Emissions drop not enough to satisfy Govt
/Consumers are getting the message about buying cleaner cars, but the Beehive is pushing too hard, industry suggests.
Read MoreConsumers are getting the message about buying cleaner cars, but the Beehive is pushing too hard, industry suggests.
Read MoreThe electric micro batmobile that blitzed Goodwood the other day was worked on by a Brit who ran at the 2020 NZGP meeting.
Read MoreGOVERNMENT’S determination today to exempt light electric vehicles from road user charges until the end of March 2024 has been welcomed by a pressure group for battery-driven vehicles.
Read MoreNew wholly and plug-in electric cars within the price range to achieve a tasty Clean Car rebate still need a crash test score from our sole recognised provider, ANCAP. But not all incoming models have this. A problem?
Read MoreEUROPE’S biggest provider of electric cars will be asked to accelerate local market release of its mainstream models now that Government has delivered a tasty incentive.
Read MoreLAST year brought some astounding introductions to the electric vehicle sector – not only brilliant new prestige models for those unrestricted by budget consideration.
We also witnessed the cheapest new electric car in the market getting even cheaper; a repricing of the MG ZS EV to $48,990 was a surprise bombshell – that sticker being $7000 below a price first proposed that, in itself, would have positioned this model advantageously.
As is, NZ motorists are now enjoying their first sub-$50,000 brand-new fully electric car, retailing for $1000 less than the ‘special introductory price’ that was offered to the first 50 orders, when that book was opened in 2019.
It’s hard to see that feat being bettered in 2021, but perhaps it might.
Certainly, we’ll have even more electric cars to consider this year, several from mainstream makers, including a market leader which is fully versed in the art of successful sales craft.
So, anyway, here in alphabetical order are the new EV models slated to arrive within the next 12 months.
AN electric fan blowing down a long metal cylinder … captured by specialists and further modified and built on was among a total of 32 individual audio elements that have gone in creating the special sound track that gives Audi’s performance EV rather special aural signature. It’s said to be something similar to a jet engine powering up, with the noise modulating based on the engine data, before it is projected from a loudspeaker at the front of the vehicle. Speed and throttle position change the tone.
Sounding a bit strange? Well, noise is important to cars, but for a different reason in respect to EVs. For sure, Audi would like to create a frisson of excitement, but also they’re having to bear in mind that the European Union and the United States have introduced regulations mandating all electric cars emit an external sound for the benefit of pedestrians – up to 20kmh and 32kmh respectively.
It’s doubtless an element of the first Audi RS model to go fully electric, skipping the plug-in hybrid stage altogether and beating hi-po rivals BMW M and Mercedes-AMG to market with emissions-free motoring, that will be a subject of some discussion when this hot shot lands around mid-year.
In terms of performance temperature, think an obvious barometer. The RS E-Tron GT is very closely related t the Porsche Taycan; they are not doppelgangers in styling nor in technology application, outputs alter as do even electric motor count (plus they’re built in different factories), but they do use a common platform.
The GT will deliver is two formats, the RS being the top dog. In the latter power comes from high-energy 83.7kWh (93kWh gross) battery that feeds two synchronous motors – a 175kW motor powers the front axle and is shared with the regular e-Tron GT, but the rear is larger and more powerful, at 335kW. Just like the Taycan, there’s a two-speed transmission on the rear axle, and a focus on coasting rather than recuperation to extend battery range.
Charge times will also be equivalent to the Taycan, with a maximum DC charging capacity of 270kW, for a theoretical 100km of range in 5 minutes. A 50kW DC charger boosts the battery from five to 80 percent in around 1.5 hours, or 22kW AC charger from 0-100 percent in around 4.5 hours.
As with Porsche, Audi is also about impressing how the GT’s seriousness by reminding that not only is it coming out of the same high-tech plant as the R8 supercar north of Stuttgart in Germany but (and take this as a thinly-disguised swipe at Tesla) the build quality will be superb. For instance, Audi is employing precision machines that can measure surface inaccuracies on the bodywork within 0.2 of a millimetre.
BMW'S first electric SUV built from the ground up on a new EV platform shares exterior dimensions of an X5, is as tall as an X6 and has the wheelbase of an X7, with very high specification and plush appointments in two levels of bodywork, a standard look and a sport enhancement with more rakish styling elements.
