Article 1U.K.Subject matter

This Regulation establishes detailed arrangements with regard to the selection of engines, test procedures and reporting of results relating to monitoring of gaseous pollutant emissions from in-service internal combustion engines installed in non-road mobile machinery using portable emission measurement systems.

Article 2U.K.Scope

1.This Regulation applies to monitoring of the gaseous pollutant emissions from the following categories of in-service engines of emission Stage V installed in non-road mobile machinery:

(a)NRE-v-5;

(b)NRE-v-6.

2.This Regulation applies to engine manufacturer.

This Regulation does not apply to original equipment manufacturer.

3.This Regulation does not apply where the manufacturer demonstrates to the approval authority that it is not able to obtain access to any engine installed in a non-road mobile machinery for the purposes of in-service monitoring.

Article 3U.K.Procedures and requirements for monitoring of emissions of in-service engines

Gaseous pollutant emissions from in-service engines referred to in Article 19(1) of Regulation (EU) 2016/1628 shall be monitored in accordance with the Annex to this Regulation.

[F1Article 3a U.K. Transitional provisions

1. Notwithstanding the application of the provisions of this Regulation, as amended by Commission Delegated Regulation (EU) 2018/987 (2) , approval authorities shall, until 31 December 2018 , also continue to grant EU type-approvals to engine types or engine families in accordance with this Regulation, in its version applicable on 6 August 2018 .

2. Notwithstanding the application of the provisions of this Regulation, as amended by Delegated Regulation (EU) 2018/987, the Member States shall, until 30 June 2019 , also permit the placing on the market of engines based on an engine type approved in accordance with this Regulation, in its version applicable on 6 August 2018 .]

Article 4U.K.Entry into force

This Regulation shall enter into force on the twentieth day following that of its publication in the Official Journal of the European Union.

ANNEXU.K.

1. General requirements for in-service monitoring U.K.

1.1.For the purposes of this Annex ‘category of non-road mobile machinery’ means a grouping of non-road mobile machinery that fulfil the same generic function(s),U.K.

1.2.The manufacturer shall obtain access to engines installed in non-road mobile machinery in order to conduct in-service monitoring tests.U.K.

When conducting the in-service monitoring test the manufacturer shall perform the emissions data sampling, measurement of exhaust parameters and data logging of an in-service engine installed in a non-road mobile machinery operated over its normal operating duty cycles until reaching the minimum test duration as set out in point 2 of Appendix 2.

1.3.Engines subject to in-service monitoring test shall:U.K.

1.4.The following engines shall be considered as non-eligible for in-service monitoring test, and an alternative engine shall be selected:U.K.

1.5.Engines where the collection of ECU data influences the non-road mobile machinery gaseous pollutant emissions or performance shall be considered as non-eligible for in-service monitoring test. Notwithstanding the requirements of article 39 of Regulation (EU) 2016/1628, an alternative engine shall only be selected if the manufacturer can substantially prove to the approval authority the absence of any defeat strategy.U.K.

2. Plan for monitoring in-service engines U.K.

2.1.The manufacturer shall submit to the approval authority that has granted approval of an engine type or, where applicable, engine family, within 1 month of the start of production of the approved engine type or engine family, the initial plan for monitoring in-service engines.U.K.

2.2.The initial plan shall include the criteria used for and the justification of the selection of:U.K.

2.3.Manufacturers shall submit to the approval authority an updated plan for monitoring in-service engines whenever the list of particular engine(s) and non-road mobile machinery selected is completed or revised. The updated plan shall be include a justification of the criteria used for the selection and the reasons for revising the previous list, if applicable.U.K.

2.4.The approval authority shall approve the initial and subsequently updated plan(s) or request the appropriate amendments within 2 months of their submission, and shall ensure that the final plan includes the widest variety of engine types and categories of non-road mobile machinery.U.K.

2.5.Each initial or subsequently updated monitoring plan shall be approved by the approval authority before the testing of engines and non-road mobile machinery identified therein is started.U.K.

2.6.Testing schemeU.K.

The manufacturer shall choose one of the following testing schemes for in-service monitoring:

2.6.1.Testing scheme based on the Emission Durability Period (EDP)U.K.

[F22.6.1.1. Testing 9 engines with an accumulated service of less than a  % of the EDP, in accordance with Table 1. Test results shall be submitted to the approval authority by 31 December 2022 . U.K.

2.6.1.2. Testing 9 engines with an accumulated service higher than b % of the EDP, in accordance with Table 1. Test reports shall be submitted to the approval authority by 31 December 2024 .] U.K.

2.6.1.3.When the manufacturer cannot fulfil the requirement under point 2.6.1 due to an unavailability of engines with the required service accumulation, the approval authority shall not reject a change to the testing scheme based on a 4 years' period set out in point 2.6.2. Engines already tested in accordance with point 2.6.1 shall remain valid under point 2.6.2.U.K.

2.6.2.Testing scheme based on a 4 years' periodU.K.

Testing nine engines per year during 4 consecutive years. Test reports shall be submitted to the approval authority every year.

[F22.6.2.1. The test results of the first nine engines shall be submitted not later than 12 months after the first engine was installed in a non-road mobile machinery and not later than 18 months after starting the production of the approved engine type or engine family.] U.K.

2.6.2.2.When the manufacturer demonstrates to the approval authority that no engine has been installed in a non-road mobile machinery 18 months after starting the production, the test results shall be submitted after the installation of the first engine, on a date agreed with the approval authority.U.K.

2.6.2.3.Small volume manufacturersU.K.

The number of engines tested shall be adapted in case of small volume manufacturers:

The approval authority shall verify the declared production quantities.

