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Interview  |  Martin Roemheld, Part 1

„E-cars are better cars“

Interview with Martin Roemheld

martin_roemheld_fullsize

More models, more quick-charging stations, more services: according to Martin Roemheld, Head of E-Mobility Services at Volkswagen AG, 2021 will be the year of electric mobility. In the first part of the interview, the expert talks about promotional concepts, the acceptance of electric mobility and explains why he feels comfortable driving his ID.3 even long distances with low remaining battery capacity.

Mr Roemheld, only recently, the Federal Government decided to extend the environmental bonus for electric cars until 2025. What do you think: is this a step in the right direction or do we need other subsidy schemes?

Financial incentives like these play a key role in the current transformation phase. However, quickly developing the charging infrastructure and optimising the model portfolio is just as important. At the end of the day, it’s all about inspiring customers to embrace the “e-car” product – convincing them that e-cars are convenient, are the basis for an entirely new form of mobility and are the better alternative in many cases.

Why are some customers – whether they be company car drivers or private individuals – still hesitant when it comes to electric mobility?

There are a number of reasons for this. I like to compare electric mobility to smartphones. If you had a Blackberry back in 2005, this probably attracted not only the attention of your friends but also one or two doubtful glances. In 2007, Apple launched the iPhone and eighteen months later smartphones were completely normal. As far as I’m concerned what happened in the mobile phone market in 2007 will happen in the car market in 2021. We’ll see more and more e-cars – our neighbours, colleagues and friends will all have them. And the more experience people have of them, the more they accept and trust them. This is also reflected in the way many people deal with the battery capacity of their electric cars. Although their vehicles could easily travel another 300 kilometres, they often charge them again after just 50 kilometres. We need to give people the confidence to drive their electric cars until they have just ten or 15 kilometres’ range remaining – as they would with a petrol or diesel car. We can only do this if they trust the infrastructure and get used to dealing with the new technology.

“Before the pandemic, I travelled to Sweden with my four children over the weekend. We left on Friday and came back on Monday, covering a distance of over 2,000 kilometres. It was great in the ID.3. You could have a good chat with no engine noise and the children were able to relax and play in the back. It was a great experience in every way!”

Martin Roemheld
Head of e-Mobility Services at Volkswagen AG

How do you personally deal with the technology?

I regularly drive my ID.3 (power consumption in kWh/100 km (NEDC): 15,4-13,5 (combined), combined CO₂-emissions in g/km: 0; efficiency class: A+) from Wolfsburg to Dresden to see my family. It’s a classic long-distance trip – and I’m now used to driving the car when its remaining battery capacity is below half. There’s a simple reason for this: if I charge my car at a charging station when it has 50 percent charge remaining, the energy flows into the battery more slowly than it would if I had just ten percent. So I prefer to charge my ID.3 at a quick-charging station when it’s nearly empty – charging it to 50 percent takes just a few minutes compared to charging it from 50 to 100 percent which takes much longer. The IONITY charging stations along the route – along with those on other long-distance routes – are reliable and have never let me down.

What do you think about the countless different billing models? Many people who are new to electric cars could find it all a little daunting…

Of course, the market is still establishing itself at the moment. The comparison with smartphones applies here too. Providers started out with fixed prices per minute. Now there’s a whole range of clearly structured tariffs which allow you to choose what is best for your individual requirements: do I want a high data volume or not, do I make lots of international calls or none at all… The IONITY quick-charging network which customers can use with the We Charge card or the Charge&Fuel Card, for example, already provides a tariff which offers very cheap kWh prices at quick-charging stations for a fixed monthly price. If company car users often charge their cars in public places this is of course ideal. We could even see complete flat rate models in the future. Once providers have better understood customers’ usage profiles, there will be an even bigger range of tariffs to suit specific customers. Incidentally, we as a manufacturer are also taking steps to make registering at charging stations easier. At the moment, you need the WeCharge Card or the relevant smartphone app. In the future, we’ll offer Plug & Charge. We’re recording the registration data in a software certificate in our cars so that the vehicles can communicate independently with the charging station.

Let’s look at a specific use case concerning fleet customers: a fleet manager would like to start using e-cars in their fleet. Who should they speak to?