The cockpit uses a lot of inspiration from the iNext concept, including a hexagonal steering wheel and a vast curved digital displays for the driver and front passenger to use.
It also features BMW's new ‘fifth-generation’ electric powertrain tech. We are told that the car will be powered by two electric motors (with no rare earth elements), producing 'more than' 370kW, which comprehensively beats the 300kW EQC and e-tron 50 and 55 (respectively 230kW and 300kW).
Apparently the iX will do 0-100kmh in under five seconds, but of greater importance is the efficiency and range between charges. BMW expects the car will average 21kWh per 100km on the WLTP cycle, resulting in a range of more than 600km from its 100kWh battery pack.
Recharging times are also impressive … when the right hardware is in place. The iX3 can be DC fast-charged at up to 200kW, allowing 10-80 percent charging in under 40 minutes, or 120km range for 10 minutes of charge.
The car premieres a new aluminium space frame that supports an inner carbon cage fabricated from CFRP – for composite plastic and carbon-fibre-reinforced-plastic – covered with a body made out of a combination of aluminium and CFRP. The latter is a material BMW has become accustomed to working with as it features intensively in the i3 and now discontinued i8 plug-in hybrid sports car.
For the first time in a modern-day BMW model, the iX will feature a fixed clamshell style bonnet. A series of aerodynamic developments, including the blanked-off grille, minimal air ducting within the front bumper, flat underbody panelling, integrated door handles with an electronic opening mechanism and the tapered glasshouse, contribute to a claimed drag coefficient of 0.25.
Full LED main beams are standard, though buyers will also be able to specify BMW’s Laser lights as an option. At the rear, the iX’s narrow tail lamps receive LED functionality as standard.
Look for it in the second half of 2021.
Likely to be pitched as a competitor for three like-sorted models already on sale here - the Mercedes EQC, Audi e-tron and Tesla Model X – though differing from those in being more obviously based on an existing model.
The iX3 nonetheless represents an important step. It’s not just BMW’s first electric SUV, but also the first BMW to be available with either pure combustion, plug-in hybrid or pure electric power.
The X3’s platform has been adapted with a new rear sub-frame that houses a single electric motor and an 80Wh battery pack – yes, it’s exclusively rear-drive - that, BMW says, is 20 percent more energy dense than any battery it has used before.
Output is to the tune of 210kW and 400Nm and a 6.8-second 0-100kmh sprint is claimed. BMW says it’ll provide an impressive 460km range, as determined on a WLTP test cycle. Using fast-charging, the iX3 is capable of receiving 80 percent charge in 34 minutes.
BMW is talking up the car’s adaptive energy recuperation system, which it claims automatically enhances efficiency on longer drives. Using location data from BMW’s latest cloud-based navigation system, the iX3 can autonomously change the level of braking recuperation on the move and according to the road ahead. For instance, if the car recognises that a stop sign is ahead, full recuperation will be deployed without any need for the driver to select it.
Alternately, the driver can take manual control of the regenerative braking, with three levels of resistance availed. A ‘B’ position on the Drive selector enables high enough energy recovery for one-pedal driving around town, a trick the brand appears to have nabbed from Toyota/Lexus.
The iX3 gets a unique tune for its standard adaptive suspension system with electronically controlled dampers. Alternately, buyers will be able to specify a sportier Adaptive M suspension setup.
The front grilles are closed off for aerodynamic purposes and the bumpers have been reprofiled and it gets set of aerodynamic wheels styled to reduce the drag coefficient by around five percent compared with regular X3 wheels.
Arrival? We’re thinking it’ll time pretty much with iNext.
Okay, so this one’s a bit of a punt. Ford New Zealand says the only electric car it can officially confirm as a definite 2021 starter here is the plug-in hybrid version of the Escape. And, of course, they’re looking at a fully battery-propelled Transit in 2022.
When asked about the Mach-E, spokesman Tom Clancy replied: “I would love to confirm Mach-E for New Zealand – from all reports it’s an excellent and exciting vehicle – but can’t at this time.”
So that’s not a no, and the reason why there’s a chance the electric Mustang (and yes, petrolheads, like it or not, that is what it officially is) sports utility could be coming is because it’s starting to reach the United Kingdom and, also, there’s growing conviction from Australia that they’ll achieve the car before next Christmas.
