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VW Faces $17B Fine for Emissions Scam

Discussion in 'Environmental Discussion' started by Jeff N, Sep 18, 2015.

  1. bwilson4web

    bwilson4web BMW i3 and Model 3

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    Did you get a copy of this paper? The reason I ask is the abstract says:

    A total of 84 vehicles were tested in this pilot study, consisting of post-2007 diesel engines equipped with high efficiency diesel particulate filters (DPFs) as well as modern gasoline port fuel injected (PFI) and gasoline direct injected (GDI) engines equipped with three-way-catalysts (TWCs).

    I am interested in the list of cars and results. That number should include at least a Gen-2 and Gen-3 Prius. I would also like to compare their list and results with the EPA "Test Car" database.

    This is what I found in the "Test Car Database":
    Vehicle Manufacturer Name Represented Test Veh Model PM (g/mi) Test Fuel Type Description
    1 Volkswagen Group of Audi A6 0.00100 CARB LEV3 E10 Premium Gasoline
    2 Volkswagen Group of Audi A6 0.00100 CARB LEV3 E10 Premium Gasoline
    3 Volvo XC60 T5 AWD 0.00130 CARB Phase II Gasoline
    4 Volvo XC70 T5 AWD 0.00090 CARB Phase II Gasoline
    5 Volkswagen Group of S8 Plus 0.02600 Cold CO Premium (Tier 2)
    6 BMW 535d 0.01000 Federal Cert Diesel 7-15 PPM Sulfur
    7 Volkswagen Group of Touareg 0.00500 Federal Cert Diesel 7-15 PPM Sulfur
    8 Volkswagen Group of A7 0.00500 Federal Cert Diesel 7-15 PPM Sulfur
    9 Mercedes-Benz GL 350 BLUETEC 4MATIC 0.00340 Federal Cert Diesel 7-15 PPM Sulfur
    10 Audi A8 0.00200 Federal Cert Diesel 7-15 PPM Sulfur
    11 Audi Q5 0.00200 Federal Cert Diesel 7-15 PPM Sulfur
    12 Mercedes-Benz GLE 350 D 4MATIC 0.00180 Federal Cert Diesel 7-15 PPM Sulfur
    13 Mercedes-Benz GLE 300 d 4MATIC 0.00170 Federal Cert Diesel 7-15 PPM Sulfur
    14 Mercedes-Benz E 250 BLUETEC 4MATIC 0.00140 Federal Cert Diesel 7-15 PPM Sulfur
    15 BMW 328d xDrive Sports Wagon 0.00064 Federal Cert Diesel 7-15 PPM Sulfur
    16 BMW 328d 0.00061 Federal Cert Diesel 7-15 PPM Sulfur
    17 Mercedes-Benz E 250 BLUETEC 0.00060 Federal Cert Diesel 7-15 PPM Sulfur
    18 FCA US LLC Grand Cherokee 4X2 0.00044 Federal Cert Diesel 7-15 PPM Sulfur
    19 FCA US LLC 1500 EcoDiesel29 4x2 0.00038 Federal Cert Diesel 7-15 PPM Sulfur
    20 FCA US LLC 5500 4X2 0.00035 Federal Cert Diesel 7-15 PPM Sulfur
    21 FCA US LLC Grand Cherokee 4X4 0.00035 Federal Cert Diesel 7-15 PPM Sulfur
    22 GM CANYON 4WD 0.00014 Federal Cert Diesel 7-15 PPM Sulfur
    23 FCA US LLC 1500 4X4 0.00012 Federal Cert Diesel 7-15 PPM Sulfur
    24 GM CANYON 2WD 0.00011 Federal Cert Diesel 7-15 PPM Sulfur
    25 Jaguar Land Rover L Range Rover Sport 0.00005 Federal Cert Diesel 7-15 PPM Sulfur
    26 BMW MINI COOPER HARDTOP 2 DOOR 1.02300 Tier 2 Cert Gasoline
    27 Bentley Continental GT 0.04800 Tier 2 Cert Gasoline
    28 Volkswagen Passat 0.01500 Tier 2 Cert Gasoline
    29 Volkswagen Group of A8L 0.01100 Tier 2 Cert Gasoline
    30 Volkswagen Beetle 0.01100 Tier 2 Cert Gasoline
    31 Porsche 911 Carrera 4S Cabriolet 0.00945 Tier 2 Cert Gasoline
    32 Maserati QUATTROPORTE S V6 RWD 0.00800 Tier 2 Cert Gasoline
    33 Porsche 911 Targa 4S 0.00790 Tier 2 Cert Gasoline
    34 Porsche Cayenne S e-Hybrid 0.00676 Tier 2 Cert Gasoline
    35 Volkswagen Touareg 0.00600 Tier 2 Cert Gasoline
    36 Subaru FORESTER 0.00592 Tier 2 Cert Gasoline
    37 Porsche 911 Targa 4 0.00543 Tier 2 Cert Gasoline
    38 Ferrari F12 Berlinetta 0.00530 Tier 2 Cert Gasoline
    39 FCA Italy Alfa 4c 0.00500 Tier 2 Cert Gasoline
