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The All-Electric Peugeot e-2008 (SUV): The Complete Guide For Ireland

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Electric Peugeot e-2008
Price: From € 33,356
Type of electric vehicle: Battery-Electric Vehicle (BEV)
Body type: SUV
Battery size: 50 kWh
Electric range (WLTP): 345 km
Tailpipe emissions: 0g (CO2/km)

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The All-Electric Peugeot e-2008 SUV

Peugeot is part of the Netherlands based Stellantis N.V., which was formed by the merger of Fiat Chrysler Automobiles (Italian/ American) and Groupe PSA (French). You may not be familiar with these names, but the automotive brands in the portfolio would be well known to most consumers. These include: Maserati, Opel, Vauxhall, Jeep, FIAT, Alfa Romeo etc.

Peugeot was founded in 1810 in Eastern France (Sochaux), and has a rich heritage in motor racing and the broader automotive sector. Peugeot has won many awards for its passenger cars, to include, six European Car of the Year awards. As part of the broader Groupe PSA, Peugeot is very committed to the electric vehicle (EV) sector. The company’s portfolio of electric vehicles (EVs) include:

Like the Peugeot pure electric e-208, which hails from the Peugeot 208 supermini  portfolio, the pure electric Peugeot e-2008 SUV hails from the successful Peugeot 2008 model lineup. The Peugeot 2008 accounts for nearly 20% of the European sales. By making this successful crossover available in an electric model, the automotive company is safeguarding the future of this popular crossover! 

For families and company-car drivers keen to migrate to electric driving via a more affordable and compact electric SUV, the Peugeot e-2008 is certainly worth considering. The pure electric Peugeot has a 50 kWh onboard EV battery. It is true, in that, the more recent introduction of electric cars have a larger EV battery, but a 50 kWh battery still offers a practical e-range.

The manufacturer claims a zero-emission electric range up to 345 km (WLTP). Even adjusting for real-world driving conditions, the e-SUV should be able to deliver an electric range over 300 km. A useful and practical EV range for most day-to-day needs and for longer distance motorway driving. For those new to electric driving, a number of factors impact the quoted range. These include: driving profile, weather conditions, road surface, wheel size, onboard services used, passenger load and more.

The e-2008 electric SUV also incorporates regenerative braking to increase the vehicle efficiency and electric range. The EV offers two regenerative braking modes: moderate and emphasised. We recommend using the ’emphasised’ mode as often as possible to increase the efficiency of the electric vehicle (EV).

The Peugeot EV offers DC charging up to 100 kW, which is more than sufficient given the size of the onboard EV battery. At 100 kW DC, the EV can be charged up to 80% in 30 minutes. Just enough time for a coffee and short motorway break.

The e-2008 incorporates a 7.4 kW AC (1-phase) onboard charger. This again is appropriate, given that most homes in Ireland are powered by single-phase power supply. The EV battery can be fully charged in 7 hours and 30 minutes. There is an option to upgrade to a 11 kW (3-phase) onboard charger, but given the above, we do not recommend it. However, if you have a three-phase power supply at home or at work, then an option worth consideration.

We at e-zoomed recommend charging overnight when the electricity tariff prices are cheaper and we also encourage the use of a dedicated home EV charging station like zappi, which is compatible with solar energy. We discourage the use of a domestic 3-PIN plug for charging an electric car. The EV will take up to 24 hours to fully charge via a standard domestic socket!

In terms of performance, the front-wheel drive Peugeot e-2008 delivers 0-100 km/h in 9 seconds, with a 149 km/h top speed (maximum power: 136 hp/ torque: 260 Nm). The electric car also benefits from instant torque. The pure electric e-2008 comes with 3 driving modes: Sport, Normal and Eco. The Eco gives priority to electric range, while the Sport gives priority to performance. The Normal mode is for everyday use.

In terms of technology and safety features, the e-2008 includes the following (depending on the variant): active safety brake, acoustic vehicle alerting system, blind spot monitoring, Peugeot i-cockpit, 3D head-up digital instrument panel, 8 colour ambient lighting, 7″ high definition touchscreen, climate control and more. In terms of practicality, the EV offers 434 L boot space.

Bottom-line, electric driving is good for the environment and the wallet!