2.6.3.The manufacturer may conduct more tests than those established by the testing schemes set out in points 2.6.1 and 2.6.2.U.K.

2.6.4.Multiple testing of the same engine to provide data for the consecutive service accumulation stages in accordance with points 2.6.1 and 2.6.2 is allowed but not mandatory.U.K.

3. Test conditions U.K.

The in-service monitoring test shall reflect the engine's performance when installed in a non-road mobile machinery, in actual operation and operated by its usual professional operator.

3.1.OperatorU.K.

[F23.1.1. The non-road mobile machinery's operator performing the in-service monitoring test may be other than the usual professional one if the manufacturer demonstrates to the approval authority that the designated operator has attained enough skills and training to operate the non-road mobile machine.] U.K.

3.1.2.The manufacturer shall provide detailed explanations to the approval authority on the usual operator's skills and training, and demonstrate that the selected operator is adequate for the in-service monitoring test.U.K.

3.2.Non-road mobile machinery's operationU.K.

3.2.1.The test shall be performed during the complete (or partial) non-road mobile machinery's actual operation.U.K.

3.2.2.When the manufacturer demonstrates to the approval authority that it is not possible to comply with point 3.2.1, the test duty cycle shall represent, as far as possible, the non-road mobile machinery's actual operation.U.K.

3.2.2.1.The representative test duty cycle shall be determined by the manufacturer in agreement with the approval authority.U.K.

3.2.3.Regardless of whether the test is conducted during the actual operation of the non-road mobile machinery or under a representative test duty cycle, it shall:U.K.

3.3.Ambient conditionsU.K.

The test shall be conducted under ambient conditions meeting the following requirements:

3.4.Lubricating oil, fuel and reagentU.K.

The lubricating oil, fuel and reagent (for exhaust after-treatment systems that use a reagent to reduce gaseous pollutant emissions) shall comply with the specifications issued by the manufacturer.

3.4.1.The fuel shall be market fuel or reference fuel as specified in Annex V to Delegated Regulation (EU) 2017/654.U.K.

3.4.2.To demonstrate compliance with point 3.4, the manufacturer shall take samples and retain them for a period of 12 months, or less if agreed by the approval authority.U.K.

3.4.3.Reagent samples shall not be frozen.U.K.

3.5.Operating sequenceU.K.

Operating sequence is the elapsed time of uninterrupted non-road mobile machinery operation and continuous data sampling during an in-service monitoring test.

The in-service monitoring test shall be conducted in one single operating sequence, except under the combined data sampling method set out in point 4.2, where several operating sequences are combined in a single in-service monitoring test.

4. Data sampling methods U.K.

4.1.Continuous data samplingU.K.

Continuous data sampling shall be used when one single operating sequence is equal or more than the minimum test duration set out in point 2 of Appendix 2.

4.1.1.A maximum of 3 minutes of data may be excluded due to one or several episodes of temporary signal loss.U.K.

4.2.Combined data samplingU.K.

As alternative to point 4.1, the data sampling may be obtained from combining the results of several operating sequences.

4.2.1.Combined data sampling shall be used only when the test conditions do not enable reaching the minimum test duration set out in point 2 of Appendix 2 with one single operating sequence despite attempting to achieve this, or when the category(ies) of non-road mobile machinery selected for testing is employed in multiple working activities with different relevant duty cycle(s).U.K.

4.2.2.The following additional requirements shall be fulfilled when applying combined data sampling:U.K.

5. ECU data stream U.K.

[F25.1. The ECU shall provide data stream information to the measurement instruments or data logger of the Portable Emissions Measurement System (PEMS) in accordance with the requirements set out in Appendix 7.] U.K.

5.2.Conformity of informationU.K.

5.2.1.The conformity of all the signals provided by the ECU in accordance with Table 1 of Appendix 7 shall be verified by the approval authority and shall meet the requirements set out in point 5 of Annex VI to Commission Delegated Regulation (EU) 2017/654(3).U.K.

5.2.2Manufacturers shall check in accordance with the method set out in Appendix 6 the conformity of the ECU torque signal during the in-service monitoring of engines installed on non-road mobile machinery using a PEMS.U.K.

6. Test procedures and data pre-processing and validation U.K.

[F26.1. In-service monitoring tests shall be conducted using PEMS in accordance with Appendix 1. U.K.

6.2. Manufacturers shall comply with the test procedure set out in Appendix 2 with regard to the in-service monitoring of engines installed on non-road mobile machinery using a PEMS. U.K.

6.3. Manufacturers shall follow the procedures set out in Appendix 3 for the pre-processing of the data resulting of the in-service monitoring of engines installed on non-road mobile machinery using a PEMS. U.K.

6.4. Manufacturers shall follow the procedures set out in Appendix 4 for the determination of valid events during an in-service monitoring test of engines installed on non-road mobile machinery using a PEMS.] U.K.

7. Test data availability U.K.

No data shall be modified or removed from a test. The entire data sampling shall be retained at least for 10 years by the manufacturer and made available upon request to the approval authority and the Commission.

[F28. Calculations U.K.

Manufacturers shall follow the procedures set out in Appendix 5 for the gaseous pollutant emissions calculations for the in-service monitoring of engines installed on non-road mobile machinery using a PEMS.]

9. Confirmatory test U.K.

9.1.Approval authorities may conduct a confirmatory in-service monitoring test in order to have an independent in-service monitoring measurement.U.K.

9.2.The confirmatory test shall be performed on the engine family/type and category(ies) of non-road mobile machinery specified in point 2; a particular engine fitted in a relevant non-road mobile machinery shall be tested according to the requirements set out in this Regulation.U.K.