    40 Audi Q5 Hybrid 0.00500 Tier 2 Cert Gasoline
    41 Volkswagen Group of SQ5 0.00500 Tier 2 Cert Gasoline
    42 Volkswagen Group of A3 0.00500 Tier 2 Cert Gasoline
    43 Volkswagen Group of A3 0.00500 Tier 2 Cert Gasoline
    44 Volkswagen Group of Q3 0.00500 Tier 2 Cert Gasoline
    45 Volkswagen Group of A8 0.00500 Tier 2 Cert Gasoline
    46 Volkswagen Jetta 0.00500 Tier 2 Cert Gasoline
    47 Volkswagen Passat wagon 0.00500 Tier 2 Cert Gasoline
    48 Porsche 911 Targa 4 0.00480 Tier 2 Cert Gasoline
    49 Porsche 911 Targa 4S 0.00460 Tier 2 Cert Gasoline
    50 Maserati GHIBLI V6 RWD 0.00450 Tier 2 Cert Gasoline
    51 Ferrari F12 Special Series 0.00440 Tier 2 Cert Gasoline
    52 Volkswagen Eos 0.00400 Tier 2 Cert Gasoline
    53 Maserati QUATTROPORTE SQ4 V6 0.00400 Tier 2 Cert Gasoline
    54 Jaguar Land Rover L Range Rover Evoque 0.00400 Tier 2 Cert Gasoline
    55 Volkswagen Passat 0.00400 Tier 2 Cert Gasoline
    56 Audi S5 0.00400 Tier 2 Cert Gasoline
    57 Volkswagen Group of Audi TT 0.00400 Tier 2 Cert Gasoline
    58 Volkswagen Tiguan 0.00400 Tier 2 Cert Gasoline
    59 GM CTS-V 0.00395 Tier 2 Cert Gasoline
    60 Ferrari FF 0.00390 Tier 2 Cert Gasoline
    61 Porsche Cayenne 0.00370 Tier 2 Cert Gasoline
    62 GM XTS AWD 0.00370 Tier 2 Cert Gasoline
    63 BMW X5 M 0.00341 Tier 2 Cert Gasoline
    64 Kia Soul ECO dynamics 0.00337 Tier 2 Cert Gasoline
    65 Porsche Boxster 0.00316 Tier 2 Cert Gasoline
    66 Porsche Boxster S 0.00315 Tier 2 Cert Gasoline
    67 Maserati Ghibli S Q4 V6 AWD 0.00300 Tier 2 Cert Gasoline
    68 Maserati Ghibli S RWD 0.00300 Tier 2 Cert Gasoline
    69 Jaguar Land Rover L F-Type 0.00300 Tier 2 Cert Gasoline
    70 Jaguar Land Rover L F-Type AWD 0.00300 Tier 2 Cert Gasoline
    71 Audi S5 0.00300 Tier 2 Cert Gasoline
    72 Audi Q5 0.00300 Tier 2 Cert Gasoline
    73 Volkswagen Group of S3 0.00300 Tier 2 Cert Gasoline
    74 Volkswagen Group of A4 0.00300 Tier 2 Cert Gasoline
    75 Jaguar Land Rover L Range Rover 3.0 PZEV 0.00300 Tier 2 Cert Gasoline
    76 Volkswagen Jetta 0.00300 Tier 2 Cert Gasoline
    77 BMW 640i xDrive Coupe 0.00299 Tier 2 Cert Gasoline
    78 Porsche 911 Turbo S Cabriolet 0.00296 Tier 2 Cert Gasoline
    79 Volvo XC90 T5 AWD 0.00290 Tier 2 Cert Gasoline
    80 BMW 328i 0.00284 Tier 2 Cert Gasoline
    81 Volvo XC90 T6 AWD 0.00280 Tier 2 Cert Gasoline
    82 Volvo XC60 T6 FWD 0.00280 Tier 2 Cert Gasoline
    83 Volvo XC90 T5 FWD 0.00280 Tier 2 Cert Gasoline
    84 Porsche Panamera 4 0.00280 Tier 2 Cert Gasoline
    85 FOMOCO Explorer FWD 0.00280 Tier 2 Cert Gasoline
    86 Honda CIVIC 4DR SEDAN 1.5L 0.00274 Tier 2 Cert Gasoline
    87 Volvo XC90 T8 AWD 0.00260 Tier 2 Cert Gasoline
    88 Mercedes-Benz AMG G65 0.00260 Tier 2 Cert Gasoline
    89 BMW X3 xDrive35i 0.00255 Tier 2 Cert Gasoline
    90 Porsche Panamera Turbo 0.00254 Tier 2 Cert Gasoline
    91 Ferrari California T 0.00240 Tier 2 Cert Gasoline
    92 Porsche Cayman GTS 0.00233 Tier 2 Cert Gasoline
    93 GM CANYON CAB CHASSIS 2WD 0.00229 Tier 2 Cert Gasoline
    94 Volvo XC70 T5 FWD 0.00220 Tier 2 Cert Gasoline
    95 BMW X5 xDrive50i 0.00214 Tier 2 Cert Gasoline
    96 Porsche 911 GT3RS 0.00213 Tier 2 Cert Gasoline
    97 Jaguar Land Rover L XJ AWD LWB 0.00212 Tier 2 Cert Gasoline
    98 Mercedes-Benz Smart Fortwo (Coupe) 0.00210 Tier 2 Cert Gasoline
    99 Porsche Panamera GTS 0.00210 Tier 2 Cert Gasoline
    100 BMW X6 xDrive50i 0.00202 Tier 2 Cert Gasoline
    101 Maserati QUATTROPORTE GTS 0.00200 Tier 2 Cert Gasoline
    102 Jaguar Land Rover L XF 0.00200 Tier 2 Cert Gasoline