The major customer advisers are always the first people to speak to. They are the interfaces to the Group-wide know-how surrounding electric mobility. This means not only the vehicles but also the entire charging infrastructure – an area that our green electricity subsidiary Elli has focused on for all our brands since 2018. As a fleet customer, you get everything from a single source – from charging stations at your company site to home wall boxes for user choosers with the option of separate billing. We offer advice tailored to all our customers. In 2021, Elli will also develop a bidirectional charging product. Once it becomes possible from a technical and organisational point of view to feed electricity from the vehicle back into the grid, this will open up entirely new possibilities for the company. The fleet which is charging in the company car park during the night and functions as an electricity storage system can then make an active contribution towards creating added value.

Mr Roemheld, thank you for this interesting chat. Of course, we’ve got one last question: which e-car from the Group is your favourite?

You’re sure to have noticed during the interview that I’m a fan of the ID.3. The car, the feeling when you drive it, the complete ecosystem around it – everything is right. Personally, I love the Porsche Taycan too – and as a family man, I’m really looking forward to the series version of the ID.BUZZ. I’m sure it’ll be a great success…

Status: 19.01.2021

 

© Volkswagen AG

Audi S6 Sportback e-tron, electricity consumption in kWh/100 km: combined 16.7–15.7; CO₂ emissions in g/km: combined 0; CO₂ class: A. Information on electricity consumption, CO₂ emissions and CO₂ classes given in ranges depends on the equipment selected for the vehicle. Vehicle images show special equipment. (Status: 09.2024)
Audi A6 Avant e-tron performance, electricity consumption in kWh/100 km: combined: 17.0–14.8; CO₂ emissions in g/km: combined 0; CO₂ class: A. Information on electricity consumption, CO₂ emissions and CO₂ classes given in ranges depends on the equipment selected for the vehicle. Vehicle images show special equipment. (Status: 09.2024)
Audi A6 Sportback e-tron performance, electricity consumption in kWh/100 km: combined 15.9–14.0; CO₂ emissions in g/km: combined 0; CO₂ class: A. Information on electricity consumption, CO₂ emissions and CO₂ classes given in ranges depends on the equipment selected for the vehicle. Vehicle images show special equipment. (Status: 09.2024)
CUPRA Formentor VZ 2.0 4Drive 245 kW (333 PS), fuel consumption (combined): 8.7-8.9 l/100 km; CO₂ emissions (combined): 192-201 g/km; CO₂ class (combined): G. Information on consumption, CO₂ emissions and CO₂ classes given in ranges depends on the equipment selected for the vehicle. Vehicle images show special equipment. (Status: 09.2024)
CUPRA Leon VZ 1.5 e-HYBRID 200 kW (272 PS), fuel consumption (weighted, combined) 0,4 l/100 km; power consumption (weighted, combined) 16.5-16.8 kWh/100 km; fuel consumption (battery discharged) 5.4-5.5 l/100 km; CO₂ class (weighted, combined) 9-10 g/km; CO₂ class (weighted, combined): B; CO₂ class (battery discharged): D. Information on consumption, CO₂ emissions and CO₂ classes given in ranges depends on the equipment selected for the vehicle. Vehicle images show special equipment. (Status: 09.2024)
CUPRA Leon Sportstourer VZ 1.5 e-HYBRID 200 kW (272 PS), fuel consumption (weighted, combined) 0.4-0.5 l/100 km; power consumption (weighted, combined) 16.7-17.1 kWh/100 km; fuel consumption (battery discharged) 5,5-5,6 l/100 km; CO₂ class (weighted, combined) 9-11 g/km; CO₂ class (weighted, combined): B; CO₂ class (battery discharged): D. Information on consumption, CO₂ emissions and CO₂ classes given in ranges depends on the equipment selected for the vehicle. Vehicle images show special equipment. (Status: 09.2024)
CUPRA Tavascan Z 4Drive 250 kW (340 PS) 77 kWh, power consumption (combined): 16.5-18.1 kWh/100 km; CO₂ emissions (combined): 0 g/km; CO₂ class: A. Information on consumption, CO₂ emissions and CO₂ classes given in ranges depends on the equipment selected for the vehicle. Vehicle images show special equipment. (Status: 09.2024)
