Tag Archives: electric cars

The Nissan e-NV200 Combi: Big Car, Small Emissions

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Most of the hybrids and electric cars you see today or either the small models that hardly contain three people or they are massive, like the ones that Elon Musk is pedalling at the moment. But the Nissan e-NV200 Combi is one of those cars that is bridging the gap between small and large. It is the world’s first 7 seat MPV that is all electric. The idea for this model is to cater for shuttle services as well as appeal to large families. In this respect, the NV200 is catering for quite a niche market, so let’s put it to the test.

Nissan was one of the first firms with a mainstream EV, and this model, based on the NV200 van, is pretty much cut from the same cloth as the Nissan Leaf. As far as its power is concerned, the electric motor has a decent 107 bhp, as well as 187lb ft of torque, meaning that its modest power lends itself well to the family contingent. And while the NV200 model is considerably bigger than the Nissan Leaf, it has the same 24wHk battery that the leaf has. So if you’ve got a small family but opted for this car, you may find yourself heading to a used auto service to trade it in. And as the somewhat a limited battery power is felt at higher speeds, despite the larger front than the Leaf, the official range for the vehicle is only 106 miles.

Despite its somewhat limited range, it comes with two different charging options in both versions of the car, the Combi and the Tekna. The two charging options, the Rapid, and Rapid Plus, and while the Rapid version can take 4 hours to charge, the Rapid Plus version has a high speed 6.6Kw AC option for charging onboard. There isn’t much difference between the Combi and the Tekna, save for the 15-inch alloy wheels, as well as climate control, and the usual features like Bluetooth and so forth. The benefits of both models are that it has the Nissan Carwings Infotainment System, which includes satellite navigation, as well as a DAB radio.

The one thing you notice when taking it out for a spin is that it’s so quiet, as well as it being without a diesel engine, and no manual gearbox. This means that negotiating heavy traffic is easy work. And while the van is able to keep up with other high-speed traffic, the top speed of 76 miles per hour can be a bit of a problem. It’s also important to remember that other factors will drain the battery. The one major issue is that if you are driving in hot weather, the climate control will put a lot of pressure on the battery.

But, as far as a family car is concerned, this is certainly one of the front-runners in the category of “driving five or more kids to the game”, but with its limited capabilities, it appears more useful in shuttling people back and forth, rather than long, strenuous journeys.

Jaguar E-Type Zero: The Future Of Electric Cars

‘They don’t make them like they used to.’ You hear people say that about things all the time, especially cars.The Jaguar E-Type is one of the most iconic cars out there and a great choice for any classic vehicle enthusiast. However, they’re not that efficient to run and they’re pretty bad for the environment. If only there were a way to strike a balance between amazing design and a cheap clean engine.

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Well, now there is. The Jaguar E-Type Zero is, without doubt, the coolest electric car on the planet. It captures everything that was so amazing about the original model and brings it into the future with an electric engine. It’s surely going to usher in a new age of electric car technology. This new E-Type, based on a model from 1968, is pretty much exactly the same apart from the updated engine. So, how does it hold up against its classic counterpart?

Exterior

The E-Type is one of the most recognisable cars in the world and even took pride of place in a James Bond movie. To ruin that iconic exterior would be a great shame, which is why it’s a good job that they haven’t done that. This is the kind of car that you’ll want to wash regularly with top rated car wash shampoo to keep it in tip top shape. All of the classic lines and elegant curves are still there and the ride is low. At first glance, you would never realise that this is an electric car and not a classic 60’s E-Type. The only small changes that have been made are for energy efficiency, for example, the headlights have been updated with LED lights. It’s barely noticeable and doesn’t take away from the classic look.

Interior

The interior of the car has had a bit more of an upgrade, but it still captures the essence of the original. The gear stick has naturally been replaced with one that has the drive, neutral and reverse features that you need in an electric vehicle. The dash has been replaced with a slick looking carbon fibre one and they’ve added a modern screen display. There are also lots of new controls but they’ve all been designed with a classic car feel to create a great marriage of modern electric car design and the traditional aesthetic of the old E-Type. The wood rimmed steering wheel and hand cranks for the windows give the nostalgic feel of driving the Zero’s original counterpart.