What is for sure is that, whether it’s a 2021 arrival or later, there’s every likelihood NZ will at some stage be down to take Ford’s first mass-market electric car in its 116-year history.
You should be excited. Ford says this all-new car is a true pony express; the range-topping Mach-E GT will hit 100kmh in under four seconds, thanks to an all-wheel drive layout channelling the 342kW and 830Nm outputs of a 75.7kWh lithium-ion battery (a 98.8kWh extended range battery is available).
Ford is claiming a range of 480 kilometres from a full charge using its extended-range rear-wheel-drive car.
This is the mid-life update version of the car that NZ has known for more than a year. The refresh delivers a cleaner front-end design, aerodynamic tweaks and a restocked safety suite that complements improved interior technology.
It retains the single 64kWh lithium-ion battery pack, but the charging port has moved to place asymmetrically between the front headlights, having previous been sited slightly to the passenger side. Charge time is claimed to take 47 minutes when done with a 100kW DC fast charger.
We’d expect to see this in the first half of 2021.
Where Hyundai goes, the subordinate marque generally follows.
Once again, this is a facelift. There’s not too much info around, but as with the original pitch, it’s likely to be outdone by its Hyundai Kona cousin for style but
Chances are NZ will see only the more powerful of two battery options, which should see it travel 450kms between charges.
Built on Toyota’s GA-C platform, this version of the smallest Lexus crossover runs a front-mounted motor that produces 150kW and 300Nm of torque.
Energy comes from a 54.3kWh underfloor lithium ion battery offering a claimed range of around 315km on the official WLTP testing regime. It's capable of 0-100kmh in 7.5 seconds, has a top speed of 160kmh and an optimal range of 400km.
The model’s high-rate lithium ion battery is capable of DC replenishment and rapid-charging from zero to 80 percent takes 52 minutes. It features a number of driving modes so that the performance of the motor can be better managed, along with paddles to alter the strength of the regenerative braking.
Lexus says the drivetrain has been developed with a focus on on-road performance and the goal of offering a quiet and refined driving experience. Extra bracing has been added over the regular UX hybrid and the dampers reworked to maintain optimum weight distribution.
Prioing has yet to be discussed, but the plan is for the UX300e to form a new “flagship” of this family range so expect to pay more than the $70,300 asked for the current line-topping UX250h AWD F-Sport.
Two flavours for 2021 – mild hybrid and full-out electric – with a third, this delivering as a full electric but with a small petrol-fuelled engine (yes, a rotary) likely to follow perhaps next year.
The Hybrid is powered by a 2.0-litre, four-cylinder petrol engine paired to Mazda's M Hybrid system, producing maximum outputs of 114kW and 200Nm through a six-speed automatic transmission sending power to the front wheels only.
The addition of the mild-hybrid system means the model's official fuel consumption figure is reduced to a claimed 6.4L/100km on a combined cycle.
The MX-30 Electric, meanwhile, looks much the same as the mild hybrid car, save for some subtle electric badging on the exterior and a combined AC/DC charging point where the fuel cap would normally be – on the rear right-hand side of the vehicle.
The electric model is powered by a 107kW/271Nm electric motor on the front axle and boasts a 35.5kWh lithium-ion battery pack mounted beneath the floor. Range is modest, up to 200km on a single charge according to the World harmonised Light vehicle Testing Procedure (WLTP). That’s less than some of the MX-30's key competitors, but Mazda’s not sweating it. A smaller battery means quick recharging; three hours to recharge on an AC socket, or roughly 36 minutes on a 50kWh DC fast charger
In terms of sizing, at 4395mm long, 1795mm wide and 1555mm tall, the MX-30 is in the same category as the CX-30, with a 311-litre boot on both the electric and mild-hybrid variants.
The model’s most discussed design feature are pillar-less freestyle doors, inspired by those on the Mazda RX-8 sports coupe (and kinda like those on the BMW i3), which open outwards from the central B-pillar point, hinged at the rear.
The MX-30 has won a 2020 five-star rating from Europe's New Car Assessment Programme. Standard safety kit includes 10 airbags – front, curtain, front-side, rear-side, front far-side (driver) and a driver’s knee – plus emergency lane keeping with blind-spot assist and something called road keep assist, which helps you stay on track even in the absence of lane markings.