Golf eHybrid, power consumption weighted, combined: 15.7–14.7 kWh/100 km plus 0.4–0.3 l/100 km; fuel consumption battery discharged, combined: 5.3–5.0 l/100 km; CO₂ fuel consumption battery discharged, combined: 9–6 g/km; CO₂ class weighted, combined: B; CO₂ class battery discharged: D–C. Information on consumption, CO₂ emissions and CO₂ classes given in ranges depends on the equipment selected for the vehicle. Vehicle images show special equipment. (Status: 08.2024)
Q6 e-tron, electricity consumption in kWh/100 km: combined 19.6-16.5; CO₂ emission in g/km: combined 0; CO₂ class: A. Information on electricity consumption, CO₂ emissions and CO₂ classes given in ranges depends on the equipment selected for the vehicle. Vehicle images show special equipment. (Status: 06.2024)
Q7, fuel consumption in l/100 km (combined):11,0–7,8; CO₂ emissions in g/km (combined): 251–204; CO₂ class: G. Information on fuel/power consumption and CO₂ emissions given in ranges depends on the equipment selected for the vehicle. Vehicle images show special equipment. (Status 03.2024)
ID.7 Tourer Pro, power consumption in kWh/100 km: combined 16.8-14.5; CO₂ emission in g/km: combined 0. Only consumption and emission values according to WLTP and not according to NEDC are available for the vehicle. Information on fuel/power consumption and CO₂ emissions given in ranges depends on the equipment selected for the vehicle. Vehicle images show special equipment. (Status: 03.2024)
Superb, the official consumption and emission figures will not be available until the type approval process is concluded. (Status: 12.2023)
Enyaq 85 / Enyaq 85x, Enyaq 85: power consumption in kWh/100 km: combined 15.8-14.9; CO₂ emission in g/km: combined 0. Enyaq 85x: power consumption in kWh/100 km: combined 16.8-16.0; CO₂ emission in g/km: combined 0. Only consumption and emission values according to WLTP and not according to NEDC are available for the vehicles. Information on fuel/power consumption and CO₂ emissions given in ranges depends on the equipment selected for the vehicle. Vehicle image shows special equipment. (Status: 12.2023)
Q4 Sportback e-tron, power consumption in kWh/100 km: combined 18,9–15,6 (WLTP); CO₂ emissions in g/km: combined 0. Only consumption and emission values according to WLTP and not according to NEDC are available for the vehicles. Information on fuel/power consumption and CO₂ emissions given in ranges depends on the equipment selected for the vehicle. Vehicle image shows special equipment. (Status: 11.2023)
Audi S6 Limousine TDI, fuel consumption in l/100 km (combined): 7,3–6,9; CO₂ emissions in g/km (combined): 191–182. Consumption and emission values are only available according to WLTP and not according to NEDC for the vehicle. (Status: 10.2023)
Audi S6 Avant TDI, fuel consumption in l/100 km (combined): 7.5–7.1; CO₂ emissions in g/km (combined): 196–187. Consumption and emission values are only available according to WLTP and not according to NEDC for the vehicle. (Status: 10.2023)
Audi S7 Sportback TDI, fuel consumption in l/100 km (combined): 7.5–7.1; CO₂ emissions in g/km (combined): 195–186. Consumption and emission values are only available according to WLTP and not according to NEDC for the vehicle. (Status: 10.2023)
Porsche Taycan 4, power consumption in kWh/100 km: combined 24.8–19.6; CO₂ emissions in g/km: combined 0. Only consumption and emission values according to WLTP and not according to NEDC are available for the vehicles. Information on fuel/power consumption and CO₂ emissions given in ranges depends on the equipment selected for the vehicle. Vehicle images show special equipment. (Status:07.2023)
Audi e-tron GT quattro, power consumption in kWh/100 km: combined 21.6–19.6; CO₂ emissions in g/km: combined 0. Only consumption and emission values according to WLTP and not according to NEDC are available for the vehicles. Information on fuel/power consumption and CO₂ emissions given in ranges depends on the equipment selected for the vehicle. Vehicle images show special equipment. (Status:07.2023)