10. Reporting procedures U.K.

10.1. [F2Manufacturers shall draft a test report of the in-service monitoring of engines installed on non-road mobile machinery using a PEMS for each engine tested.] The test report shall show the activities and results of the in-service monitoring and include at least the information required by data entries 1 to 11 of Appendix 8.U.K.

10.2.Instantaneous measured data and instantaneous calculated dataU.K.

10.2.1.Instantaneous measured data and instantaneous calculated data shall not be included in the test report but shall be kept by the manufacturer and made available upon request to the European Commission and the approval authority for the period set out in point 7.U.K.

10.2.2.Instantaneous measured data and instantaneous calculated data shall include at least the information required by data entries I-1 to I-2.20 of Appendix 8.U.K.

10.3.Publicly available informationU.K.

For the purposes of Article 44(3)(b) of Regulation (EU) 2016/1628, the manufacturer shall provide a separate report containing the information required by the following data entries of Appendix 8: 1.1, 2.2, 2.4, 3.2, 6.3, 6.4.1, 6.10 Section 9 and Section 10.

Information for data entry 6.3 shall be provided at regional level, providing approximate geographic location only.

Appendix 1

Portable Emissions Measurement System U.K.

1.The PEMS shall include the following measurement instruments:U.K.

PEMS shall also include:

2.Measurement instruments requirementsU.K.

2.1.Measurement Instruments shall meet the requirements on calibration and performance checks set out in Section 8.1 of Annex VI to Delegated Regulation (EU) 2017/654. Special attention shall be given to perform the following actions:U.K.

2.1.2.Measurement instruments shall meet the specifications set out in Section 9.4 of Annex VI to Delegated Regulation (EU) 2017/654.U.K.

2.1.3.The analytical gases used for calibrating the measurement instruments shall meet the requirements set out in Section 9.5.1 of Annex VI to Delegated Regulation (EU) 2017/654.U.K.

2.2.Transfer line and sampling probe requirementsU.K.

2.2.1.The transfer line shall meet the requirements set out in point 9.3.1.2 of Annex VI to Delegated Regulation (EU) 2017/654.U.K.

2.2.2.The sampling probe shall meet the requirements set out in point 9.3.1.1 of Annex VI to Delegated Regulation (EU) 2017/654.U.K.

Appendix 2

Test procedure for in-service monitoring with a PEMS U.K.

1. Test parameters U.K.

The gaseous pollutant emissions to be measured and recorded during the in-service monitoring test are: carbon monoxide (CO), total hydrocarbons (HC) and nitrogen oxides (NO_x). Additionally, carbon dioxide (CO₂) shall be measured to enable the calculation procedures described in Appendix 5.

The parameters set out in the Table shall be measured and recorded during the in-service monitoring test:

2. Minimum test duration U.K.

The test duration, comprising all operating sequences and only including valid data, shall be long enough to complete between five and seven times the work performed during the NRTC or to produce between five and seven times the CO₂ reference mass in kg/cycle from the NRTC.

3. Preparation of the non-road mobile machinery U.K.

The preparation of the non-road mobile machinery shall comprise at least the following:

4. Installation of the PEMS U.K.

4.1.The installation of the PEMS shall not influence the non-road mobile machinery gaseous pollutant emissions or performance.U.K.

In any case, the installation shall comply with the locally applicable safety regulations and insurance requirements and shall follow the instructions issued by the PEMS, measurement instruments, transfer line and sampling probe manufacturer.

4.2.Electrical power supplyU.K.

The electrical power supply of the PEMS shall, be provided by an external power supply unit.

4.2.1.When the manufacturer demonstrates to the approval authority that it is not possible to comply with point 4.2, a source drawing its energy (directly or indirectly) from the engine during the test may be used.U.K.

4.2.2.In this case, the peak power consumption of the PEMS shall not exceed 1 % of the engine maximum power, and additional measures shall be taken to prevent the excessive discharge of the battery when the engine is not running or idling.U.K.

4.3.Measurement instruments other than the EFMU.K.

As far as possible, the measurement instruments other than the EFM shall be installed in a location subject to minimal:

4.4.EFMU.K.

The installation of the EFM shall not increase the backpressure beyond the value recommended by the manufacturer.

4.4.1.The EFM shall be attached to the non-road mobile machinery's tailpipe. The EFM's sensors should be placed between two pieces of straight tube whose length should be at least 2 times the EFM diameter (upstream and downstream).U.K.

4.4.2.The EFM shall be placed after the non-road mobile machinery silencer, to limit the effect of exhaust gas pulsations upon the measurement signals.U.K.

4.5.Transfer line and sampling probeU.K.

The transfer line shall be properly insulated at the connection points (sampling probe and back of the measurement instruments).

4.5.1.If the length of the transfer line is changed, the transport times shall be verified and if necessary corrected.U.K.

4.5.2.The transfer line and the sampling probe shall be installed in accordance with the requirements set out in Section 9.3 of Annex VI to Delegated Regulation (EU) 2017/654.U.K.

4.6.Data loggerU.K.

The data logger shall be connected with the engine ECU to record the engine parameters listed in Table 1 of Appendix 7, and, where applicable, the engine parameters listed in Table 2 of Appendix 7.

4.7.GPS (where applicable)U.K.

The antenna should be mounted at the highest possible location, without risking interference with any obstructions encountered during in-use operation.

5. Pre-in-service monitoring test procedures U.K.

5.1.Ambient temperature measurementU.K.

The ambient temperature shall be measured at the beginning of the test and also at the end of the test within a reasonable distance from the non-road mobile machinery. It is allowed to use the CAN signal for intake air temperature (temperature experienced by the engine).