There’s also ‘turn-across traffic functionality’ which can intervene in collisions at intersections by activating the smart-brake support system.
The cabins of both variants are alike. An 8.8-inch screen that sits at the top of the dashboard controls the infotainment system via a rotary dial, while a second lower 7.0-inch touchscreen provides access to the climate controls.
The floating centre console has cork accents as a nod to the brand's history as a cork manufacturer.
The majority of materials used in the MX-30's interior are sustainably sourced or recycled, from the vegan leatherette upholstery om the seats, to the door trim materials which are made from recycled plastic bottles.
The latest Leaf but featuring a 62kWh battery (up from 40kWh) that can propel the small five-door 384 kilometres on a single charge, representing a 110-kilometre improvement over the standard edition.
In addition to the ‘E’ also referencing ‘electric’ and the ‘q’ conforming to an in-house naming practice, the name also derives from the Gaelic girl’s name Enya (which means ‘fire’ and ‘kernel’). The iV part is less clear.
Good background to chuck into the inevitable discussion owners of this five-seater medium crossover will enter into with those curious to know more about what will not only be the first fully electric Skoda to come on sale here but also the first of numerous cars utilising a Volkswagen Group underpinning that are set to hit New Zealand, not just as VWs but also as Audis and a SEAT.
Skoda’s status as the debutante for the MEB platform on local turf is a happenstance that hasn’t occurred in most places; but fact is VW New Zealand has resigned to not seeing the ID models that advance this tech until at least 2022, starting with the ID 4. Same goes for SEAT, with its car, the El Born.
Enyaq’s NZ release (and price) has yet to be shared, but the local distributor has already started the pre-launch build up. Insofar as specification goes? Well, there’s likely to be plenty to think about; the factory is prepping Enyaq with the options of three battery sizes, five power variants and a driving range of up to 500 kilometres. It also provisions in rear-drive in entry form and four-wheel-drive further up the range and a performance all-paw RS edition with 225kW is on the cards.
In size Skoda’s EV slots between the Karoq and the Kodiaq, being 4648mm long, 1877mm wide and 1618mm tall, on a 2765mm wheelbase. It classes as an SUV, though realistically that’s just a convenience. There isn't a great deal of ground clearance so don't expect to go very far off-road in it.
However, it is designed to tow (if only up to 1200kg) and will is as roomy as the Kodiaq, with a big cabin – made all the more spacious by the lack of a transmission tunnel – and a 585-litre boot. Unlike some other electric SUVs, there isn't a storage area under the bonnet.
The line starts with the 109kW Enyaq iV 50, driven by a rear-mounted electric motor (so, rear-wheel drive) with a 55kWh battery pack and a maximum driving range of 340 kilometres.
Above this is the Enyaq iV 60, also rear-wheel drive but with a 62kWh battery and a 390km driving range, then the Enyaq iV 80, the highest choice in the rear-motored set. It has an 82kWh battery offering 150kW and up to 500 kilometres’ range.
Beyond this are dual-motor all-wheel-drive 80X and RS variants, also with the 82kWh battery pack, but with a second electric motor driving the front wheels. In this form the 80X has 195kW and the RS another 30kW more. The extra grunt comes at expense of range, but not greatly, with 460km claimed. The RS is the only variant that Skoda has announced a 0-100kmh time for; claiming it’ll smash that in 6.2 seconds. That’s 0.8s better than the fastest current Kodiaq, the RS.
Fast charging is also promised with an 80 percent 'fill' possible from 40 minutes at a 125kW DC-powered station … if talking about the 82kWh models. The onboard 11kW charging unit will enable users with a suitable domestic wallbox to replenish the battery charge in six to nine hours, depending on battery size.
The cabin eschews the usual Skoda instrument displays and instead takes a small digital display ahead of a two-spoke steering wheel plus an augmented head-up display that projects onto the windscreen, as in the Volkswagen ID.3 hatch (which isn’t being considered for NZ incidentally). A centrally mounted freestanding touchscreen sits atop the dashboard, and this will come in two sizes, 10- or 13-inch, depending on model.
Skoda’s bent for practicality reveals with decent interior storage, including a generous console between the front seats. It gets a large wireless charging pad that can charge two phones simultaneously. Oh yes, and it has the trad umbrella.
