T&E commissioned the Technical University of Graz to independently test three new popular, average-sized plug-in hybrids — the BMW 3 Series, the Peugeot 308, and the Renault Megane — on the road.
1) The real-world CO2 emissions of the tested plug-in hybrids (PHEVs) are 85–114 g/km, around 3 times the artificially low official rating of 27–36 g/km
2) When not charged, city CO2 emissions are 5–7 times the official values
3) When commuting, starting with a fully charged battery, test CO2 emissions were 1.2–3 times the official values
4) The city electric range of the BMW was 26% and of the Peugeot 47% lower than expected
5) BMW’s geo-fencing technology does not guarantee zero emission driving in cities
In commuter tests, PHEVs pollute more than claimed when starting on a full battery
Two years ago T&E tested the BMW X5, Volvo XC60, and Mitsubishi Outlander SUV PHEVs under a wide range of conditions, mostly on longer routes. This year T&E tested three smaller PHEVs on shorter routes which can be reasonably done by those living in cities or commuting to see if PHEV performance has improved.
When tested on the commuter route, starting with a fully charged battery and driving in the mode selected by the PHEV, the Peugeot and the Renault emitted 1.2–1.7 times the official CO2 (33–50 gCO2/km). They still performed comparatively better than the BMW, which emitted over 100 gCO2/km (3 times the official value). Activation of the BMW’s “anticipatory” mode was needed (by programming the route into the satellite navigation system) to reduce commuting CO2 by around half to 67g/km (2 times the official value). The necessity to use the sat-nav to reduce CO2 to levels closer to the other PHEVs tested is not ideal, as driver’s may not use the sat-nav on known routes, resulting in unnecessarily high CO2emissions.
In city tests, PHEVs powered by the engine emit 5–7 times advertised CO2
CO2 when not charged
Studies show that many PHEVs, especially company cars, are rarely, if ever charged. T&E’s previous testing showed that when not charged, PHEV CO2 is very high. When tested with an empty battery in the city, CO2 emissions were still very high (~200g/km) for the BMW and the Peugeot. This is equivalent to the emissions of the VW Tiguan SUV. The Renault had lower emissions of 138g/km. Compared to the over two PHEVs the Renault has around half the engine power, a more powerful electric motor than ICE and lower weight, all factors which are important in restricting PHEV CO2 emissions.
In city tests, all three PHEVs had less than 50 km range
City electric range
The electric range of PHEVs is still limited. When driving around the city of Graz, the electric range of all three PHEVs was less than 50 km. BMW achieved a 26% lower electric range and Peugeot 47% lower than expected based on official data. Only Renault achieved the expected electric range.
PHEVs are not suitable for clean cities
PHEVs offer cities few climate or air quality benefits because there is no guarantee that they will be driven electrically.
BMW’s “eDrive Zone” geo-fencing is advertised as a way to increase PHEV zero emission driving in 138 European cities by automatically switching to zero emission driving when in the city. During testing, the technology failed to guarantee emission-free city driving. With geo-fencing technology enabled, the engine switched on twice while driving in the city, putting into doubt the effectiveness of the technology. Outside of geo-fenced zones, T&E’s tests also showed that the BMW might be conserving battery charge in case of entry into such areas — risking increasing CO2 from PHEVs when driving outside of cities.
Short electric range and no fast charging risk PHEVs rapidly running out of charge in geo-fenced zero-emission zones. This puts the integrity of future zero-emission zones in cities such as Amsterdam, Paris, and London at risk and limits their climate and air quality benefits.
Even if an EU-wide geo-fencing standard required zero emission driving in geo-fenced areas, it is doubtful this can be effectively enforced. PHEVs that turn on their ICE for just short bursts would be nearly impossible for cities to detect.
PHEVs weaken Europe’s clean car rules
While official CO2 emissions of PHEVs are low (27-36 g/km for the tested PHEVs), real world data shows that PHEVs are driven electrically less than assumed by regulation. This means that in reality, the official CO2 of the three PHEVs tested should be 85-114 g/km.
Carmakers unfairly benefit from artificially low PHEV CO2 when it comes to compliance with EU car CO2 standards
In 2022, PHEVs will have reduced carmakers fleet average CO2 by more than any other flexibility in the CO2 regulation. Due to the unrealistically low PHEV CO2, the monetary value for carmakers of selling PHEVs is large. T&E calculates that in 2022 this amounted to :
- BMW: €0.9 billion or €8,200 per PHEV
- Stellantis: €1.3 billion or €9,300 per PHEV
- RNM: €0.3 billion or €6,900 per PHEV
Selling PHEVs with artificially low CO2 also means that fewer BEVs need to be sold for carmakers to comply with CO2 targets. For the three carmakers, 247,000 fewer BEVs needed to be sold, 22% of 2022 BEV sales.