If an intake air temperature sensor is used to estimate the ambient temperature the recorded ambient temperature shall be the intake air temperature adjusted by the applicable nominal offset between ambient and intake air temperature as specified by the manufacturer.

5.2.Starting and stabilising the measurement instrumentsU.K.

The measurement instruments shall be warmed up and stabilised until pressures, temperatures and flows have reached their operating set points, according to the instructions issued by the measurement instrument/PEMS manufacturer.

5.3.Cleaning and heating the transfer lineU.K.

To prevent system contamination, the transfer line shall be purged until sampling begins, according to the instructions issued by the transfer line/PEMS manufacturer.

The transfer line shall be heated to 190 °C (+/– 10 °C) before starting the test to avoid the presence of cold spots that could lead to a contamination of the sample by condensed hydrocarbons.

5.4.Checking and calibrating the gas analysersU.K.

The zero and span calibration and the linearity checks of the gas analysers shall be performed using the analytical gases set out in point 2.1.3 of Appendix 1.

5.5.Cleaning the EFMU.K.

The EFM shall be purged at the pressure transducer connections in accordance with the instructions issued by the PEMS or EFM manufacturer. This procedure shall remove condensation and diesel particulate matter from the pressure lines and the associated flow tube pressure measurement ports.

6. In-service monitoring test data logging U.K.

6.1.Before the in-service monitoring testU.K.

Gaseous pollutant emissions data sampling, measurement of the exhaust parameters and recording of the engine and ambient data shall start prior to starting the engine.

6.2.During the in-service monitoring testU.K.

Gaseous pollutant emissions data sampling, measurement of the exhaust parameters and recording of the engine and ambient data shall continue throughout the normal in-use operation of the engine.

The engine may be stopped and started, but the gaseous pollutant emissions data sampling, measurement of the exhaust parameters and recording of the engine and ambient data shall continue throughout the entire in-service monitoring test.

6.3.After the in-service monitoring testU.K.

At the end of the in-service monitoring test, sufficient time shall be given to the measurement instruments and data logger to allow their response times to elapse. The engine may be shut down before or after data logging is stopped.

6.4.Valid measured data for gaseous pollutant emissions calculationU.K.

The valid measured data for the gaseous pollutant emissions calculations shall be determined in accordance with Appendix 4. Point 6.4.2 shall apply to those calculations.

6.4.1.In order to determine the duration of the take-off phase after a long non-working event, as set out in point 2.2.2 of Appendix 4, the exhaust gas temperature shall be measured during the operating sequence within 30 cm of the outlet of the after-treatment device used for NO_x reduction.U.K.

6.4.2.Cold start dataU.K.

Cold start gaseous pollutant emissions measured data shall be removed for the gaseous pollutant emissions calculations.

Valid measured data for gaseous pollutant emissions calculations shall start after the engine coolant temperature has reached 343 K (70 °C) for the first time or after the engine coolant temperature is stabilised within +/– 2 K over a period of 5 minutes, whichever comes first; in any case it shall start no later than 20 minutes after starting the engine.

7. Checking of gas analysers U.K.

7.1.Zero periodic verification during the operating sequenceU.K.

Zero verification of the gas analysers shall be conducted at least every 2 hours during an in-service monitoring test.

7.2.Zero periodic correction during the in-service monitoring testU.K.

The results obtained with the checks performed in accordance with point 7.1 may be used to perform a zero drift correction.

7.3.Drift verification after performing the testU.K.

The drift verification shall be performed only if no zero drift correction was made during the in-service monitoring test in accordance with point 7.2.

7.3.1.No later than 30 minutes after the in-service monitoring test is completed, the gas analysers shall be zeroed and spanned in order to verify their drift compared to the pre-test results.U.K.

7.3.2.The zero, span and linearity checks of the gas analysers shall be performed as set out in point 5.4.U.K.

8. Engine malfunction U.K.

8.1.In the case that a malfunction occurs during an operating sequence and the non-road mobile machinery operator is clearly notified by the on-board diagnostics system via a malfunction visual warning, text message or other indicator, the in-service monitoring test shall be considered void.U.K.

8.2.Any malfunction shall be corrected before any further in-service monitoring test is carried out on the engine.U.K.

Appendix 3

Data pre-processing for gaseous pollutant emissions calculations U.K.

1. Definitions U.K.

1.2.For the purposes of this Appendix the following definitions shall apply:U.K.

2. Drift correction U.K.

2.1.Maximum drift allowedU.K.

Drifts of the zero response and the span response shall be less than two per cent of full scale on the lowest range used:

2.2.Drift correctionU.K.

The drift corrected concentration value shall be calculated in accordance with the requirements set out in Section 2.1 or Section 3.5 of Annex VII to Delegated Regulation (EU) 2017/654.

The difference between the uncorrected and the corrected brake-specific gaseous pollutant emission values shall be within ± six per cent of the uncorrected brake-specific gaseous pollutant emission values. If the drift is greater than six per cent, the test shall be considered void.

If drift correction is applied, only the drift-corrected gaseous pollutant emission results shall be used when reporting gaseous pollutant emissions.

3. Time alignment U.K.

To minimise the biasing effect of the time lag between the different signals on the calculations of the mass of the gaseous pollutant emissions, the data relevant for gaseous pollutant emissions calculations shall be time aligned, in accordance with the requirements set out in points 3.1 to 3.4.

3.1.Gas analysers dataU.K.

The data from the gas analysers shall be properly aligned in accordance with the requirements set out in Section 8.1.5.3 of Annex VII to Delegated Regulation (EU) 2017/654.

3.2.Gas analysers and EFM dataU.K.