Born 170 kW (231 PS) 77 kWh, power consumption in kWh/100 km: combined 17.5-15.7; CO₂ emissions in g/km: kombiniert 0; electric range (combined): 496-552 km (527-551 km for 5 seater) (WLTP). Only consumption and emission values according to WLTP and not according to NEDC are available for the vehicles. Information on fuel/power consumption and CO₂ emissions given in ranges depends on the equipment selected for the vehicle. Vehicle images show special equipment. (Status:07.2023)
Tavascan, vehicle image shows optional equipment. (Status: 04.2023)
Vehicle no longer available for order, no consumption and emission data are available.
Golf Alltrack, fuel consumption in l/100 km: combined 5.9–5.6; CO₂ emissions in g/km: combined 154-146. Only consumption and emission values according to WLTP and not according to NEDC are available for the vehicles. Information on fuel/power consumption and CO₂ emissions given in ranges depends on the equipment selected for the vehicle. Vehicle images show special equipment. (Status: 03.2023)
Audi R8 Spyder, fuel consumption in l/100 km: combined 13.9–13.4; CO₂ emissions in g/km: combined 316-305. Only consumption and emission values according to WLTP and not according to NEDC are available for the vehicles. Information on fuel/power consumption and CO₂ emissions given in ranges depends on the equipment selected for the vehicle. Vehicle images show special equipment. (Status: 03.2023)
Polo GTI, fuel consumption in l/100 km: combined 7.1–6.8; CO₂ emissions in g/km: combined 161-153. Only consumption and emission values according to WLTP and not according to NEDC are available for the vehicles. Information on fuel/power consumption and CO₂ emissions given in ranges depends on the equipment selected for the vehicle. Vehicle images show special equipment. (Status: 03.2023)
Leon CUPRA 300, no longer available for order. (Status: 03.2023)
Audi e-tron, power consumption in kWh/100 km: combined 24.3–22.0; CO₂ emissions in g/km: combined 0: efficiency class: A+++. Vehicle images show special equipment. (Status: 09.2019)
A6 Avant TFSI e quattro, fuel consumption in l/100 km: combined 1.6–1.3; power consumption in kWh/100 km: combined 21.5–19.8; CO₂ emissions in g/km: combined 37-30. Only consumption and emission values according to WLTP and not according to NEDC are available for the vehicles. Information on fuel/power consumption and CO₂ emissions given in ranges depends on the equipment selected for the vehicle. Vehicle images show special equipment. (Status: 03.2023)
SEAT Leon e-Hybrid, currently not available. (Status: 03.2023)
Arteon eHybrid and Arteon Shhoting Brake eHybrid, Arteon eHybrid: fuel consumption in l/100 km: combined 1.4–1.1; power consumption in kWh/100 km: combined 16.0–14.7; CO₂ emissions in g/km: combined 31-25. Arteon Shooting Brake eHybrid: fuel consumption in l/100 km: combined 1.4–1.2; power consumption in kWh/100 km: combined 16.2–15.0; CO₂ emissions in g/km: combined 32-26. Only consumption and emission values according to WLTP and not according to NEDC are available for the vehicles. Information on fuel/power consumption and CO₂ emissions given in ranges depends on the equipment selected for the vehicles. Vehicle images show special equipment. (Status: 03.2023)
T-Roc R, fuel consumption in l/100 km: combined 9.1–8.6; CO₂ emissions in g/km: combined 205-196. Only consumption and emission values according to WLTP and not according to NEDC are available for the vehicles. Information on fuel/power consumption and CO₂ emissions given in ranges depends on the equipment selected for the vehicle. Vehicle images show special equipment. (Status:03.2023)
ID.4, ID.4 Pure Performance: power consumption in kWh/100 km: combined 17.9–16.7; CO₂ emissions in g/km: combined 0. ID.4 Pro Performance: power consumption in kWh/100 km: combined 18.6–16.4; CO₂ emissions in g/km: combined 0. ID.4 Pro 4MOTION: power consumption in kWh/100 km: combined 19.3–17.1; CO₂ emissions in g/km: combined 0.Only consumption and emission values according to WLTP and not according to NEDC are available for the vehicles. Information on fuel/power consumption and CO₂ emissions given in ranges depends on the equipment selected for the vehicle. Vehicle images show special equipment. (Status: 03.2023)
