74th UNECE GRPE session

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Informal document GRPE-74-17 74 th GRPE, 9-13 January 2017 Agenda item 7 74th UNECE GRPE session UNITED NATIONS PMP IWG Progress Report Joint Research Centre the European Commission's in-house science service JRC Science Hub: ec.europa.eu/jrc

PMP meetings in 2016 13 th January 2016 (Geneva) : 38 th PMP meeting 9 th -10 th March 2016 (Brussels) : 39 th PMP meeting 27 th April 3 rd May (Web/phone conference): 40 th meeting 31 st May (Web/phone conference) 12 th -13 th October (JRC-Ispra) : 41 st meeting NEXT MEETING: 15 th 16 th March 2017 (Meeting rooms booked in Ispra) 2

EXHAUST PARTICLE EMISSIONS 3

Main open points Round Robin Sub-23nm Raw exhaust sampling Round Robin PNC (Particle Number Counter) Horizon 2020 projects 4

Key messages Sub-23 nm exhaust particles: o There are particles <23nm - Sometimes they are an artifact o Particle not counted with the current PMP method: GDIs 30-40%, motorcycles (2-s engines)up to >200%, PFIs 50-100%, DPFs 5%. o o High emitters are still detected by PMP23nm - Thus not critical yet for current engine technologies to which the PN limit is applicable Measuring particles down to 10 nm appears possible with limited changes to the existing methodology 5

New mandate / ToR The PMP groups has submitted to GRPE in June 2016 an updated draft version of the ToR and request a new mandate with a new specific concrete objective: Sub 23 nm exhaust particles: o Demonstrate the feasibility to measure sub23nm particles with the existing PMP methodology with appropriate modifications and assess measurement differences/uncertainties by means of a round robin (RR) The objectives of the proposed RR have been further discussed in the October meeting considering also new available information on new research projects A new document describing the RR scope and objectives has been prepared and it will be uploaded on the PMP website The details of the RR will be discussed during the next face-to-face meeting 6

Scope of the Round Robin Development of a sub23nm (cut-off size: 10 nm) particle number measurement procedure based on the existing PMP methodology conveniently adapted. Main purpose: Monitoring particle emissions of new engine/after-treatment technologies. Assessment of the repeatability/reproducibility of the proposed particle counting methodology by means of a round robin. 7

Objectives of the Round Robin 1. Identify the modifications to the existing measurement equipment Expected Result: The main objective is to identify the modifications to the equipment/procedure needed to measure from 10 nm and to determine whether existing systems can (or cannot) be adjusted during an annual maintenance with a relatively low cost. 2. Assess the need of a catalytic stripper (CS) 3. Evaluate sub23nm fraction of modern engines Expected result: The fraction (percentage) of sub-23 nm particles from latest engines will be reported. 8

Objectives of the Round Robin 4. Evaluate measurement differences/ uncertainties. Confirm the specification of the modified systems Expected result: The measurement uncertainty will be reported based on the RR-10 and it will be related to the technical specifications of the systems that will circulate. The need of better systems (or not) will be discussed. 5. Calibration procedures of sub23nm protocol. 6. NEW: Check measurement uncertainty of existing PMP-23nm systems. 7. NEW: Check differences between tailpipe and CVS Expected result: The uncertainty of the location will be quantified, especially for 10 nm systems. 9

Investigation of sub23nm protocol One system with CS and 10nm CPC to circulate Each lab PMP system plus a 10nm CPC (to circulate?) One golden vehicle Different labs will test different engine technologies 10

PN Counting from Raw Exhaust via Fixed Dilution Interest in this approach confirmed by some engine manufacturers and some instrument manufacturers 01 Series of amendments to Reg. 132 already includes such possibility but the procedure is not defined First analysis of potential benefits/issues presented during the last meetings Correlation with other methods (CVS and partial flow system) and advantages/disadvantages to be checked Additional data required 11 11

Raw exhaust (tailpipe) sampling Experimental program Primary dilution Losses Volatile removal efficiency Pressure effects Time alignment JRC will wait for experimental data Limited number of tests carried out at JRC in the context of PN-PEMS for HD program 12

Experimental setup (JRC) Not engine test bed Euro VI vehicles Low (thermophoretic) losses due to position of PMP_TP EFM uncertainty <5% 13

Raw exhaust sampling Preliminary results show 20% differences Input from others is necessary Theoretical investigation of uncertainty (According to recent information industry will try to generate some more data) 14

PNC Calibration Round Robin Confirm that the k factor can be included in the final counting efficiencies Investigate the possibility to change the calibration material Applicability to PN-PEMS procedures Investigate the possibility to calibrate at 10 nm 15

Participants presentations during 41 st PMP meeting BMW AVL VW Available on the PMP website Final results could be available for the next face-toface meeting 16

HORIZON 2020 Participants presentations DownToTen PEMS4nano SUREAL-23 17

HORIZON 2020 projects Topic DownToTen PEMS4nano SUREAL-23 Objective Instrumentation Fuel efficient G-DI engine Size [nm] >5-10 >10 >1 Technology tbd CPC tbd Instrumentation + vehicle testing Prototype 2018 2019 Jan 2018 start Testing many Single cylinder and other Validation of instrument Super Low Emission Vehicles Prototype limited availability to others PMP link Important Medium Important 18

NON-EXHAUST PARTICLE EMISSIONS Steps for Building a Common Method for Measuring Brake Wear Particles 19

Step 1 - Selection/development of a braking test cycle WLTP Database Analysis (Concluded Report published by JRC) Comparison of WLTP data with Existing Industrial Cycles (Concluded Results presented at the 41 st PMP meeting) Development of a first version of a New Braking Cycle (Deadline: June 2017 On-going work by a dedicated Task Force) Task Force is coordinated by JRC but includes the main experts from industry phone conferences are regularly held (4 so far) progress report to be presented at the next meeting Testing and Validation of the New Cycle - Possible round robin (January 2018) 20

Step 2 - Selection of the most suitable sampling method Comparison of existing systems/test rig configurations (Deadline: June 2017 On-going work by the group) Selection of Functional Parameters (Deadline: June 2017 On-going work by the group) Selection of Testing Parameters (Deadline: January 2018) Testing and Validation of the Selected Configuration (Deadline: To be defined depending on the progress) 21

Step 3 - Selection of the most suitable methodology for BW Particles Measurement and Characterization Comparison of Existing Methodologies (Deadline: June 2017 Work postponed due to prioritization of steps 1 and 2) Selection of the most suitable methodologies based on the selected sampling configuration (Deadline: June 2018) Testing and Validation of the Selected Methodologies (Deadline: To be defined depending on the progress) Data processing method (Deadline: To be defined) 22

Stay in touch JRC Science Hub: ec.europa.eu/jrc YouTube: JRC Audiovisuals Twitter and Facebook: @EU_ScienceHub Vimeo: Science@EC LinkedIn: european-commission-joint-research-centre 23

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