The data from the gas analysers shall be properly aligned with the data of the EFM using the procedure set out in point 3.4.

3.3.PEMS and engine dataU.K.

The data from the PEMS (gas analysers and EFM) shall be properly aligned with the data from the engine ECU using the procedure in point 3.4.

3.4.Procedure for improved time alignment of the PEMS dataU.K.

The test parameters listed in the Table of Appendix 2 are split into three different categories:

• Category 1: Gas analysers (HC, CO, CO₂, NO_x concentrations);

• Category 2: EFM (Exhaust mass flow and exhaust temperature);

• Category 3: Engine (Torque, speed, temperatures, fuel rate from ECU).

The time alignment of each category with the other two categories shall be verified by finding the highest correlation coefficient between two series of test parameters. All the test parameters in a category shall be shifted to maximise the correlation factor. The following test parameters shall be used to calculate the correlation coefficients:

4. Data consistency check U.K.

4.1.Gas analysers and EFM dataU.K.

The consistency of the data (exhaust mass flow measured by the EFM and gas concentrations) shall be verified using a correlation between the measured engine fuel flow from the ECU and the engine fuel flow calculated in accordance with the procedure set out in Section 2.1.6.4 of Annex VII to Delegated Regulation (EU) 2017/654.

A linear regression shall be performed for the measured and calculated fuel rate values. The method of least squares shall be used, with the best fit equation having the form:

y = mx + b

Where:

• y is the calculated fuel flow [g/s],

• m is the slope of the regression line,

• x is the measured fuel flow [g/s],

• b is the y intercept of the regression line.

The slope (m) and the coefficient of determination (r²) shall be calculated for each regression line. It is recommended to perform this analysis in the range from 15 per cent of the maximum value to the maximum value and at a frequency greater or equal to 1 Hz. For a test to be considered valid, the following two criteria shall be evaluated:

4.2.ECU torque dataU.K.

The consistency of the ECU torque data shall be verified by comparing the maximum ECU torque values at different (if appropriate) engine speeds with the corresponding values on the official engine full load torque curve and in accordance with Appendix 6.

4.3.Brake-Specific Fuel Consumption (BSFC)U.K.

The BSFC shall be checked using:

4.4.Ambient pressureU.K.

The ambient pressure value shall be checked against the altitude indicated by the GPS data, if available.

4.5.The approval authority may consider the test void if it is not satisfied with the results of the data consistency check.U.K.

5. Dry-wet correction U.K.

If the concentration is measured on a dry basis, it shall be converted to a wet basis in accordance with the procedure set out in Section 2 or Section 3 of Annex VII to Delegated Regulation (EU) 2017/654.

6. NO_x correction for humidity and temperature U.K.

The NO_x concentrations measured by the gas analysers shall not be corrected for ambient air temperature and humidity.

Appendix 4

Algorithm for the determination of valid events during in-service monitoring U.K.

1. General provisions U.K.

1.1.For the purposes of this Appendix ‘event’ means the data measured in an in-service monitoring test for the gaseous pollutant emissions calculations obtained in a time increment Δt equal to the data sampling period,U.K.

1.2.The methodology set out in this Appendix is based on the concept of working and non-working events.U.K.

1.3.Any event considered as a non-working event in accordance with this Appendix shall not be considered as valid for the calculations of the work or CO₂ mass and the gaseous pollutant emissions and conformity factors of the averaging windows set out in Section 2 of Appendix 5. Only working events shall be used for the purpose of calculations.U.K.

1.4.Non-working events shall be categorised as short non-working events (≤ D2) and long non-working events (> D2) (see the Table for the value of D2).U.K.

2. Procedure to determine non-working events U.K.

2.1.The following events shall be considered as non-working events:U.K.

2.2.The following additional steps shall be conducted:U.K.

3. ‘Machine work’ marking algorithm U.K.

3.1.Step 1U.K.

Detect and split into working events and non-working events.

3.1.1.Define the working events and non-working events in accordance with point 2.U.K.

3.1.2.Calculate the duration of non-working events.U.K.

3.1.3.Mark the non-working events shorter than D0 as working events (see the Table for the values of D0).U.K.

3.1.4.Calculate the duration of the remaining non-working events.U.K.

3.2.Step 2U.K.

Merge short working events (≤ D0) into non-working events.

3.2.1.Merge working events shorter than D0 with the surrounding non-working events of duration longer than D1.U.K.

3.3.Step 3U.K.

Exclude working events after long non-working events (take off phase).

3.3.1.Consider as non-working events those events after long (> D2) non-working events until the exhaust gas temperature reaches 523 K or until D3 minutes have elapsed (see the Table for the values of D3), whatever happens first.U.K.

3.4.Step 4U.K.

Include non-working events after working events.

3.4.1.Include D1 minutes of non-working event at the end of any working event (see the Table for the values of D1).U.K.

4. Examples U.K.

4.1.Exclusions of non-working data at the end of Step 1U.K.

4.2.Exclusions of non-working data at the end of Step 2U.K.

4.3.Exclusions of non-working data at the end of Step 3U.K.

4.4.End of Step 4 — FinalU.K.

Appendix 5

Gaseous pollutant emissions calculations U.K.

1. Calculation of the instantaneous gaseous pollutant emissions U.K.

The instantaneous mass of the gaseous pollutant emissions shall be calculated on the basis of the instantaneous concentration of the gaseous pollutant emissions measured during the in-service monitoring test and in accordance with the procedure set out in Section 2 or Section 3 of Annex VII to Delegated Regulation (EU) 2017/654.

2. Determination of averaging windows' gaseous pollutant emissions and conformity factors U.K.

2.1.Averaging window methodU.K.