Skoda has a wide variety of specification grades, starting with Studio, available in the Enyaq 50 alone. Additional Loft, Lodge, Suite and Eco Suite trim levels will be available on the 60 and 80 models, and Eco Suite features more sustainably sourced materials. The 60 and 80 versions will gain the largest touchscreen display, a 13-incher.
Again, a bit of a punt with this one, at least in respect to timing, as Tesla no longer bothers communicating with media about its cars.
The model, of course, is not secret; the Model Y is a five-seat crossover all-electric vehicle built on the same third-generation platform as the Model 3; think of it as being a more practical, higher-riding stablemate that stands as a smaller alternate to the Model X, albeit not as wacky – so a conventional set of doors here.
A dead-ringer to the fossil-fuelled XC40 from the kerbside, and from overseas’ reports, it’s not so different in driving feel, either.
Of course, it is a radical departure, in being the first Volvo to sell here – arriving mid-year or so, by the way – to forego hooking up to Big Oil.
Here two electric motors provide a very healthy 304kW and 660Nm to all four wheels. A 78kWh battery (that can charge to 80 percent on a fast charger in 40 minutes) should provide enough juice for the XC40 Recharge to travel between 350-400kms in the real world.
The strength of the powertrain is sufficient for a claimed 0-100kmh time of 4.9 seconds.
When discussing Volvo, you’ll be wondering about the chances of seeing anything from Polestar, an offshoot which is all about passenger EVs with a performance twist.
Good news. Volvo NZ is in discussion with Polestar with intent to furnish the Polestar 2 (below) which, unlike the preceding Polestar 1 is produced in right-hand drive.
It will feature 300kW of full electric power and boast a range of 560km. But it won’t be available before 2022, says Volvo NZ boss Coby Duggan.
ESSENTIALLY identical core components and closely-aligned performances, common basic aims … both behind the same badge.
As much as they are, quite literally worlds, apart each is being developed at a leading motorsport facility with intent to create race-winning performance, starting with some astounding grunt: Up to 745kW.
The timeline trajectories are uncannily close. Announcements about one seem to always be followed by an update on the other.
Who will be first? Is it a race? Who else might be competing?
As the days toward each project achieving readiness for full-out field testing draw closer, the nation’s interest in Haydon Paddon’s groundbreaking Hyundai Kona electric rally car is set to grow.
Meantime, in South Korea and in Europe, all eyes seem to be on a car that, while not a doppelganger, is clearly also from the same broad breeding, the RM20e Prototype.
Meantime, anyone taken notice yet of the Ford Fiesta ERX, an early starter in the FIA’s new World Rallycross Project E race series, recently subject of a wild run to victory with the world’s greatest hoonigan at the wheel?
All remind how motorsport is heading fast toward where every day motoring is unavoidably gravitating … a future that involves electric assistance.
Paddon’s car deserves priority mention, being ‘local’ and all that. Even so, it’s the one we know least about, technically speaking.
Yes, everyone knows it’s a massively reworked edition of the electric Kona crossover Hyundai has been knocking out for road use; delivering with four-wheel-drive, raised suspension and all the other addenda required for rallying.
But in terms of the exact spec of the drivetrain, the battery size and capability … that’s still under wraps. The team website continues to talk of up to 1100Nm torque, and more than one motor – as few as two, up to four, each making 220kW – through a single speed drivetrain.
There’s been talk of offering around 670kW in hillclimb mode and around half that for longer rallies, to improve range.
Any lack of detail does nothing to diminish the achievement: A car driven by our best known and most credentialed rally talent and created by a handful of hand-picked Kiwi engineers, working from a lock-up at Highlands Motorsport Park at Cromwell, developed alongside Hyundai New Zealand with the assistance of the University of Canterbury, Yes Power and STARD, an Austrian racing team that specialises in electric rallycross cars and has supplied the battery, inverter, and motor … well, it’s a heck of a thing.
We do know it works. It ran for the first time last week and, according to a report from international rally web site Dirtfish, remains on target for a November 4 launch in Auckland – so, just over two years since project start.
The car will be seen in public for the first time when Paddon completes demonstration runs at the Battle of Jacks Ridge on November 15.
“It was 100 percent pride when I drove the car for the first time,” Paddon told DirtFish several days ago.