Carmakers benefit from PHEV subsidies
The benefits for carmakers don’t stop at CO2 compliance. T&E estimates that around €350 million will have been paid out in PHEV purchase subsidies in 2022 for the three carmakers alone. While Germany, which is responsible for the majority of the subsidy spend, has removed PHEV subsidies starting from 2023, other Member States such as Spain plan to continue to support PHEV sales despite the large body of evidence which shows that these cars fail to deliver the promised climate benefits.
Subsidies given to PHEVs in 2022:
This all comes at a cost to consumers as, on average, in the EU, it is cheaper to own a BEV than a PHEV. T&E’s analysis using comparable BEV models shows that owning a Tesla Model 3 vs. the BMW 3 Series would save €2,600 over 4 years, the Citröen eC4 vs. the Peugeot 308 would save €4,800, and the electric Renault Megane vs. the PHEV version would save €1,300.
The results of T&E’s testing show that PHEV models are not getting considerably better at CO2 savings, and cannot guarantee zero emissions driving in cities. Policymakers should take action by ensuring that PHEVs are not treated the same as BEVs when it comes to entry into zero emission zones. T&E recommends the following reforms in the short and medium term:
- PHEVs should not be treated as zero emission even if they have geo-fencing capability.
- PHEV ownership and company car benefit-in-kind taxation should be based on the actual CO2 reduction delivered by individual PHEVs in the real world.
- Privately owned PHEVs should not receive purchase subsidies. Where these exist (e.g. in early BEV markets), they should be based on performance criteria, such as: a min electric range of 80km, the power of electric motor at least equal to the power of the ICE, capability to fast charge and maximum engine only CO2 of 139 g/km.
- No purchase subsidies should be given to company cars.
- Official PHEV CO2 emissions need to be regularly updated with real world data.
- The option to charge the PHEV using the internal combustion engine should be removed by carmakers.
- Carmakers should educate and reward PHEV drivers for driving electrically.
Full press release about the news:
Plug-in hybrid cars are still presented as a climate solution, but tests on the newest generation of PHEVs indicate they pollute significantly more than claimed on city and commuter routes. Two years ago, Transport & Environment (T&E) found the technology, which contains an electric battery and a combustion engine, polluted significantly more than advertised on longer routes. It says the new tests confirm beyond doubt that lawmakers should base taxes for PHEVs on their actual pollution and stop subsidising their sale.
Three recent PHEV models, a BMW 3 Series, Peugeot 308 and Renault Megane, emitted more CO2 than advertised when tested on the road even when starting with a full battery. The BMW polluted three times its official rating when driven on a typical commuter route, according to the tests by Graz University of Technology, commissioned by T&E. The Peugeot 308 and Renault Megane plug-in hybrids performed better but still polluted 20% and 70% more than claimed, respectively, despite the relatively short round-trip distance covered (55km).
In city driving, the Peugeot had just over half (53%) of the advertised electric range on a single charge while the BMW had only 74%. Only the Renault had the electric range claimed. However, with just 50km on a single charge and no fast charging, the Renault’s zero-emissions use on commuter routes across European cities will remain limited.
Anna Krajinska, vehicle emissions manager at T&E, said: “Plug-in hybrids are sold as the perfect combination of a battery for all your local needs and an engine for long distances. But real-world testing shows this is a myth. In city tests, just one of the PHEVs has the electric range advertised, while all three emit more than claimed in commuter driving. Lawmakers should treat PHEVs based on their actual emissions.”
BMW has introduced new geo-fencing technology that automatically switches the PHEV to zero-emission electric driving in cities. However, when tested in the city of Graz, the BMW 3 Series switched on the engine twice. Tests also suggest that the BMW could be saving battery charge when outside cities in case of entry into geo-fenced areas. T&E said geo-fencing technology does not guarantee zero-emissions driving in cities and, potentially, risks increasing CO2 emissions outside such zones.
Company cars make up 71% of new PHEV sales, and research shows they drive the vast majority of kilometres on the engine and are rarely charged. When tested with an empty battery, the BMW, Peugeot and Renault emitted 5-7 times their claimed CO2 on the road. T&E said governments should end subsidies for PHEV fleet vehicles and tax them based on their pollution in the real world.
European countries spent around €350 million last year on purchase subsidies for PHEVs from BMW, Peugeot and Renault alone, T&E’s report finds. While taxpayers are forced to fork out, consumers are also hit with the higher total costs of owning plug-in hybrids, compared to battery electric vehicles. On average, an EU driver switching from the Peugeot 308 plug-in hybrid to a Citröen eC4 would save €4,800 over four years while the electric Renault Megane would save €1,300 compared to the PHEV version, and owning a Tesla Model 3 instead of the BMW 3 Series PHEV would save €2,600.
Anna Krajinska said: “PHEVs should not be treated as zero emission even if they have geo-fencing capability. Private car and company car taxes for PHEVs should be based on the actual CO2 reduction delivered. Governments should end all purchase subsidies for PHEVs in fleets and instead encourage companies to use battery electric cars which are truly zero emissions.”
Originally published by Transport & Environment.
Featured image courtesy of T&E
Source: Clean Technica