Averaging window is the sub-set of the complete calculated data set during the in-service monitoring test whose CO₂ mass or work is equal to the engine CO₂ mass or work measured over the reference laboratory NRTC.

The mass of the gaseous pollutant emissions and the conformity factors shall be calculated using the moving averaging window method, based on the reference work (procedure set out point 2.2) and the reference CO₂ mass (procedure set out in point 2.3) measured over the reference laboratory NRTC.

The calculations shall be conducted in accordance with the following general requirements:

2.1.1.Any data excluded, under the terms of Appendix 4, shall not be considered for the calculations of the work or CO₂ mass and the gaseous pollutant emissions and conformity factors of the averaging windows.U.K.

2.1.2.The moving averaging window calculations shall be conducted with a time increment Δt equal to the data sampling period.U.K.

2.1.3.The mass of the gaseous pollutant emissions for each averaging window (mg/averaging window) shall be obtained by integrating the mass of the instantaneous gaseous pollutant emissions in the averaging window.U.K.

2.1.4.The calculations shall be conducted and presented for both procedures: the reference CO₂ mass and the reference work.U.K.

[F12.1.5. The reference work and reference CO ₂ mass of an engine type, or for all engine types within the same engine family, shall be those specified in points 11.3.1 and 11.3.2 of the addendum to the EU type approval certificate of the engine type or the engine family, as set out in Annex IV to Commission Implementing Regulation (EU) 2017/656 (4) .] U.K.

2.2.Work based methodU.K.

The duration (t _{2, i} – t _{1, i} ) of the i^th averaging window is determined by:

W(t _2,i ) – W(t _1,i ) ≥ W_ref

Where:

• W(t_j,i ) is the engine work measured between the start and time t_j,i , kWh,

• W_ref is the engine work for the NRTC, kWh,

• t _{2, i} shall be selected such that:

  W(t _2,i – Δt) – W(t _1,i ) < W_ref ≤ W(t _2,i ) – W(t _1,i )

Where Δt is the data sampling period, equal to 1 second or less.

[F22.2.1. Calculations of the brake specific gaseous pollutant emissions U.K.

The brake-specific gaseous pollutant emissions e _gas (g/kWh) shall be calculated for each averaging window and each gaseous pollutant in the following way:

Where:

• m _i is the mass emission of the gaseous pollutant during the i ^th averaging window, g/averaging window,

• W ( t _{2, i} ) – W ( t _{1, i} ) is the engine work during the i ^th averaging window, kWh.]

2.2.2.Selection of valid averaging windowsU.K.

The valid averaging windows are the averaging windows whose average power exceeds the power threshold of 20 % of the maximum engine power. The percentage of valid averaging windows shall be equal or greater than 50 %.

2.2.2.1.The test shall be considered void if the percentage of valid averaging windows is less than 50 %.U.K.

[F22.2.3. Calculations of the conformity factors U.K.

The conformity factors shall be calculated for each individual valid averaging window and each individual gaseous pollutant in the following way:

Where:

• e _gas is the brake-specific emission of the gaseous pollutant, g/kWh;

• L is the applicable limit, g/kWh.]

2.3.CO₂ mass based methodU.K.

The duration (t _{2, i} – t _{1, i} ) of the i^th averaging window is determined by:

Where:

• [F2 is the CO ₂ mass measured between the test start and time t _j,i , g;

• is the CO ₂ mass determined for the NRTC, g;]

• t _{2, i} shall be selected such as:

  

Where Δt is the data sampling period, equal to 1 second or less.

The CO₂ masses are calculated in the averaging windows by integrating the instantaneous gaseous pollutant emissions calculated according to the requirements introduced in point 1.

2.3.1.Selection of valid averaging windowsU.K.

The valid averaging windows shall be those whose duration does not exceed the maximum duration calculated from:

Where:

• D_max is the maximum averaging window duration, s,

• [F2P _max is the maximum net power, as defined in Article 3(28) of Regulation (EU) 2016/1628, kW.]

The percentage of valid averaging windows shall be equal or greater than 50 per cent.

[F22.3.2. Calculations of the conformity factors U.K.

The conformity factors shall be calculated for each individual averaging window and each individual pollutant in the following way:

With

• (in service ratio) and

• (certification ratio)

Where:

• m _i is the mass emission of the gaseous pollutant during the i ^th averaging window, g/averaging window,

• is the CO ₂ mass during the i ^th averaging window, g,

• is the engine CO ₂ mass determined for the NRTC, g,

• m _L is the mass emission of gaseous pollutant corresponding to the applicable limit on the NRTC, g.]

[F23. Rounding of gaseous pollutant emissions calculations U.K.

In accordance with Standard ASTM E 29-06b (Standard Practice for Using Significant Digits in Test Data to Determine Conformance with Specifications), the final test results shall be rounded in one step to the number of places to the right of the decimal point indicated by the applicable exhaust emissions limit values set out in Article 18(2) of Regulation (EU) 2016/1628 plus one additional significant figure.]

4. Gaseous pollutant emission results U.K.

The following results shall be reported in accordance with point 10 of this Annex:

Appendix 6

Conformity of the ECU torque signal U.K.

1. Maximum torque method U.K.

1.1.The maximum torque method consists on confirming that a point on the reference maximum torque curve as a function of the engine speed has been reached during the in-service monitoring test.U.K.

1.2.If a point on the reference maximum torque curve as a function of the engine speed has not been reached during the in-service monitoring test, the manufacturer is entitled to modify the load activity of the non-road mobile machinery and/or the minimum test duration set out in point 2 of Appendix 2 as necessary in order to perform that demonstration after the in-service monitoring test.U.K.