 PROS CONS
An affordable family e-SUVOnly available in one EV battery size
100 kW rapid charging standardOnly available as a front-wheel drive
Practical pure electric rangeDriving will not set the heart racing

Gallery

The All-Electric Peugeot e-2008 SUV (credit: Peugeot)

At A Glance
EV Type:Battery-Electric Vehicle (BEV)
Vehicle Type:SUV
Engine:Electric
Available In Ireland:Yes
Variants (3 Options)
Peugeot e-2008 Active (from € 33,356)
Peugeot e-2008 Allure (from € 35,075)
Peugeot e-2008 GT (from € 37,190)
EV Battery & Emissions
EV Battery Type:Lithium-ion
EV Battery Capacity:Available in one battery size: 50 kWh
Charging:100 kW rapid charging standard (10%-80%: 30 mins). Onboard charger 7.4 kW AC (0%-100%: 7 hrs 30 mins)
Charge Port:Type 2
EV Cable Type:Type 2
Tailpipe Emissions:0g (CO2/km)
Warranty:8 years or 160,000 km
Average Cost Of Residential Charging
Battery net capacity: 16.7 kWh€ 4.00
Battery net capacity: 30.0 kWh€ 7.19
Battery net capacity: 39.2 kWh€ 9.39
Battery net capacity: 45.0 kWh€ 10.78
Battery net capacity: 50.0 kWh€ 11.98
Battery net capacity: 64.0 kWh€ 15.34
Battery net capacity: 71.0 kWh€ 17.01
Battery net capacity: 77.0 kWh€ 18.45
Battery net capacity: 90.0 kWh€ 21.57
Battery net capacity: 100.0 kWh€ 23.97
  • Note 1: The average cost of residential electricity in Ireland varies depending on the region, supplier and type of energy used. An average for Ireland is 23.97 cents/kWh.
  • Note 2: Not all EV manufactures make available the data on net EV battery capacity, and in a number of instances the EV battery capacity advertised, does not state if it is gross or net capacity. In general, usable EV battery capacity is between 85% to 95% of the gross available capacity.
Charging Times (Overview)
Slow charging AC (3 kW – 3.6 kW):6 – 12 hours (dependent on size of EV battery & SOC)
Fast charging AC (7 kW – 22 kW):3 – 8 hours (dependent on size of EV battery & SoC)
Rapid charging AC (43 kW):0-80%: 20 mins to 60 mins (dependent on size of EV battery & SoC)
Rapid charging DC (50 kW+):0-80%: 20 mins to 60 mins (dependent on size of EV battery & SoC)
Ultra rapid charging DC (150 kW+):0-80% : 20 mins to 40 mins (dependent on size of EV battery & SoC)
Tesla Supercharger (120 kW – 250 kW):0-80%: up to 25 mins (dependent on size of EV battery & SoC)
  • Note 1: SoC: state of charge
Dimensions
Height (mm):1550
Width (mm):1770
Length (mm):4300
Wheelbase (mm):2605
Turning Circle (m):10.4
Boot Space (L):434
New Peugeot e-2008 SUV
EV Battery Capacity:50 kWh
Pure Electric Range (WLTP):345 km
Electric Energy Consumption (Wh/km):180
Charging:100 kW rapid charging standard (10%-80%: 30 mins). Onboard charger 7.4 kW AC (0%-100%: 7 hrs 30 mins)
Top Speed:149 km/h
0-100 km/h:9 seconds
Drive:Front-wheel drive
Electric Motor (kW):100
Max Power (PS):136
Torque (Nm):260
Transmission:Automatic
Seats:5
Doors:5
Kerb Weight (kg):1,548
Colours:6
NCAP Safety Rating:Four-Star

Electric Vehicles (EVs): Top 5 Jargons

There is no doubt, in that, for those new to electric driving, the terminology can be both daunting and confusing. We have chosen the top 5 jargons to help you get more familiar with electric vehicles (EVs)!