Drive

To create the electric engine, Jaguar built on their existing electric cars. The 220kw drivetrain is powered by an impressive 40kw battery. If you’re worried about losing the power of the original E-Type you can rest easy. It’ll do 0-60 in a staggering 5.5 seconds. When you compare it to other electric cars, the range isn’t amazing. It’ll do around 6 or 7 hours on a full charge which can usually take you about 170 miles. It’s not the best for long distance but nobody ever bought an E-Type for getting from A to B.

The E-Type Zero is a triumph in electric car design that proves that we don’t need to make compromises on power or appearance to reduce carbon emissions.     

Tesla Reveals a Super Semi, 0-60 in Under 5 Seconds!

At an event in Los Angeles on November 16th, 2017, Tesla unveiled its new Semi electric truck, which is capable of traveling 800 kilometers (500 miles) on a single charge with a loaded trailer.

Powered by four independent Model 3 motors, the vehicle can go from 0-60 mph in just five seconds; it’ll take 20 seconds while paired with an 80,000 pound load. The idea with the Semi is to create a shipping solution that’s not only more environmentally friendly than a diesel truck, but also more economical to own and operate.

The interior features a central cockpit for greater visibility and two large displays for navigation and other controls on either side of the cabin. The shatter-proof windshield uses Tesla Armor Glass that the company says is far more durable than standard glass; that’s a big deal because a cracked windshield takes time to replace, and it’s illegal to drive with a damaged one in the US, which means downtime and money down the drain for trucking companies.

In addition, the Semi beams data to a mobile app that presents vital information about the vehicle, along with remote diagnostics, preventative maintenance, and fleet management information.

With the Semi, the big draw for logistics companies will likely be the lower cost of ownership. Tesla says that a diesel truck is 20 percent more expensive to run per mile, and that running an Autopilot-powered convoy of Semis is even more economical than transporting cargo by rail, while also being 10 times safer than having the vehicles manned by human drivers.

It’ll be interesting to see if that’s enough to convince shipping companies to make the switch to Tesla’s electric offering. The Semi will begin production in 2019, and you can reserve them now by wiring across $5,000 apiece.

SOURCE: TheNextWeb

Chevy Bolt Or Tesla Model S, Which Is The Best EV For A Road Trip?

Everyone loves a road trip: Driving through a region, discovering its magic, one mile at a time, while being as free as a bird to stop and sleep wherever you want to. It’s no wonder that road trips are an American symbol: They’re linked to a natural sense of freedom and exploration of vast landscapes that are so iconic of the US. But when it comes to road trips, it’s always the old Mustang or the long Cadillac that get in the picture of the perfect trip. Have you ever considered an electric car instead? We’re comparing the Tesla Model S and the Chevy Bolt to find out the best car for the exercise!

Chevy Bolt EV

The essentials on the road

Even though an electric car has a different fuelling system, it doesn’t mean that you shouldn’t pack like for a standard road trip, namely a box of tools to be able to change a flat tyre and cables to revive the battery. Admittedly, there’s no need to worry in case you’ve forgotten a tool or you find yourself unable to move the car. The tow truck service is equally available to fuel-powered and electric vehicles! But, you’ll enjoy the road trip more if you don’t need it!

Planning ahead

If it’s your first long drive with an EV, make sure to check a map of charging stations in the area before you leave. These are more difficult to find than fuel stations!

Tesla Model S: Supercharged in 30min

The Tesla Model S has some serious bragging rights, as with any electric car that allows you to invest in the future. But what is really exciting about this model is that you can in only 30 minutes get the car charged to complete a 170-mile-long journey, assuming you are using a Tesla Supercharger charging station. Remember the EV charging map? That’s why you need it! Additionally, the Tesla S is a fast car that can even beat the Ferrari 458 in a race.

Chevy Bolt: 313 miles on a charge

In comparison, the Chevy Bolt offers an impressive driving range on one charge: Up to 238 miles, although drivers claim to have managed 313 miles on a single charge. Unfortunately the Chevy Bolt can’t use the Tesla Supercharger, but you can use DC fast-charging stations to deliver 90 miles in the first 30 min. If you’re stopping in a hotel, it will take a 240-volt Level 2 charging station 9 hours to fill a discharged battery pack.