Enyaq iV and Enyaq Coupé iV, Enyaq iV: power consumption in kWh/100 km: combined 17.1–15.8; CO₂ emissions in g/km: combined 0. Enyaq Coupé iV: power consumption in kWh/100 km: combined 16.9–15.4; CO₂ emissions in g/km: combined 0.Only consumption and emission values according to WLTP and not according to NEDC are available for the vehicles. Information on fuel/power consumption and CO₂ emissions given in ranges depends on the equipment selected for the vehicle. Vehicle images show special equipment. (Status: 03.2023)
Motorsports vehicle, not available as a production model, no consumption and emission data are available.
ID.4 GTX, power consumption in kWh/100 km: combined 19.3–17.2 (WLTP); CO₂ emissions in g/km: combined 0. Only consumption and emission values according to WLTP and not according to NEDC are available for the vehicles. Information on fuel/power consumption and CO₂ emissions given in ranges depends on the equipment selected for the vehicle. Vehicle images show special equipment. (Status: 03.2023)
Amarok PanAmericana, fuel consumption in l/100 km: combined 10.5–10.2; CO₂ emissions in g/km: combined 274-267. Only consumption and emission values according to WLTP and not according to NEDC are available for the vehicles. Information on fuel/power consumption and CO₂ emissions given in ranges depends on the equipment selected for the vehicle. Vehicle images show special equipment. (Status:03.2023)
ID.3, power consumption in kWh/100 km: combined 16.5–15.2; CO₂ emissions in g/km: combined 0. Only consumption and emission values according to WLTP and not according to NEDC are available for the vehicles. Information on fuel/power consumption and CO₂ emissions given in ranges depends on the equipment selected for the vehicle. Vehicle images show special equipment. (Status: 07.2023)
Audi Q8 e-tron, combined power consumption in kWh/100 km: 24.4–20.1(WLTP); CO₂ emissions (combined) in g/km: 0. Only consumption and emission values according to WLTP and not according to NEDC are available for the vehicles. Information on fuel/power consumption and CO₂ emissions given in ranges depends on the equipment selected for the vehicle. Vehicle images show special equipment. (Status: 12.2022)
Superb, official consumption and emission figures are not yet available, as the type approval process has not yet been completed.
ID. Buzz and ID. Buzz Cargo, ID. Buzz Pro: power consumption in kWh/100 km: combined 21.8 - 20.6; CO₂ emissions in g/km: combined 0. ID. Buzz Cargo: power consumption in kWh/100 km: combined 22.3-20.3; CO₂ emissions in g/km: combined 0. Only consumption and emission values according to WLTP and not NEDC are available for the vehicles. Fuel consumption and CO₂ emissions data with ranges depending on the vehicle equipment selected. Vehicle illustrations show optional equipment.
ID.5 Pro and ID.5 Pro Performance, Power consumption in kWh/100 km: combined 18.4-16.1; CO2 emissions in g/km: combined 0. Only consumption and emission values according to WLTP and not NEDC are available for the vehicles. Fuel consumption and CO2 emission data with ranges depending on the equipment selected for the vehicles. Vehicle illustration shows optional equipment.
Image shows concept vehicle/study, the vehicle is not available as a production model, no consumption and emission data are available.
ID.5 Pro, power consumption in kWh/100 km: combined 16.2; CO2 emissions in g/km: 0; efficiency class: A+++.Vehicle image shows optional equipment. (Status: 11.2021)
ID.5 GTX, Power consumption in kWh/100 km: combined 17.1; CO₂ emissions in g/km: 0; efficiency class: A+++. Vehicle image shows special equipment. (Status: 05.2022)
Audi e-tron, power consumption in kWh/100 km: 24.3–22.0 combined; CO2-emission combined in g/km: 0; Efficiency class: A+++. Vehicle image shows optional equipment. (Status: 09.2019)
ID.4 Pro Performance, power consumption in kWh/100 km: 16.0–14.8 combined; CO2-emission combined in g/km: 0; Efficiency class: A+++. Vehicle image shows optional equipment. (Status: 02.2021)
Q5 Sportback, fuel consumption in l/100 km: Combined 7.6-4.7; CO2 emissions in g/km: Combined 182-123; efficiency class: C-A+. Vehicle image shows optional equipment. (Status: 02.2021)