Top 5 Jargons : Electric Vehicles (EVs)
EV (Electric Vehicle) An EV is any vehicle that uses ‘electricity’ or an ‘electric motor’ to power the vehicle. The electric motor derives its power from a rechargeable battery or batteries.  In general,  EVs are less dependent on petrol or diesel as fuel, and in the case of pure electric cars, not dependent at all, on petrol/diesel for propulsion. EVs encompass all types of electric vehicles, to include Battery-Electric Vehicles (BEVs), Plug-in Hybrid Electric Vehicles (PHEVs), Extended Range Electric Vehicles (E-REVs) and Fuel Cell Electric Vehicles (FCEVs).  
Regenerative BrakingDriving at all times requires braking. However, on more densely populated roads, the frequency and intensity of braking increases, reducing the efficiency of the vehicle. Regenerative braking is the process of capturing energy, otherwise wasted during braking. According to the rules of physics, energy cannot be destroyed, instead it simply transfers from one state to another. The same principle applies to braking. The kinetic energy that propels a car forward is usually displaced or wasted as heat. Regenerative braking captures this kinetic energy, that in turn recharges an onboard EV battery, increasing both efficiency and electric range. Electric cars like Toyota Prius PHEV, Jaguar I-PACE BEV and Tesla Model 3 BEV use regenerative braking to increase efficiency and electric range. 
TorqueTorque (Nm) is the measure of the force that can cause an object to rotate about an axis. Torque is a key factor in determining acceleration of a vehicle and is defined as the engines rotational speed. Torque is most commonly defined as the force required to twist an object. For example, a wrench being used. The heavier a car, the more important is the role of torque i.e. the vehicle needs more rotational force to help it accelerate faster. 
WLTP (Worldwide Harmonised Light Vehicle Test Procedure)In a bid to continue to improve the quality of data released by automotive manufacturers (OEMs), on efficiency, range and CO2 emissions, Europe has introduced the WLTP testing procedure. WLTP is seen as a significant improvement over the New European Driving Cycle (NEDC) testing standard designed in the 1980s. In general, WLTP data is more realistic compared to NEDC! WLTP has been developed with the aim of becoming a global standard, so that cars can be easily compared between regions. However, real world driving data will still differ from WLTP data. As an example, the real world electric range of an electric car can be significantly lower than the stated WLTP range, depending on driving style, driving conditions, weather, onboard services used and more!    
ULEVs (Ultra-Low Emission Vehicles) An ultra low emission vehicle is any vehicle that emits less than 75g of CO2/km and is capable of operating with zero-tailpipe emissions for at least 10 miles. In general, ULEVs release emissions that are at least 50% lower than petrol and diesel cars, by using low carbon technologies. ULEVs include all types of electric vehicles: BEVs, PHEVs, E-REVs etc. and are a key solution in improving air quality. There are currently numerous ULEVs available, to include e-cars, e-vans, e-motorcycles, e-mopeds and e-taxis. Examples include: Nissan Leaf, BMW i3, MINI Countryman PHEV and Renault Kangoo ZE.

While e-zoomed uses reasonable efforts to provide accurate and up-to-date information, some of the information provided is gathered from third parties and has not been independently verified by e-zoomed. While the information from the third party sources is believed to be reliable, no warranty, express or implied, is made by e-zoomed regarding the accuracy, adequacy, completeness, legality, reliability or usefulness of any information. This disclaimer applies to both isolated and aggregate uses of this information.

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Author

Ashvin Suri

Ashvin has been involved with the renewables, energy efficiency and infrastructure sectors since 2006. He is passionate about the transition to a low-carbon economy and electric transportation. Ashvin commenced his career in 1994, working with US investment banks in New York. Post his MBA from the London Business School (1996-1998), he continued to work in investment banking at Flemings (London) and JPMorgan (London). His roles included corporate finance advisory, M&A and capital raising. He has been involved across diverse industry sectors, to include engineering, aerospace, oil & gas, airports and automotive across Asia and Europe. In 2010, he co-founded a solar development platform, for large scale ground and roof solar projects to include, the UK, Italy, Germany and France. He has also advised on various renewable energy (wind and solar) utility scale projects working with global institutional investors and independent power producers (IPP’s) in the renewable energy sector. He has also advised in key international markets like India, to include advising large-scale industrial and automotive group in India. Ashvin has also advised Indian Energy, an IPP backed by Guggenheim (a US$ 165 billion fund). He has also advised a US$ 2 billion, Singapore based group. Ashvin has also worked in the real estate and infrastructure sector, to including working with the Matrix Group (a US$ 4 billion property group in the UK) to launch one of the first few institutional real estate funds for the Indian real estate market. The fund was successfully launched with significant institutional support from the UK/ European markets. He has also advised on water infrastructure, to include advising a Swedish clean technology company in the water sector. He has also been involved with a number of early stage ventures.

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