1.3.The requirements set out in point 1.2 shall not be applied in the case that, in the opinion of the manufacturer and prior agreement of the type approval authority, it is not possible to reach a point on the maximum torque curve under normal operation without overloading the engine installed in the non-road mobile machinery, or to do so would not be safe.U.K.

1.4.In this case, the manufacturer shall propose to the approval authority an alternative method for checking the signal. The alternative method shall be employed only if the approval authority considers it feasible and applicable without overloading the engine or any safety risk.U.K.

1.5.The manufacturer may propose to the approval authority, a more accurate and complete method for checking the conformity of the ECU torque signal during the in-service monitoring test than the method set out in points 1.1 to 1.4. In that case, the method proposed by the manufacturer shall be used instead of the method set out in those points.U.K.

2. Impossibility to check the conformity of the ECU torque signal U.K.

When the manufacturer demonstrates to the approval authority that it is not possible to check the ECU torque signal during the in-service monitoring test, the verification performed during the tests required for EU type-approval and stated in the EU type-approval certificate shall be accepted by the approval authority.

Appendix 7

ECU data stream information requirements U.K.

1. Data to be provided U.K.

1.1.The ECU shall provide at a minimum the measurement data listed in the Table 1.U.K.

1.2.Where either ambient pressure or ambient temperature are not measured by external sensors, they shall be provided by the ECU according to Table 2.U.K.

1.3.Where exhaust mass flow is not measured directly, the engine fuel flow shall be provided according to the Table of point 1 of Appendix 2.U.K.

2. Communication requirements U.K.

2.1.Access to data stream informationU.K.

2.1.1.Access to data stream information shall be provided in accordance with at least one of the following series of standards:U.K.

2.1.2.The ECU shall support the corresponding services of at least one of the standards listed above in order to provide the data set out in Table 1.U.K.

Implementation of additional features of the standard(s) in the ECU is permitted but not mandatory.

2.1.3.Access to data stream information shall be possible by means of a wired connection (external scan-tool).U.K.

2.2.CAN-based wired communicationU.K.

2.2.1.The communication speed on the wired data link shall be either 250 kbps or 500 kbps.U.K.

2.2.2.The connection interface between the engine and the measurement instruments of the PEMS shall be standardised and shall meet all requirements of ISO 15031-3 Type A (12 VDC power supply), Type B (24 VDC power supply) or SAE J1939-13 (12 or 24 VDC power supply).U.K.

2.3Documentation requirementsU.K.

The manufacturer shall indicate in the information document set out in Implementing Regulation (EU) 2017/656(5) on administrative requirements the communication standard(s) used for providing access to data stream information in accordance with point 2.1.1.

Appendix 8

Test report for in-service monitoring U.K.

1. Engine manufacturer information U.K.

1.1.Make (trade name(s) of manufacturer)U.K.

1.2.Company name and address of manufacturerU.K.

1.3.Name and address of manufacturer's authorised representative (if any)U.K.

1.4.Name(s) and address(es) of assembly/manufacture plant(s)U.K.

2. Engine information U.K.

2.1.Engine type/family designationU.K.

2.2.Category and sub-category of the engine type/engine familyU.K.

2.3.Type approval numberU.K.

2.4.Commercial name(s) (if applicable)U.K.

2.5.Engine identification numberU.K.

2.6.Engine production year and monthU.K.

2.7.Engine rebuiltU.K.

[F22.8. Engine total swept volume [cm ³ ]] U.K.

2.9.Number of cylindersU.K.

2.10.Engine declared rated net power/rated speed [kW/rpm]U.K.

2.11.Engine maximum net power/power speed [kW/rpm]U.K.

2.12.Engine declared maximum torque/torque speed [kW/rpm]U.K.

2.13.Idle speed [rpm]U.K.

2.14.Manufacturer supplied full-load torque curve available (yes/no)U.K.

2.15.Manufacturer supplied full-load torque curve reference numberU.K.

2.16.DeNO_x system (e.g. EGR, SCR)U.K.

2.17.Type of catalytic converterU.K.

2.18.Type of particulate trapU.K.

2.19.After-treatment modified with respect to type approval (yes/no)U.K.

2.20.ECU information (Software calibration number)U.K.

3. Non-road mobile machinery information U.K.

3.1.Non-road mobile machinery ownerU.K.

3.2.Category(ies) of non-road mobile machineryU.K.

3.3.Non-road mobile machinery manufacturerU.K.

3.4.Non-road mobile machinery identification numberU.K.

3.5.Non-road mobile machinery registration number and country of registration (if available)U.K.

3.6.Non-road mobile machinery commercial name(s) (if applicable)U.K.

3.7.Non-road mobile machinery production year and monthU.K.

4. Engine/Non-road mobile machinery selection U.K.

4.1.Non-road mobile machinery or engine location methodU.K.

4.2.Selection criteria for non-road mobile machinery, engines, in-service familiesU.K.

4.3.Location where the tested non-road mobile machinery normally operatesU.K.

4.4.Operating hours at test start:U.K.

5. Portable emissions measurement system (PEMS) U.K.

5.1.PEMS power supply: external/sourced from non-road mobile machineryU.K.

5.2.Measurement instruments (PEMS) brand and typeU.K.

5.3.Measurement instruments (PEMS) calibration dateU.K.

5.4.Calculation software and version used (e.g. EMROAD 4.0)U.K.

5.5.Location of ambient conditions sensorsU.K.

6. Test conditions U.K.

6.1.Date and time of testU.K.

6.2.Test duration [s]U.K.

6.3.Test LocationU.K.

6.4.General weather and ambient conditions (e.g. temperature, humidity, altitude)U.K.