    103 Jaguar Land Rover L F-Type Manual 0.00200 Tier 2 Cert Gasoline
    104 Jaguar Land Rover L F-Type AWD 0.00200 Tier 2 Cert Gasoline
    105 Volkswagen Passat 0.00200 Tier 2 Cert Gasoline
    106 Volkswagen Group of GTI 0.00200 Tier 2 Cert Gasoline
    107 Volkswagen Group of Golf 0.00200 Tier 2 Cert Gasoline
    108 Volkswagen Group of Golf 0.00200 Tier 2 Cert Gasoline
    109 Volkswagen Group of A4 Allroad 0.00200 Tier 2 Cert Gasoline
    110 Porsche Panamera 4S Executive 0.00200 Tier 2 Cert Gasoline
    111 Volkswagen Group of TTS 0.00200 Tier 2 Cert Gasoline
    112 Volkswagen Group of A6 0.00200 Tier 2 Cert Gasoline
    113 Jaguar Land Rover L F-Type S 0.00200 Tier 2 Cert Gasoline
    114 Jaguar Land Rover L XJ Supercharged 0.00200 Tier 2 Cert Gasoline
    115 Jaguar Land Rover L XF AWD 0.00200 Tier 2 Cert Gasoline
    116 Jaguar Land Rover L XJ 0.00200 Tier 2 Cert Gasoline
    117 Volkswagen Beetle 0.00200 Tier 2 Cert Gasoline
    118 Volkswagen Group of Beetle 0.00200 Tier 2 Cert Gasoline
    119 Volkswagen Group of Beetle 0.00200 Tier 2 Cert Gasoline
    120 Volkswagen Group of Beetle 0.00200 Tier 2 Cert Gasoline
    121 Volkswagen Group of Beetle 0.00200 Tier 2 Cert Gasoline
    122 Volkswagen Group of Jetta 0.00200 Tier 2 Cert Gasoline
    123 Volkswagen Group of Jetta 0.00200 Tier 2 Cert Gasoline
    124 Porsche Cayman GTS 0.00186 Tier 2 Cert Gasoline
    125 Volvo S60 T6 FWD 0.00180 Tier 2 Cert Gasoline
    126 Volvo S60 T6 AWD 0.00180 Tier 2 Cert Gasoline
    127 Porsche 911 GT3 0.00178 Tier 2 Cert Gasoline
    128 MAZDA MAZDA2 0.00177 Tier 2 Cert Gasoline
    129 GM IMPALA 0.00161 Tier 2 Cert Gasoline
    130 Volvo XC60 T6 AWD 0.00160 Tier 2 Cert Gasoline
    131 Porsche Panamera 0.00150 Tier 2 Cert Gasoline
    132 FCA US LLC Renegade 4x4 0.00148 Tier 2 Cert Gasoline
    133 Ferrari 488 GTB 0.00146 Tier 2 Cert Gasoline
    134 BMW MINI COOPER HARDTOP 4 DOOR 0.00145 Tier 2 Cert Gasoline
    135 Mercedes-Benz CLS 550 4MATIC 0.00140 Tier 2 Cert Gasoline
    136 Mercedes-Benz Smart Fortwo (Coupe) 0.00130 Tier 2 Cert Gasoline
    137 Kia Sorento 0.00124 Tier 2 Cert Gasoline
    138 FCA US LLC Renegade 4x2 0.00109 Tier 2 Cert Gasoline
    139 Hyundai Sonata 0.00108 Tier 2 Cert Gasoline
    140 BMW X1 xDrive28i 0.00107 Tier 2 Cert Gasoline
    141 Volkswagen CC 0.00100 Tier 2 Cert Gasoline
    142 Volkswagen Group of Mulsanne Speed 0.00100 Tier 2 Cert Gasoline
    143 Volkswagen Group of A3 e-tron 0.00100 Tier 2 Cert Gasoline
    144 Volkswagen Group of GTI 0.00100 Tier 2 Cert Gasoline
    145 Porsche Cayenne S 0.00100 Tier 2 Cert Gasoline
    146 Jaguar Land Rover L Range Rover Sport 0.00100 Tier 2 Cert Gasoline
    147 Volkswagen Group of Beetle 0.00100 Tier 2 Cert Gasoline
    148 Volkswagen Group of Beetle 0.00100 Tier 2 Cert Gasoline
    149 Volkswagen Group of Jetta 0.00100 Tier 2 Cert Gasoline
    150 Volkswagen Group of Jetta 0.00100 Tier 2 Cert Gasoline
    151 Volkswagen Group of Jetta 0.00100 Tier 2 Cert Gasoline
    152 Volkswagen Group of Passat 0.00100 Tier 2 Cert Gasoline
    153 Volkswagen Group of Passat 0.00100 Tier 2 Cert Gasoline
    154 BMW 750i xDrive 0.00099 Tier 2 Cert Gasoline
    155 FCA US LLC Renegade 4x2 0.00076 Tier 2 Cert Gasoline
    156 Volkswagen Group of Jetta 0.00075 Tier 2 Cert Gasoline
    157 BMW Mini Cooper S (5-doors) 0.00057 Tier 2 Cert Gasoline
    158 BMW Mini Cooper S Clubman 0.00055 Tier 2 Cert Gasoline
    159 Porsche Cayenne GTS 0.00054 Tier 2 Cert Gasoline
    160 BMW Mini Cooper S Clubman 0.00050 Tier 2 Cert Gasoline
    161 BMW Mini Cooper S (3-doors) 0.00037 Tier 2 Cert Gasoline
    162 Subaru BRZ 0.00010 Tier 2 Cert Gasoline