The verdict

According to EPA estimates, the 259 miles range of the Tesla Model S beats the Chevy Bolt, especially if you take into account the time of charge. However, recent tests by Consumer Reports show otherwise: The Chevy Bolt surpasses expectations with a 235 miles range, vs the Tesla that only hits 250 miles. But charging time and comfort are in favor of the Tesla’s vehicle.

In conclusion, a long-distance road trip is better planned with a Tesla Model S, as you’ll be making the most of its supercharging abilities and comfy seats. However, if you’re driving only a few hundred miles, the Chevy Bolt is a great alternative that exceeds range expectations, as long as you remember to use DC fast-charging stations!

Electric Car History Timeline

Tesla Model XTesla CEO Elon Musk demonstrates the falcon wing doors on the new Tesla Model X Crossover SUV during a launch event on September 29, 2015 in Fremont, California. After several production delays, Elon Musk officially launched the much anticipated Tesla Model X Crossover SUV.Justin Sullivan/Getty Images

The potential of electric cars is greater now than ever before.

Traditional automakers including General Motors, Volkswagen, Daimler AG, and others are all investing heavily in electric vehicles. And Tesla, of course, has built an entire business on battery-powered cars.

But electric automobiles are nothing new. They actually have a rich history in the US and, at one point, were even the dominant type of car.

Here’s a look at how battery-powered cars evolved over time.

 The electric car burst onto the scene in the late 1800s and early 1900s.
The electric car burst onto the scene in the late 1800s and early 1900s.

Photo of Thomas Edison with an electric car in 1913.National Museum of American History

In 1899 and 1900, electric vehicles outsold all other types of cars. In fact, 28 percent of all 4,192 cars produced in the US in 1900 were electric, according to the American Census. And the total value of electric cars sold was more than gasoline and steam powered cars combined that year.

 

It even had key advantages over gasoline- and steam-powered cars in the early 1900s. Yes, that’s right — cars once ran on steam.

It even had key advantages over gasoline- and steam-powered cars in the early 1900s. Yes, that's right — cars once ran on steam.

1906 Wood’s Queen Victoria Electric Car.Wikimedia Commons/ Cycle and Automobile Trade Journal)

While the early electric cars were basically horseless carriages powered by batteries, they did have some perks.

For one, they didn’t have the smell, noise, or vibration that steam or gasoline cars had. The were also a lot easier to operate. Gasoline cars had to be manually cranked to start, and the vehicles required the driver to change gears while driving, which was very difficult.

Steam-powered cars didn’t require manual gear shifting, but they could take a while to start and had less range than electric cars.

It wasn’t until the 1960s and 1970s that interest in electric cars began to grow again.

It wasn't until the 1960s and 1970s that interest in electric cars began to grow again.

Participants at the First Symposium on Low Pollution Power Systems Development looking over the Esb “Sundancers”, an Experimental Electric Car in 1973.Wikimedia Commons/Frank Lodge

Much like today, concerns over pollution were partly responsible for the renewed interest in developing the technology for electric cars.

In 1970, the Clean Air Act was established, which required states to take control of their air quality and meet certain standards by deadlines. The OPEC oil embargo of 1973, which skyrocketed gasoline prices, also sparked interest in alternatives to fueled vehicles.

And by 1976 Congress took action and passed the Electric and Hybrid Vehicle Research, Development, and Demonstration Act, which authorized the Energy Department to support research and development in electric and hybrid vehicles.

Two companies led the way during the 1970s. The first was Sebring-Vanguard, which produced over 2,000 “CitiCars.”

Two companies led the way during the 1970s. The first was Sebring-Vanguard, which produced over 2,000 "CitiCars."

In this 1974 file photo, this pyramid-shaped two passenger vehicle is a Sebring Vanguard, an electric car manufactured in Sebring, Fla.AP/File

These miniature commuter cars had a top speed of 44 mph, a normal cruise speed of 38 mph, and a range of 50 to 60 miles.

The Citicar and its variants remained the most-produced American electric car until 2011, when the Tesla Roadster surpassed it.

The other was Elcar Corporation.

The other was Elcar Corporation.

