFC-134a)U.K.
Using this equation the following table shows for different volumes of measurement enclosures the quantity of HFC-134a to be injected. The assumptions are: pressure is the atmospheric pressure (101,3 kPa), and the temperature in the measurement enclosure is of 40 °C.
| Volume of measurement enclosure(L) | Injected mass(g) |
|---|---|
| 5 | 6,0E-04 |
| 10 | 1,2E-03 |
| 50 | 6,0E-03 |
| 100 | 1,2E-02 |
| 500 | 6,0E-02 |
| 1 000 | 1,2E-01 |
| 2 000 | 2,4E-01 |
| 3 000 | 3,6E-01 |
| 4 000 | 4,8E-01 |
For the very small injected quantities, standard compositions of HFC-134a in nitrogen can be used. The measurement enclosure has to be evacuated and filled in with a non standard concentration.
2.3.5.The content of the measurement enclosure must be allowed to mix for five minutes and then the gas concentration, temperature and barometric pressure are measured. These are the final readings CHFC-134af, Pshed and Tshed for the calibration of the measurement enclosure as well as the initial readings CHFC-134ai, Pshed and Tshed for the retention check.U.K.
2.3.6.On the basis of the readings taken in sections 2.3.3 and 2.3.5 and the formula in section 2.3.4, the mass of HFC-134a in the measurement enclosure is calculated.U.K.
2.3.7.The process is then begun, maintaining the ambient temperature at a level of 313 K ± 1 K (40 °C ± 1 °C) over a 24-hour period.U.K.
2.3.8.At the completion of the 24-hour period, the final HFC-134a concentration, temperature and barometric pressure are measured and recorded. These are the final readings CHFC-134af, Tshed and Pshed for the HFC-134a retention check.U.K.
2.3.9.Using the formula in section 2.3.4, the HFC-134a mass is then calculated from the readings taken in section 2.3.8. The mass may not differ by more than 5 % from the HFC mass given by section 2.3.6.U.K.
3.CALIBRATION OF THE HFC ANALYSERU.K.
3.1.The analyser must be adjusted as specified by the instrument manufacturerU.K.
3.2.The analyser should be calibrated using the appropriate reference gases.U.K.
3.3.Establish the calibration curve by at least five calibration points spaced as evenly as possible over the operating range. The nominal concentration of the calibration gas with the highest concentrations to be at least 80 % of the measured values.U.K.
3.4.Calculate the calibration curve by the method of least squares. If the resulting polynomial degree is greater than 3, then the number of calibration points must be at least the number of the polynomial degree plus 2.U.K.
3.5.The calibration curve must not differ by more than 2 % from the nominal value of each calibration gas.U.K.
3.6.Using the coefficients of the polynomial derived from section 3.4, a table of indicated reading against true concentration shall be drawn up in steps of no greater than 1 % of full scale. This is to be carried out for each analyser range calibrated. The table shall also contain other relevant data such as:U.K.
date of calibration,
span and zero potentiometer readings (where applicable),
nominal scale,
reference data of each calibration gas used,
the actual and indicated value of each calibration gas used together with the percentage differences.
3.7.If it can be shown to the satisfaction of the approval authority that alternative technology (e.g. computer, electronically controlled range switch) can give equivalent accuracy, then those alternatives may be used.U.K.
Textual Amendments
F1 Inserted by Commission Regulation (EU) No 519/2013 of 21 February 2013 adapting certain regulations and decisions in the fields of free movement of goods, freedom of movement for persons, right of establishment and freedom to provide services, company law, competition policy, agriculture, food safety, veterinary and phytosanitary policy, fisheries, transport policy, energy, taxation, statistics, social policy and employment, environment, customs union, external relations, and foreign, security and defence policy, by reason of the accession of Croatia.
(1)
Delete where appropriate. Fill in only if the component/system is designed for use of a fluorinated greenhouse gas with a global warming potential higher than 150.
(2)
Delete where appropriate.
(3)
Fill in only if the system is designed for use of a fluorinated greenhouse gas with a global warming potential higher than 150.
(4)
Delete where appropriate.
(5)
Delete where appropriate.
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