    [​IMG]

    Now the paper addresses 'cold start' which in a Prius runs about 45-55 seconds. This is the OPEN loop phase based upon a lookup table in the firmware. I throughly agree that without a particle filter, this initial start up, the gap between OPEN and CLOSED operation, is going to emit particulates.

    What I don't have is a good handle on is how much material are we talking about, the quantity, compared to normal operation. So this morning I will do a quick test with my regular 10 mile commute:
    • OPEN loop fuel consumption - A and B tripmeter, cold start, Gen-3 in "P"
    • CLOSED loop fuel consumption - reset B tripmeter after CLOSED loop ends, photo capture
    • CLOSED loop fuel consumption, warmed up - reset B trip meter after engine stops, photo too
    • total fuel consumption - A and B meter after arrival, photo
    So the morning temperature is 66F and this is what I captured:
    mode gallons burned
    1 catalytic light off in "P" 0.026526
    2 auto-stop warm-up in "P" 0.015428
    3 after atuo-stop warm-up 10 mi 0.150160


    Speculation is OK but we really need to quantify what we're looking at. Note, there is evidence the Gen-4 has made substantial improvements in the cold-start cycle saving fuel.

    Thanks,
    Bob Wilson
     
    #1361 bwilson4web, Apr 25, 2016
    Last edited: Apr 25, 2016
  2. bhtooefr

    bhtooefr Senior Member

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    And it is a very, very common practice to disable EGRs on diesels for maintenance reduction reasons, and to eliminate DPFs and downstream NOx controls for fuel consumption and repair cost reasons. (Not that the downstream NOx controls were being used that much on VWs...)

