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Major world automakers have already invested heavily in electric vehicles and related technology – and they are committed to keep doing so. Some have even promised to stop producing vehicles that run only on gas or diesel2 fuel in the future.
The changes to the auto1 industry demonstrate the growing number of buyers willing to spend more money on environmentally friendly cars.
But one of the main issues with the technology is that drivers need to charge the batteries often to be able to travel longer distances. The batteries themselves can also greatly increase the price of the vehicles. They can also be very costly3 to replace.
Now, a new technology is being developed and tested in Sweden to help resolve these issues. Engineers there have created what is thought to be the world’s first operating electrified4 road. A Swedish company, Elways, invented the technology.
The project, involving several companies, is called eRoadArlanda. A large, specially5 built electric truck transports goods along a two-kilometer-long stretch of road from Stockholm’s Arlanda airport. The truck’s battery is charged from the electrified road as it travels.
CEO Hans Saell has led the project since 2013. He explains that the technology works in a simple way. A 15-centimeter-wide electrical rail is built into the road. The vehicle contains equipment that automatically senses the electrified road. An arm then lowers from the vehicle to make contact with the rail.
Saell says the system is designed to make continuous charging on the road effortless for the driver.
“If you pass another vehicle, or if you leave the electric road, or if you come to a roundabout where we have no rails, it goes up automatically. So once again, you don’t have to think about it at all as a driver.”
He says that currently, the battery makes up about half the total cost of a 100-percent electric passenger vehicle.
“And if you can have electric roads, you need maybe half the size of the battery, or even smaller. So that reduces, of course, the cost of the car.”
Saell says being able to charge vehicles on the road can also remove fears drivers may have about going too far and running out of power.
He says the system can be built into existing roads to reduce costs. He estimates that putting in a highly developed version of eRoadArlanda’s technology would cost about 1 million dollars per kilometer. That amount sounds like a big number and could add up fast over thousands of kilometers. But Saell says the cost is still a lot less when compared to other transportation infrastructure6 projects.
“If you build a city tram in an urban area, the cost for that is more than 50 times higher than one kilometer of electric roads.”
He added that the vehicle equipment also costs much less than systems that would require electrical equipment above ground, such as railways or street cars.
Project leaders say the electrified road has been tested in all kinds of weather and even proved effective in snow and ice. Saell says the powered road is also safe because the electricity is below the surface and well covered. The road is also not electrified all the time. The electricity turns on in 50-meter stretches only when an equipped vehicle is traveling on the road.
Saell says the eRoadArlanda system still needs a lot of development before it will be ready for wide industrial use. But he estimates this could happen in just 5 to 10 years.
Another company experimenting with road charging technology is the wireless7 company Qualcomm Technologies Inc. The company has developed and tested a system called Halo, which involves wireless charging.
Qualcomm has already been developing wireless solutions for charging stations at homes, workplaces or public spaces.
The technology uses ground-based pads to wirelessly8 charge vehicles parked over them. The company has said this type of charging system can also reduce the need for large, costly electric vehicle batteries.
But now the company has gone further to extend its Halo technology to what it calls “dynamic charging.” This gives vehicles the ability to wirelessly charge on the road. Qualcomm says the system is designed to wirelessly charge a driving vehicle at up to 20 kilowatts9 at highway speeds. After thousands of hours of testing, the company demonstrated the technology last year during a 100-meter-long road test in France.
Two vehicles were shown during the demonstration10 to be able to charge on the same road at the same time. And, the system worked whether the vehicles were traveling forward or backwards11.
I’m Bryan Lynn.
Words in This Story
roundabout – n. circular place where roads meet and where cars drive around until they arrive at the road they want to turn into
infrastructure – n. roads, public water supplies and other public services
tram – n. vehicle that runs on a track or on rails and is usually used to carry groups of people for a short distance
urban – adj. belonging or relating to a town or city
pad – n. a flat piece of material containing electronic components12
dynamic – adj. continuously changing or moving
1 auto | |
n.(=automobile)(口语)汽车 | |
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2 diesel | |
n.柴油发动机,内燃机 | |
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3 costly | |
adj.昂贵的,价值高的,豪华的 | |
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4 electrified | |
v.使电气化( electrify的过去式和过去分词 );使兴奋 | |
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5 specially | |
adv.特定地;特殊地;明确地 | |
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6 infrastructure | |
n.下部构造,下部组织,基础结构,基础设施 | |
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7 wireless | |
adj.无线的;n.无线电 | |
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8 wirelessly | |
不用电线的,用无线电波传送的 | |
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9 kilowatts | |
千瓦( kilowatt的名词复数 ) | |
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10 demonstration | |
n.表明,示范,论证,示威 | |
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11 backwards | |
adv.往回地,向原处,倒,相反,前后倒置地 | |
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12 components | |
(机器、设备等的)构成要素,零件,成分; 成分( component的名词复数 ); [物理化学]组分; [数学]分量; (混合物的)组成部分 | |
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