6.4.1.Average ambient conditions (as calculated from the instantaneous measured data)U.K.

6.5.Hours operated per non-road mobile machinery/engineU.K.

6.6.Detailed information on non-road mobile machinery's actual operationU.K.

6.7.Test fuel specificationsU.K.

6.8.Lubrication oil specificationsU.K.

6.9.Reagent specifications (if applicable)U.K.

6.10.Brief description of the work performedU.K.

7. Average concentration of gaseous pollutant emissions U.K.

7.1.Average HC concentration [ppm] [Not mandatory]U.K.

7.2.Average CO concentration [ppm] [Not mandatory]U.K.

7.3.Average NO_x concentration [ppm] [Not mandatory]U.K.

7.4.Average CO₂ concentration [ppm] [Not mandatory]U.K.

7.5.Average Exhaust mass flow [kg/h] [Not mandatory]U.K.

7.6.Average Exhaust temperature [°C] [Not mandatory]U.K.

8. Integrated mass of gaseous pollutant emissions U.K.

8.1.THC emissions [g]U.K.

8.2.CO emissions [g]U.K.

8.3.NO_x emissions [g]U.K.

8.4.CO₂ emissions [g]U.K.

9. Averaging window (6) conformity factors (calculated in accordance with Appendices 2 to 5) U.K.

(Minimum, maximum and 90th cumulative percentile)

9.1.Work averaging window THC conformity factor [-]U.K.

9.2.Work averaging window CO conformity factor [-]U.K.

9.3.Work averaging window NO_x conformity factor [-]U.K.

9.4.CO₂ mass averaging window THC conformity factor [-]U.K.

9.5.CO₂ mass averaging window CO conformity factor [-]U.K.

9.6.CO₂ mass averaging window NO_x conformity factor [-]U.K.

9.7.Work averaging window: minimum and maximum averaging window power [%]U.K.

9.8.CO₂ mass averaging window: minimum and maximum averaging window duration [s]U.K.

9.9.Work averaging window: percentage of valid averaging windowsU.K.

9.10.CO₂ mass averaging window: percentage of valid averaging windowsU.K.

9.11.CO₂ emissionsU.K.

10. Averaging window conformity factors (calculated in accordance with Appendices 2, 3 and 5 without the determination of valid data in accordance with Appendix 4 and without the determination of valid windows as set out in points 2.2.2 and 2.3.1 of Appendix 5) U.K.

(Minimum, maximum and 90th cumulative percentile)

10.1.Work averaging window THC conformity factor [-]U.K.

10.2.Work averaging window CO conformity factor [-]U.K.

10.3.Work averaging window NO_x conformity factor [-]U.K.

10.4.CO₂ mass averaging window THC conformity factor [-]U.K.

10.5.CO₂ mass averaging window CO conformity factor [-]U.K.

10.6.CO₂ mass averaging window NO_x conformity factor [-]U.K.

10.7.Work averaging window: minimum and maximum averaging window power [%]U.K.

10.8.CO₂ mass averaging window: minimum and maximum averaging window duration [s]U.K.

11. Test results verification U.K.

11.1.THC analyser zero, span and audit results, pre and post testU.K.

11.2.CO analyser zero, span and audit results, pre and post testU.K.

11.3.NO_x analyser zero-span and audit results, pre and post testU.K.

11.4.CO₂ analyser zero, span and audit results, pre and post testU.K.

11.5.Data consistency check results, according to Section 4 of Appendix 3U.K.

I-1. Instantaneous measured data U.K.

I-1.1.THC concentration [ppm]U.K.

I-1.2.CO concentration [ppm]U.K.

I-1.3.NO_x concentration [ppm]U.K.

I-1.4.CO₂ concentration [ppm]U.K.

I-1.5.Exhaust mass flow [kg/h]U.K.

I-1.6.Exhaust temperature [°C]U.K.

I-1.7.Ambient air temperature [°C]U.K.

I-1.8.Ambient pressure [kPa]U.K.

I-1.9.Ambient humidity [g/kg] [Not mandatory]U.K.

I-1.10.Engine torque [Nm]U.K.

I-1.11.Engine speed [rpm]U.K.

I-1.12.Engine fuel flow [g/s]U.K.

I-1.13.Engine coolant temperature [°C]U.K.

I-1.14.Non-road mobile machinery latitude [degree]U.K.

I-1.15.Non-road mobile machinery longitude [degree]U.K.

I-2. Instantaneous calculated data U.K.

I-2.1.THC mass [g/s]U.K.

I-2.2.CO mass [g/s]U.K.

I-2.3.NO_x mass [g/s]U.K.

I-2.4.CO₂ mass [g/s]U.K.

I-2.5.THC cumulated mass [g]U.K.

I-2.6.CO cumulated mass [g]U.K.

I-2.7.NO_x cumulated mass [g]U.K.

I-2.8.CO₂ cumulated mass [g]U.K.

I-2.9.Calculated fuel rate[g/s]U.K.

I-2.10.Engine power [kW]U.K.

I-2.11.Engine work [kWh]U.K.

I-2.12.Work averaging window duration [s]U.K.

I-2.13.Work averaging window average engine power [%]U.K.

I-2.14.Work averaging window THC conformity factor [-]U.K.

I-2.15.Work averaging window CO conformity factor [-]U.K.

I-2.16.Work averaging window NO_x conformity factor [-]U.K.

I-2.17.CO₂ mass averaging window duration [s]U.K.

I-2.18.CO₂ mass averaging window THC conformity factor [-]U.K.

I-2.19.CO₂ mass averaging window CO conformity factor [-]U.K.

I-2.20.CO₂ mass averaging window NO_x conformity factor [-]U.K.