    High pressure EGRs (the normal kind) used to, before ultra-low sulfur diesel, result in rather rapid intake clogging. Even with ULSD, intake clogging is still a little bit of an issue, but it's not as big as it was before. (And, I mean, gasoline engines can have intake clogging too, as evidenced by the Gen 3 you linked, and my 2000 Miata is a year that's known for it. And, I'll admit that the Golf in my signature got the EGR deleted in software two weeks after I bought it. Knowing what I know now about how NOx reacts with VOCs to form smog (basically that the curve for NOx reducing smog in VOC-rich areas isn't that steep, and that VOC reductions are also being focused on in non-attainment areas), and knowing (even then) that intake clogging isn't as bad of a problem on modern fuel, I wouldn't have done an EGR delete, but it does help that I'm usually not in NAAQS non-attainment areas with that car, and I barely drive it anyway.)

    Low pressure EGRs (taking humid exhaust post-DPF, and introducing it pre-turbo (compressing it), where it expands in the intercooler (compressing and expanding a gas is a refrigeration cycle...)), cause intake icing problems in vehicles without air to water intercoolers (which act as interheaters in cold weather). The Gen 4 Prius's system seems to be a low pressure EGR, too, but because there's no turbocharger, I'm not worried about intake icing.

    As far as DPFs... on some cars, they can cost thousands of dollars/euros/pounds to replace. We're approaching the point in the US, and have reached the point in Europe (where DPFs have been around longer (they didn't work on our fuel before ultra low-sulfur diesel was a thing), and used car resale values are quite a bit worse), where a DPF failure can total a car. So, emissions control deletes are seen as a way to keep a 5 year old car on the road, rather than scrapping it and buying a replacement. And, there's an attitude in at least the American diesel community that the emissions controls just make power, fuel economy, and reliability worse for no real benefit. (Which is part of why parts of the diesel community would rather see the EPA abolished... to the point that discussing the Animas River mine spill is a banned topic on TDIClub, due to the amount of people trying to claim that the EPA was purely throwing VW under the bus to distract from that spill.) Also, in the diesel community, it's very common to get ECU tuning done for more performance (when $300 or so can get you 30 or more hp and 50 or 60 ft-lbs of torque easily enough, with a slight improvement in fuel economy), and nobody really knows the emissions impact of this (spoiler alert: NOx is almost certainly increasing, as part of this is through advancing timing), and most don't care.

    Ultimately, the solution isn't deleting emissions controls, it's buying vehicles that don't need absurdly complex emissions controls, or pushing for laws like the American (or especially the CARB) emissions warranty system (but then you get things like, Volkswagen trying to claim that AdBlue temperature sensors aren't part of the emissions system on TDIs, as part of their deny warranty claims and blame the customer strategy) to ensure that repairs are at least affordable. (And, that's one argument that us TDI people used to use against hybrids, that they were far more complex and therefore had more to break. Yeah, not any more, at least not Toyota's hybrids. TDIs are far more complex hardware-wise nowadays, and they actually do break.)

    Edit: Oh, also, regarding EGR and efficiency... gasoline engines typically have an emissions strategy of running at stoichometric mixture at all times, so blocking EGR on a gasoline engine means that more oxygen is seen, and therefore the engine needs to either reduce throttle (increasing pumping losses) or add fuel to maintain mixture. In diesels, stoichiometric mixture isn't actually possible (you can get average mixture to be stoichiometric, but the droplets of fuel will have locally lean zones around them, and locally extremely rich zones inside the droplet, and you'll get lots of unburned fuel out the tailpipe), so they always run lean. Deleting the EGR causes the ECU to see more oxygen available, but it won't necessarily respond by adding more fuel (it will during heavy acceleration (where it's in an oxygen-limited state, so more oxygen equals more fuel equals more power), but outside of that mode of operation, it won't) and restricting air isn't even possible for most engines to do (other than by decreasing turbocharger boost, but at least on mine (although some of this may be the tune I have), it sets a boost target almost independently of the fuel map (but both based on accelerator input), and the fuel map is limited by oxygen).
     
    #1362 bhtooefr, Apr 25, 2016
    Last edited: Apr 25, 2016
    bwilson4web likes this.
  3. austingreen

    austingreen Senior Member

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    I think you are mixing up a few things.

    Cold start in a prius or any naturally aspirated gasoline engine will have low NOx and particulates. These form when the engine is hot. It will have more NMOG and carbon monoxide because the catalytic converter is not warmed up to oxidize these molecules and a richer fuel mixture is used at start up.

    Particulates form easier in hotter engines or engines with hot spots. This is increased as effective compression is increased. The prius only has at most an effective compression of 9:1. Direct injection allows for higher compression and efficiency, but this can increase NOx and particulates, although not much. Turbo charging increases effective compression more. A boost of 1/2 atm in a 10:1 compression di turbo would have an effective compression of 15:1. The 3-way cat can easily reduce the extra NOx formed, but there is extra particulate. The new lower sulfur rules for gasoline though should reduce this. No problems with NOx or particulates really with a new car. They are much lower than cars designed before 2000.