One of the first Elcar vehicles.Flickr/Alden Jewell

The Elcar, also known as the Zagato Zele, was a small electric car produced by the Italian company Zagato. However, it was sold in the US by the Elcar Corporation.

The tiny vehicle could reach a speed of 45 mph, has a range of 60 miles when fully charged, and cost between $4,000 and $4,500.

Electric cars weren’t just a US phenomenon, though. Automakers around the world began investing more in the technology. BMW debuted its first electric car at the 1972 Summer Olympics.

Electric cars weren't just a US phenomenon, though. Automakers around the world began investing more in the technology. BMW debuted its first electric car at the 1972 Summer Olympics.

BMW’s electric car, the 1602 E, had a range of 37 miles.YouTube/BMW

BMW’s 1602 E was developed in 1972 and was showcased at the Summer Olympics that year.

Twelve lead-acid starter batteries powered the vehicle, which featured a 42-horsepower electric motor. It could reach a top speed of 62 mph and had a range of 37 miles.

Although Olympics organizers used the 1602 E during the Munich games, the vehicle never went into production.

Many more electric cars debuted in the 1970s, but not many sold.

Many more electric cars debuted in the 1970s, but not many sold.

RT1 electric car prototype in Seattle, Washington around 1970.Flickr/Seattle Municipal Archives

Limitations in range and speed — and style — kept electric cars from being adopted on a mass scale, and their popularity declined in the 1980s.

By the 1990s, emissions regulations once again pushed automakers to revisit electric vehicles.

By the 1990s, emissions regulations once again pushed automakers to revisit electric vehicles.

Workers at a General Motors plant in 1996 install the electric motor and drive train in one of the new electric vehicles.AP Photos/ Dale Atkins

The 1990 Clean Air Act Amendment and the 1992 Energy Policy Act helped spur investment again in electric vehicles.

The California Air Resources Board also passed new regulations that required automakers to make and sell a zero-emissions vehicle in order for them to market their cars in the state.

 

The most famous, or infamous, example from this period was GM’s EV1, which was leased through Saturn dealerships.

The most famous, or infamous, example from this period was GM's EV1, which was leased through Saturn dealerships.

GM’s EV1 had an impressive range, but was not a profitable car for the company.The EV-1. Rick Rowen, Creative Commons.

Beginning in 1996, GM produced 1,117 units of its EV1. The car was only available to people in California, Arizona, and Georgia and it could not be bought, only leased.

The car boasted a range of about 100 miles on a single charge and could go from zero to 60 in just seven seconds.

While consumers responded positively to the EV1, it wasn’t a profitable business for GM and the company decided to recall all of the vehicles once leases had expired. The company then destroyed most of the vehicles, only keeping 40 models to donate to museums and other institutions.

The rise of the Toyota Prius also helped grow interest in fuel-efficient cars.

The rise of the Toyota Prius also helped grow interest in fuel-efficient cars.

Toyota’s Prius quickly became a popular car.Toyota

The Prius was first produced in Japan in 1997, but then it became available worldwide in 2000.

The Prius was one of the first mass-produced hybrid-electric vehicles, and it quickly became a statement car.

In the first year of its global launch, the company sold some 50,000 Prius vehicles worldwide.

By January 2017, Toyota had sold more than 10 million hybrid vehicles — more than 6 million of which were in the Prius family.

And in 2006, news of Tesla’s plans for a battery powered car with a range of 200 miles per charge helped raise the profile of electric vehicles.

And in 2006, news of Tesla's plans for a battery powered car with a range of 200 miles per charge helped raise the profile of electric vehicles.

AP Photo/Remy de la Mauviniere

By 2011, the Tesla had launched its Roadster. But while the car had a range of over 240 miles per charge, it cost more than $100,000.

In 2010, Nissan began delivering its all-electric Leaf in the US.

In 2010, Nissan began delivering its all-electric Leaf in the US.

Nissan’s Leaf was the most popular electric car until Tesla’s Model S came along.Nissan

Nissan’s Leaf has a range of 100 miles per charge and a more budget-conscious price of around $30,000.

The car is currently the bestselling electric highway-capable vehicle in the world. As of December of 2016, Nissan has sold more than 250,000 Leafs worldwide.