“Everybody’s been working so hard here to make this happen – some of the guys have been putting in 100-hour weeks to get here … and it went absolutely to plan, no problems at all. We were only running the car at 30 percent power, but the responsiveness from the car is so obvious.
“The other thing that became obvious is how much more straightforward the Kona EV is compared with a conventional rally car – the number of mechanical, moving parts is significantly less.”
Paddon told DirtFish the aim is to have the car out on a full-length rally this time next year. In other reports, he has spoken of hope to run it in selected rounds of the New Zealand Rally Championship in 2020; a hope that, to be realised, will require some rewriting of motorsport regulations.
Various safety issues have yet to be satisfied but, beyond that, there’s another question: Is it fair – or even conceivable – to expect parity between fossil-fuelled race machinery and electrics?
Paddon asserts he doesn’t want an electric car for an electric championship. “We want to showcase this against current cars, to show electric can be fast, cool and hold its own. Motorsport should be any car against any car.
That thinking is built on a solid foundation; like it or not, electric propulsion has a place in rallying at local and international level.
Patently, this programme is not just to prove a point on local roads. Paddon is keen to exploit the car’s potential for his own driving career and, apparently, as a commercial venture. How many examples are created and to what aim has yet to be fully spelled, but the South Canterbury instigator has always seen a global market potential. He certainly hopes the Kona will give him an advantage as the World Rally Championship heads down an electrified path.
As Kona readies for its big day, so too comes news of another Hyundai headliner, this one from the brand proper.
No shying with the stats in respect to the RM20e. Everything but the range has been provisioned. So, it has 598kW and 959Nm of torque deployed to its rear wheels, will smash 0-100kmh in less than three seconds and be travelling at 200kmh after just 9.88s. For the purposes of public road driving, top speed limits to 250kmh. Hyundai says it balances these “race-car-like levels of performance, balance, braking and grip” with “daily-driver quietness, responsiveness and road-going capability.”
The drivetrain has developed by an electric vehicle maker whose star power is somewhat brighter than STARD’s.
Rimac is a Croatian car manufacturer that develops and produces electric sports cars, drivetrains and battery systems. Founded just 11 years ago, it rocketed to world interest with the Concept One, the slinky realisation of ambition to create the world’s fastest production electric vehicle. It gained even more notoriety when Richard Hammond crashed it during filming for the Grand Tour Season 2. Was the car too hot to handle? Well, it’s a tame tabby compared with Rimac’s next electric performance flagship, the C-Two, will touch down in 2021 with 1490kW and a top speed of 415kmh.
Eighteen months ago HMC paid 80 million Euros for an undisclosed share in Rimac, with intent to develop two models – a sports car for itself and a fuel cell car, likely for Kia. The investment represents a 14 percent shareholding for HMC; Porsche, another investor, has a 10 percent share. A Chinese battery maker, Camel Group, is Rimac's second biggest stakeholder with 19 percent, while Rimac founder Mate Rimac owns 43 percent.
As revealed at the Beijing international Automotive Exhibition 2020 last week, the RM20e appears in readiness for track racing, just like the Veloster N eTCR, designed to take on a new eTCR electric touring car series.
However, motorsport is not the end game in this instance. The factory says the car’s primary purpose is to act as a development tool and test bed for the N-branded performance road car division. It has the remit of being the basis of what yet one day become Hyundai’s equivalent of the Porsche Taycan.
The name is explained thus: RM stands for ‘racing midship’, and refers to the car’s mid-mounted electric motor, which is said to offer “ideal balance and agility from a low polar-moment of inertia.” Meaning it is easier to rotate the car about its axis. The numerical? Well, it’s a bit of a muddle, but effectively it’s the latest of a lineage. There have been four previous incarnations, the first being the RM16.
Back to the Fiesta ERX, which screamed – in a way only electric cars can – into motorsport history the other day by winning the first World Rallycross e-racing event at the famous Holjes circuit in Sweden, ahead of two identical Fords.
Directly developed by STARD, this car is also a monster: 0-100km in just 1.8 seconds is a blistering time huge horsepower fossil-fuelled rallycross cars with anti-lag systems have been chasing off the start line for years.
What gets the ERX going is a giant 450-kWh battery pack liquid-cooled by dry ice. It delivers oomph through a pair of independent two-speed gearboxes that operate as single-speeds in race mode. Will the Kona go the same way?