Caddy Cargo, Fuel consumption in l/100 km: Combined 5.8-4.4; CO₂ emissions in g/km: Combined 131-117. Vehicle image shows optional equipment. (Status: 02.2021)
OCTAVIA COMBI SCOUT 1,5 TSI DSG e-TEC 110 kW, fuel consumption in l/100 km: Urban 6.1, extra-urban 4.2, combined 4.9; CO2 emissions in g/km: combined 112; efficiency class: A. Vehicle image shows optional equipment. (Status: 02.2021)
SEAT Leon Sportstourer e-HYBRID, power consumption in kWh/100 km: Combined: 15.5–15.0; electricity consumption/petrol in l/100 km: Combined 1.3–1.2; CO2 emissions in g/km: Combined 29–27; efficiency class: A+. Vehicle image shows optional equipment. (Status: 02.2021)
SEAT Leon e-HYBRID, power consumption in kWh/100 km: Combined 15.4–14.9; fuel consumption/petrol in l/100 km: Combined 1.3–1.2; CO2 emissions in g/km: Combined 29–27; efficiency class: A+. Vehicle image shows optional equipment. (Status: 05.2021)
SEAT Tarraco e-HYBRID, power consumption in kWh/100 km: Combined 14.5; fuel consumption/petrol in l/100 km: Combined 1.8; CO2 emissions in g/km: Combined 41; efficiency class: A+. Vehicle image shows optional equipment. (Status: 05.2021)
Audi Q4 e-tron , power consumption in kWh/100 km: Combined 17.3–15.8 (NEDC); Combined 19.0–17.0 (WLTP); CO₂ emissions in g/km: 0; efficiency class A+. Vehicle image shows optional equipment. (Status: 05.2021)
Octavia RS iV, fuel consumption in l/100 km: combined 1.5; power consumption in kWh/100 km: combined 11.2; CO2 emissions in g/km: combined 33; efficiency class: A+. Vehicle image shows optional equipment.
Octavia Combi RS iV, fuel consumption in l/100 km: combined 1.5; power consumption in kWh/100 km: combined 11.4; CO2 emissions in g/km: combined 34; efficiency class: A+. Vehicle image shows optional equipment. (Status: 05.2021)
OCTAVIA COMBI iV, fuel consumption in l/100 km: combined 1.4; power consumption in kWh/100 km: combined 11.6; CO₂ emissions in g/km: combined 31; efficiency class: A+. Vehicle image shows optional equipment. (Status: 05.2021)
CUPRA Born, power consumption in kWh/100 km: combined 16.0–15.0; CO₂ emissions in g/km: 0; efficiency class: A+. Vehicle image shows optional equipment. (Status: 09.2021)
Q4 Sportback e-tron, power consumption (NEDC) in kWh/100 km: combined1) 17.9–15.6; CO₂ emissions in g/km: combined1) 0; efficiency class: A+. Vehicle images show special equipment. (Status: 09.2021)
ŠKODA ENYAQ iV 80x, Power consumption in kWh/100 km: 16.1 combined; CO2-emission combined in g/km: 0; Efficiency class: A+. Vehicle image shows optional equipment. (Status: 09.2021)
ID.4 GTX, Power consumption in kWh/100 km: 18.2-16.3 combined; CO2-emission combined in g/km: 0; Efficiency class: A+++. Vehicle image shows optional equipment. (Status: 10.2021)
ID.5 GTX, power consumption in kWh/100 km: combined 17.1 – 15.6; CO₂ emissions combined in g/km: 0. Efficiency class: A+++; Vehicle image shows optional equipment.
ID.5 Pro and ID.5 Pro Performance, power consumption in kWh/100 km: combined 15,9 – 14,6; CO₂ emissions combined in g/km: 0; Efficiency class: A+; Vehicle image shows optional equipment. (Status: 06.2022)
CUPRA Formentor 2.0 TDI, fuel consumption in l/100 km: combined 5.1-4.3; CO₂ emissions in g/km: combined 135-113; efficiency class: B-A.Vehicle image shows optional equipment. (Status: 05.2022)
Audi S8 TFSI, fuel consumption in l/100 km: combined 10.8-10.7; CO₂ emissions in g/km: combined 246-245; efficiency class: E.¹⁾ Vehicle image shows optional equipment. (Status: 05.2022)
ID.3 1ST, power consumption in kWh/100 km: combined 15,4 – 13,5; CO₂ emissions combined in g/km: 0; Efficiency class: A+; Vehicle image shows optional equipment. (Status: 09.2021)
ŠKODA ENYAQ iV 80 , electricity consumption in kWh/100 km: Combined 13.6; CO2 emissions in g/km: 0; efficiency class: A+++. Vehicle image shows special equipment. (Status: 02.2022)
Golf GTI, (180 kW / 245 PS) (NEDC) fuel consumption in l/100 km: urban 9.0-8.6 / extra-urban 5.6-5.3 / combined 6.9-6.5; CO₂ emissions in g/km (combined): 157-149; efficiency class: D-C. Vehicle image shows special equipment. (Status: 05.2021)