    Now diesels have different fuel and much higher effective compression which means they will produce more NOx and particulates. Mazda tried a lower copression diesel to avoid the extra NOx and it simply could not pass us emissions without extra hardware, but does pass eaiser japanese emissions tests. They have figured out how to treat this exhaust. Diesels run lean so they have 2 way cats instead of 3 way cats (gasoline engines must run slightly rich of stoich for the 3 way cat to work correctly), which leave out the part which reduces NOx, and now there is more of it. VW tried a method to reduce the NOx without a urea catalyst, but appears not to have gotten this to work outside the lab.

    They then cheated on the results.

    Selective Catalytic Reduction (SCR) of NOx does work, but it require more expensive hardware plus room for a urea tank, and the cost of filling it up. That is the missing part here that VW cheated on.

    Diesel also requires a particulate filter, and cleaning it by burning the extra stuff caught in the filter causes other problems.

    This makes Diesels have more maintenance costs, and more weight and build costs.

    In the US market diesel cars don't make much sense economically.

    In europe where carbon dioxide was the target, and they didn't care about NOx or particulates, diesel is much more popular. France and other european countries are now changing toward wanting US type stanards on these pollutants.
     
  4. wxman

    wxman Active Member

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    Bob, no I didn't see the full paper, but I saw a presentation of the paper. It's my understanding that the particle number (PN) was the metric being used, not particle mass.

    I know that GDI vehicles in Europe have much higher PN emissions than comparable diesels with DPF. In fact, GDI has been given an order-of-magnitude leeway in PN regulations until 2017 (diesel vehicles in Europe have had to meet the regulatory limit, 6X10^11 particles/km, since 2011 with Euro 5b).

    What is your x-axis in your graphic above?
     
  5. bwilson4web

    bwilson4web BMW i3 and Model 3

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    I could not find anything in the abstract about NOx: Solid Particle Emissions from Vehicle Exhaust during Engine Start-Up

    Human exposure to vehicle exhaust during engine start-up can be encountered on a daily basis in parking lots, home garages, and vehicle stop/star traffic environment. This work is the first pilot study to characterize solid particle number and size distribution during engine start-up using various light-duty vehicles with different technology engines. A total of 84 vehicles were tested in this pilot study, consisting of post-2007 diesel engines equipped with high efficiency diesel particulate filters (DPFs) as well as modern gasoline port fuel injected (PFI) and gasoline direct injected (GDI) engines equipped with three-way-catalysts (TWCs). Particle concentration from DPF equipped diesel engines were found to be the lowest, while GDI and 8-cylinder PFI engines had the highest particle emissions. The average solid exhaust particle concentration observed with GDI engines during engine start-up was 12 × 106 part/cm3, this is a factor of more than 4000 higher than the ambient background concentration. A PN emissions index concept was developed to rank post 2010 model-year vehicles tested relative to a 4-cylinder diesel with DPF, used as the best available technology for low solid particle emissions. GDI engines had the highest PN indices, with up to a factor of 8000 higher for particles larger than 25 nm (Dp > 25 nm) and up to 900 times higher for particles smaller than 25 nm (DP < 25 nm).

    This study presents the differences seen in solid particle number emissions at engine start-up among the modern vehicle fleet. While all vehicles tested are expected to meet the respective emissions standard in the engine laboratory, there seems to be a drastic difference in their particle emissions performance in the real world under engine start-up. Lowering the PN emissions index from gasoline engines during engine start-up in future vehicles could be beneficial to the environment and the public as a whole. The priority should be on GDI engines followed by 8-cylinder PFI engines. High efficiency particle filters in engine exhaust such as diesel with DPF provides the best available technology for solid particle reduction, as shown in this work.

    A little off topic, particulates have their own problems. Since we're probably in a 'down period' waiting for June 21, I welcomed the divergence.

    I well remember seeing visible soot come out of cold engine exhausts until they warm-up back in the old carb days. But nothing prevents a fuel injected engine from running an excessively rich mixture when starting. In fact, I was thinking about getting a white, furance filter and fashioning a tailpipe mount or another kind of trap so we can check for visible particulates from our Prius on a cold-start.

    What news we are likely to see will likely come from Europe or possibly other non-USA sources for now. So cold-start particulates is an interesting diversion.