AN electric car advocacy organisation that has had the Government’s ear has be driven to offer thought on policies relevant to this subject announced by two major political parties.
Mark Gilbert, who chairs Drive Electric, a not-for-profit established purely to promote the uptake of EVs in New Zealand, was speaking today in direct response to policy statements released by Labour and National this week.
Drive Electric has indicated it can see positives from each party’s policies. However, it also seems to think both are aiming too low.
National said today it would set a target of getting 80,000 EVs on the road by 2023. That target represents a fourfold increase on the number of EVs currently in the national fleet.
Gilbert however, says Drive Electric believes national intent to achieve legislated climate ambitions demands the national EV carpark to exceed more than 250,000 vehicles by 2025.
According, he says, what the country really needs “is an ambitious bipartisan roadmap to decarbonise the light fleet in line with the Zero Carbon Act, detailed in a New Zealand Motor Industry Plan.
“In New Zealand the light fleet constitutes more than 90 percent of the travel on New Zealand roads, and remains a growing component of our nation’s emissions. We can’t leave a transition to chance.”
The former managing director of BMW New Zealand says this country is an eager taker of automotive technology. But it could easily head in the ‘wrong’ direction.
“The future of light vehicles worldwide is carbon-free. Unless we have a consistent policy roadmap that deliberately moves New Zealand towards EVs, we will lock in the importation of second-hand fossil fuel powered cars from markets like Japan and the UK as they decarbonise.
“We congratulate the National party for their policy announcement today, including specifying a target of 80,000 EVs on the roads by 2023. Hitting these numbers would mean progress. The proposal on FBT (fringe benefit tax), in particular, is a real step forward.
“NZTA data for 2019 shows that almost 60 percent of new passenger cars were bought by companies. Incentivising the corporate fleet to transition, through initiatives like this and access to bus lanes and high occupancy lanes, is a vital way to introduce EVs into the country.”
Drive Electric would like the next Government to go a step further and work with the industry to detail how New Zealand will then get to 250,000 EVs by 2025, and then move to decarbonise the entire fleet.
“We welcome Labour’s recommitment to the Clean Car Standard. However, this is just one element of a roadmap towards a light vehicle fleet that does not emit carbon.”
Gilbert says a standard needs to be supported by additional measures to enable businesses and consumers to move into emissions-free vehicles.
“Perversely, without actively encouraging consumers to switch to EVs through tax or other incentives, a clean car standard makes it more likely New Zealanders will buy cheap, second hand petrol cars exported from Japan or the UK, instead of EVs.”
This, he suggests, will lock in the number of petrol cars on New Zealand roads for longer, making it more difficult to meet our climate change ambitions.
“For New Zealanders, it’s fair that New Zealanders understand the future must be electric, so they can take this into consideration when they buy their next car.
“The abundance of renewable energy in New Zealand means the owner of an EV in New Zealand can charge their vehicle at home for as low as 30 cents a litre.”
Drive Electric recently announced five key policy platforms it suggests are required to decarbonise the fleet. That document can be found at: https://driveelectric.org.nz/wp-content/uploads/2020/08/DE-policy-discussion.pdf
NEW Zealand’s grand plan to have 64,000 electric vehicles on the roads by 2021 is proving a failure – so now the sector has hatched an ambitious new plan to have at least 250,000 of the vehicles on our roads by 2025.
Drive Electric, the organisation that wants to make EV ownership mainstream, has announced a new campaign involving five key policy platforms it wants the next Government to adopt to meet that target.
It’s a tough ask, if the poor results of the Government’s Electric Vehicles Programme announced four years ago are any indication.
That plan involved a package of measures with a target of doubling the number of EVs in New Zealand every year to reach 64,000 cars by next year. But the target has nowhere near been reached - by mid-year this year the total had reached just 20,916 – with more than 13,000 of those registrations used cars imported from overseas.
But Drive Electric argues that if New Zealand is going to meet climate change targets set by the Zero Carbon Act, it will need to see at least 250,000 new EVs on the roads by 2025, and for this trend to continue through to 2030. And that number should not include hybrids, it adds, because those non plug-in vehicles are still powered by fossil fuels.