In June 2012, Tesla began delivery of its Model S, its second long-range electric car.

In June 2012, Tesla began delivery of its Model S, its second long-range electric car.

ASSOCIATED PRESS

Tesla’s first performance Model S, which had an 85-kilowatt hour battery, had an official EPA range of 265 miles per charge.

The company originally intended to deliver the Model S in 2011. However, the company didn’t begin deliveries until late mid-2012.

Tesla delivered the Model S to the first customers at an event at the Tesla factory in Fremont, California on June 22, 2012.

In October 2016, GM made a big push into the electric-car space with the launch of its Chevy Bolt, an all-electric car with a range of more than 200 miles per charge.

In October 2016, GM made a big push into the electric-car space with the launch of its Chevy Bolt, an all-electric car with a range of more than 200 miles per charge.

GM’s Chevy Bolt was the first mass-market EV with a range exceeding 200 miles per charge.Chevrolet

While GM has a long history with electric cars, the Bolt is its first all-electric car with a range of more than 200 miles.

The Chevy Bolt can go 238 miles between “fill-ups” and costs about $30,000, after a $7,500 federal tax credit. Top speed is 91 mph.

While charging, the car gains about 25 miles in range every hour. The car can fully charge in nine hours with a 240-volt unit.

 

Looking forward, Tesla has big plans to produce its first mass-market car, called the Model 3, by the end of this year.

Looking forward, Tesla has big plans to produce its first mass-market car, called the Model 3, by the end of this year.

Tesla’s Model 3 will compete with the Chevy Bolt.YouTube/Motor Trend

While Tesla has thus far focused on selling luxury high-end vehicles, it plans to begin producing its first budget electric car in 2017.

The Model 3 will feature a range of more than 200 miles and will price at $35,000 before tax incentives.

The company also plans on eventually launching an affordable crossover, dubbed the Model Y, and an electric truck.

 

In response, traditional automakers like Ford, Mercedes-Benz, and Volkswagen are ramping up investment in the space.

In response, traditional automakers like Ford, Mercedes-Benz, and Volkswagen are ramping up investment in the space.

Volkswagen aims to make a production version of its all-electric ID concept car by 2020.AP/Michel Euler

During the next few years, we will see a number of electric cars come to market from older automakers.

Ford announced in January that it aims to offer 13 new electrified vehicles, including hybrids, within the next five years. One of the new vehicles it plans to launch will be a fully electric SUV with a range of at least 300 miles per charge.

Mercedes and Volvo both plan to launch an all-electric car in 2019, and Volkswagen has said it aims to have a production version of its all-electric ID Concept SUV ready by 2020.

Here’s a look at more electric cars coming by 2021.

This article is from Business Insider

Beijing to Replace All Taxis with Electric Vehicles


This is news very near and dear to my heart and lungs. Reducing toxic air pollution in urban environments is crucial to improving public health. If you live in an urban city, you may or may not be familiar with AQI, the air quality index. This measures the amount of ground-level ozone, particulates, sulfur dioxide, carbon monoxide and nitrogen dioxide in the air. Depending on where you live, the AQI will exclude some of these measures. But ground level inhaled particulate matter and other toxins spewed from internal combustion vehicles have adverse affects on local lives, including asthma, bronchitis, sinus infections, cancer, and death. Especially in Asia, which has developed so much industrially and socioeconomically, pollution is a very big, very visible problem. Many months of the year, citizens are encouraged to wear face masks, and you can forget about exercising outside unprotected. So it is great to see China taking action against localized deadly pollution.

China will begin to replace all taxis in Beijing with electric vehicles. All new replacement models for decommissioned taxis will have to be electric starting in 2017. Hopefully, China will make a serious push to lower their toxic emissions, because as of right now, the smog can reach as far as the west coast of the United States, thanks to prevailing wind patterns. But the most harmful pollutants are happening on the streets, as localized emissions are trapped between buildings and hover on the sidewalks and windows where people live, work, and play. This type of pollution is usually not expressed by AQI indexes because of where the monitors are set up, so the harmful effects are much worse than indicated.  Electric vehicles are the best way to reduce localized air pollution in urban environments.