    Bob Wilson
     
  6. wxman

    wxman Active Member

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  7. bhtooefr

    bhtooefr Senior Member

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    GDI engines have problems due to insufficient mixing of air and fuel, though, just like diesels - you have to consider the behavior of individual droplets of fuel in a GDI engine, for particulate formation. It's not as bad as diesel due to the much higher volatility of gasoline, but it is a factor.
    Although, some of the affected engines (Passats, as well as all of the 3.0 liter engines, for North American models) actually have SCR systems, but it's believed that they cheated to reduce urea consumption and therefore maintenance intervals. Someone did reverse engineer firmware on a European car, and found a commented disassembly that indicated that it may have been an attempt to reduce tailpipe ammonia emissions, or pass the cheat off as such an attempt.
     
  8. austingreen

    austingreen Senior Member

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    Another study had higher particulates at high loads, and of course hsd maintains high loads on the engine. It found on deceleration that particulates looked like some had come from lubricant.

    It is easy to believe a hybrid would have twice the particulates as a similar engined non-hybrid. The key though is particulates versus the universe of cars.

    Here we get diesel without a particulate filter as highest, but this is greatly reduced with a filter.
    Then di turbos
    Then simply di high compression engines
    then the hybrids
    finally the port injection normally aspirated cars.
    +1
    Yes much will come from stratified charges which have lean and rich areas.
    And that just seems evil.
     
  9. bwilson4web

    bwilson4web BMW i3 and Model 3

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    One mixed blessing is lawyers looking for a 'class action' case will start investigating all emissions from all vehicles. Like blood in the water, it attracts land-sharks.

    Bob Wilson
     
  10. Trollbait

    Trollbait It's a D&D thing

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    More likely a conflict of the cost of possibly having to clean the particles from 99% of private vehicles.
    In the interest of fairness, disabling and bypassing emissions by the user is also common of owners of gasoline cars. Plenty of discussion on aftermarket tunes without mention of emissions, and straight pipes bypassing the cat at the Sonic forum I sometimes check. Plus a number of Civics I've seen have a coating of soot on the rear bumper. An old Prelude was smoking as bad as some diesels. The way it was driven had me believe it wasn't simply an issue of maintenance.
     
  11. austingreen

    austingreen Senior Member

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    I've got to say lawyers are necessary in rare instances, but the number of them really hurts the american psyche and economy.

    It would be much better if the regulators regulated better.

    It is a strange thing that a university uncovered this years before the epa really looked into it. The epa simply asked questions of vw and didn't persue, when they could have gotten it fixed sooner. They kind of gave vw more rope, which strengthens the epa when it comes to asking for funds to regulate these cheating auto companies, but hurts the US environment and costs money.
     
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  12. GasperG

    GasperG Senior Member

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    Problem is that there are two types of people:
    1. The ones that delete emission system from the start - "Eco tuning"
    2. The ones that have emissions system malfunction and just want to repair the car as cheaply as possible (DPF delete, EGR block)

    See the difference? Do you know what is happening to diesels as young as three year old, not to mention that an average car on the road is from 7-10 year old.

    See the problem?
     
  13. bisco

    bisco cookie crumbler

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    yep. but when they fix the car by bypassing emissions, does it pass emissions, or are there no tests?
     
    #1373 bisco, Apr 25, 2016
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  14. bhtooefr

    bhtooefr Senior Member

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    Many places don't check, or they just check what the computer says, and check to make sure the readiness monitors don't immediately come back ready after clearing codes.

    However, it's now common practice for tunes to spoof readiness for various deactivated emissions components, so they pass an OBD-2 test. And, there's stealth deletes available for the hardware, that even pass visual tests.

    As far as actual emissions testing of diesels, the most that most states usually do is to check for exhaust opacity, and the standards are usually very lax. That doesn't tell you anything about NOx, of course.

    And, mind you, there are plenty of people whose attitude to the VW fix (which may well severely impact performance and fuel economy, and they bought the car to get good performance and fuel economy) is that they're just going to go to a tuner, and get the fix reversed.
     
    #1374 bhtooefr, Apr 25, 2016
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  15. Trollbait

    Trollbait It's a D&D thing

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    The examples in the post I was replying too had examples of both types in regards to diesel cars. My examples didn't contain the later but they also exist for gasoline car owners; EGR blocks and cat bypasses aren't solely because of performance.

    Depends. Knew a guy whose little Ranger's cat was glowing red after he parked one evening. He was given directions to this garage, to go at night, and when he arrived, just honk twice. He did so, and a couple of guys came out, cut off the cat, knocked out its innards, installed a straight pipe inside, and then welded the cat back in place.

    For inspection, he would run a tank premium through the truck before hand, and it will pass, but this was all back in the '80s.

    Some states and areas don't have emission inspections, or just a visual one at most. For others the car might just have to meet some minimum requirements, but be emitting more than its smog rating. Then if the modification is just a tune to the software, those usually have a way of switching it back to factory spec for testing and service.
     