In an interview with MotoringNZ, Drive Electric chair Mark Gilbert, pictured, criticised New Zealand’s lack of action regarding the takeup of EVs.
“Dear old New Zealand seems to be stuck in a time warp,” he said. “But nothing’s going to change if nothing changes. That’s why we are putting this proposal out there – to point out that you’ve got to actually do stuff to make thing happen.
Drive Electric points out that New Zealand must reduce emissions by around 60 per cent by 2030 to stay within 1.5C of warming, which is the target contained in the Zero Carbon Act.
Road transport is the second-largest source of emissions in New Zealand. Our light vehicle fleet constitutes more than 90 per cent of the travel on New Zealand roads. Therefore, e-mobility is an essential part of our transport future.
Gilbert adds that for the desired level of EV ownership to be achieved, New Zealand needs a bi-partisan target and pathway that will create certainty and guide investment in e-mobility.
“It is fair to New Zealanders to be upfront about the changes that are happening when it comes to cars, which for many if their first or second-biggest asset.
“With emissions targets that need to be met, and automotive technology shifting towards emissions-free, the time is now to plan for a future New Zealand that embraces e-mobility.”
Drive Electric proposes five key actions for the next Government.
It wants development of a bi-partisan pathway for the transport sector to deliver New Zealand’s climate change objectives. This should feature clear targets and a well-defined transition pathway which engages industry and has bi-partisan support. This would create investment certainty for future governments, transport agencies, businesses and individuals.
It wants businesses to be encouraged to purchase EVs for their fleets. Such vehicles are yet to reach price parity with new petrol and diesel vehicles, and corporates may need additional encouragement to invest in them in the short term. Policy initiatives such as changing fringe benefit tax to enable private use of corporate EVs, or increasing the rate of depreciation of such cars, would incentivise their uptake. Other tax and purchase incentives could be explored, based on international experience in markets such as Sweden.
It wants the Government to take leadership in EV use. Currently, less than 1 per cent of the government fleet of 16,000 vehicles are EVs, and yet the New Zealand Government Procurement body has a goal to have the government’s fleet emissions-free by 2025. The Government could take a leadership position by executing on this position and moving the entire fleet to electric.
It wants New Zealand made a globally attractive market for EVs. Without a clear target and pathway to transition, the country risks being overlooked by international car manufacturers as a market for new technology, competitive pricing and ranges in EVs. Worse, without clear government guidance on EV targets and emissions standards, we risk becoming a dumping ground for cheap petrol/diesel and hybrid vehicles from UK and Japan as they move to EVs.
It wants New Zealanders to be encouraged to move to EVs. Setting a bi-partisan target and transition pathway would create future certainty for motorists to consider EVs, especially as the cost of ownership reaches parity.
A discussion document produced by Drive Electric in support of its new campaign says transforming New Zealand’s fleet to EVs would have positive impacts beyond reducing emissions.
The country would be less reliant on foreign oil, which would reduce the balance of payments. Air pollution would reduce. Over time, families would save money on fuel and operating costs, particularly as the total cost of ownership of EVs is set to reach parity with petrol and diesel vehicles before 2025.
“Finally, New Zealand is an ideal market for electrification, because our electricity is renewable,” says the document.
Drive Electric is a not-for-profit organisation with a membership that represents the entire e-mobility ecosystem including electricity companies, car manufacturers, and finance companies. The five key policy platforms were devised by these members, supported by external experts including investment consultant Dr Paul Winton, economist Shamubeel Eaqub, and sustainability consultant James Walker.
Dr Winton, the founder of climate action group the 1Point5 Project, says reaching 250,000 EVs in the national fleet by 2025 is a challenging but realistic target for New Zealand.
“If we were to achieve EV adoption rates similar to what Norway has today for new-to-fleet vehicles by 2025, this would result in 250,000 EV in the light fleet. If we continued at that rate, our light fleet would comprise 30-40 per cent electric or zero emissions vehicles by 2030.
Dr Winton claims New Zealand’s transition would be easier than when Norway began 10 years ago, because EVs are becoming less expensive and more capable.
“By 2025 there will be no clear reason for consumers or businesses not to buy EVs. To buy a petrol or diesel vehicle in 2025 would be to buy a car that is more expensive at the outset, more expensive to run and repair, has a shorter lifespan, performs worse, and with higher emissions.”
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