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  16. austingreen

    austingreen Senior Member

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    In texas diesels don't even get tested they only get inspected to see if the emissions control equipment is there.
     
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  17. bhtooefr

    bhtooefr Senior Member

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    Part of why some states do much less testing on diesels is because there's no federal in-service test for passenger diesels, only for gasoline engines.
     
  18. GasperG

    GasperG Senior Member

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    Percentage of people that tune their cars before any malfunctions is negligible, problem with diesel exhaust after treatment is pure life expectancy and cost of replacement, both of this are problems against simple petrol 3-way catalyst.

    I know of many examples of DPF delete where a owner is a normal mom with kids, not some 18-year old looking for power and low cost.

    In the environment where every one is living with diesel problems (EU) even the guys at the inspection own such a diesel with the same problem. It then becomes something that no one want's in their car and every one "understands" your solution to the problem.

    It's the same story with passive smoking, when a majority of people are smokers.
     
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  19. bwilson4web

    bwilson4web BMW i3 and Model 3

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    Thank you! This makes a lot of sense:
    This explains why so many might have 'aged' to the point of no longer working. You've also given me insights to how good the 3-way catalytic converters are and a good warning about particulate traps.

    If we look at this:
    [​IMG]
    In testing the new cars, the particulate filters in about half the diesels look pretty good. The other half look to be an order of magnitude better. But given their wear pattern, we need to see them tested after multiple purge cycles. Note that it looks like there may be a limit of detection. Also, some of the right-most gas cars are in that range too.

    Bob Wilson
     
  20. bhtooefr

    bhtooefr Senior Member

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    Even a modern TDI with a DPF delete is going to be rather high, for what it's worth. A 2006 New Beetle TDI with a DSG was producing 0.049 g/mi (the worst of the 4-cylinder TDIs in 2006, the last year without DPFs) in the test, and DPFs are the primary way that's reduced. The best in 2006 was the Jetta with a DSG, at 0.037 g/mi.

    Higher fuel injection pressure helps, but the 2009+ TDIs don't have higher fuel injection pressure than the 2004-2008 ones - 26000 PSI (except for Passats, at 23000), versus 29000 for the 2004-2008 TDIs.

    And, some of the NOx controls (EGR, mainly) actually result in increased PM emissions.

    In any case, there's two main failure modes for the DPF in the US TDIs.

    The first failure mode is that something happens to cause a massive soot loading, too quickly for the DPF to recover. This usually triggers a light, and sometimes you can manually trigger a regen with VCDS (an excellent third-party scan tool for VWs) or VAS 5054 (the dealer scan tool). Sometimes the DPF has to be removed for cleaning. No emissions impact if it's fixed quickly. If it isn't, though...

    The second failure mode is that something happened to cause the DPF to crack. Now exhaust can get past the DPF, and your tailpipe is sooty. Sometimes there's advance warning in the form of check engine lights, of the problem that caused it to happen, which is often an EGR issue. Sometimes you get the EGR code after it's too late to save the DPF.

    If the DPF has to be removed on a 2009 car, IIRC that's a $3000+ job. Probably about $1500-2000 if it's a 2010-2014 car or a 2009 that has already had a failure (everyone installs the 2010-2014 parts in 2009 cars that had a failure, the only difference is that the 2010-2014 parts have flanges so it can more easily be removed, and much less has to be replaced upon a failure). Not sure how the 2015+ cars do, I suspect the part's more expensive because a lot more is combined into one unit, and I'm not sure if it can be removed without dropping the engine.

    The other thing I wonder is how all of this is going to affect trucking, especially come 2018, when the EPA closes the glider loophole. (The glider loophole is due to how the EPA handles emissions certifications on heavy duty vehicles. They're on the engine, not the chassis, and the engine is rated in g/hp-hr (like off-road engines), not g/mi. So, right now, because of the unreliability and reduced fuel economy of modern diesel emissions systems, many truckers are buying a new chassis (known as a glider), and then installing an early 1990s engine. Come 2018, it'll be illegal to install an engine that doesn't meet requirements for the year the glider was produced.) I suspect that Cummins is going to sell a lot of their (spark ignited) natural gas engines (which are being marketed as being lower maintenance due to only having a three-way catalyst, no DPF or SCR), but that won't help as much for long-haul trucking, the main market for the Cummins Westport engines is regional. I almost wonder whether something that died circa 1974-1975 is going to come back, the gasoline semi.
     
    #1380 bhtooefr, Apr 26, 2016
    Last edited: Apr 26, 2016
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