Battery Powered Rail Vehicle Claims New Efficiency Record

battery powered rail vehicle

Students from Dalarna University, Sweden, have won a competition for creating efficient rail-based transport, claiming a world record in the process. Team Eximus 1 was competing in Delsbo Electric, where teams must design and build a battery-operated railway vehicle that uses as little energy as possible. Delsbo Electric is open to college and university students. It was inspired by the Shell Eco-marathon, with the concept translated for rail-based rather than road-based travel.

Vehicles must carry between one and six passengers weighing a minimum average of 50 kg (110 lb) each. Vehicle efficiency is measured on a per person basis, meaning vehicles carrying six passengers are not at a disadvantage. The Eximus 1 carries five passengers. The vehicle is estimated to weigh about 100 kg (220 lb) and to measure about 5,500-mm (217-in) long by 1,500-mm (59-in) wide. It was powered by four 12 V, 45 Wh batteries linked together in parallel and a 500 W motor.

The team’s final efficiency score was 0.84 Wh/person-km (watt-hours for every kilometer traveled by each passenger). Delsbo Electric claims that is a new world record. “We have done research and not found any information about somebody or something traveling as efficient rail-based in the world. In fact, it seems like Eximus 1 achieved a lower energy consumption per person than the current Shell Eco Marathon record.”

See & read more at Gizmag: Silver machine rolls down the track to new efficiency record. Vehicles from other participants can be found here. Thanks to Frank Van Gieson.

Related:

Electrically Powered Bicycle Trailer & Hand Cart (DIY)

electric powered bike trailer

The German-made Carla Cargo is a three-wheeled cycle trailer with an electric assist motor. It can be pulled by any type of bicycle (including a cargo cycle or an electric bike), and it allows you to carry heavy (up to 150 kg) and bulky cargo (a loading platform of 60 x 160 cm). Uncoupled from the bicycle, the Carla Cargo works as a hand cart for large or heavy loads. The vehicle weighs 40 kg including the battery, and has a range of 40 to 60 km.

carla cargo bike trailerThe electric motor is built into the front wheel and can produce 250 watts as a trailer (up to 23 km/h), and 500 watts as a handtruck (up to 6 km/h). The lithium-ion battery has a capacity of 11 or 15 Ah. The vehicle has two disk brakes and a parking brake, which are controlled via the handle or the bicycle handlebar.

The Carlo Cargo sells for about 4,000 euro. The construction manual is freely accessible online, but only in German for now. The trailer/handcart is present at the International Cargo Bike Festival, April 16-17, in Nijmegem, the Netherlands.

Previously: 8-wheeler cargo cycle.

A Scooter for Everyone

electric scooter johanson3

The Johanson3 is a stable three-wheeler, with the driver leaning back rather than sitting (though sitting is an option). Feet rest on a plate, and pressing down on that plate creates a lean on the front wheel, turning the vehicle while the rear wheels remain solidly on the ground.

That makes for easy on-and off, especially for those who – owing to age, injury, or fashion choice (“skirts, saris, djellabas, and kimonos” are accommodated, according to Johanson3) – cannot throw a leg over a bicycle seat. Various models accommodate single riders or as many as three adults plus two kids, and can haul up to 660lbs of flesh and cargo. Read more: The J3, a trike that hauls freight, spares frocks.

The Johanson3 is available for pre-order and costs $3,150 – $3,900.

Finally: A Life Cycle Analysis of Electric Cars

Trexa-ev3“We develop and provide a transparent life cycle inventory of conventional and electric vehicles and apply our inventory to assess conventional and EVs over a range of impact categories. For all scenarios analyzed, the use phase is responsible for the majority of the global warming potential (GWP) impact, either directly through fuel combustion or indirectly during electricity production.”

Total emissions

“When powered by average European electricity, EVs are found to reduce GWP by 20% to 24% compared to gasoline ICEVs and by 10% to 14% relative to diesel internal combustion engine vehicles (ICEVs) under the base case assumption of a 150,000 km vehicle lifetime. When powered by electricity from natural gas, we estimate EVs offer a reduction in GHG emissions of 12% compared to gasoline ICEVs, and break even with diesel ICEVs. EVs powered by coal electricity are expected to cause an increase in GWP of 17% to 27% compared with diesel and gasoline ICEVs. Wind power electricity would allow electric transportation with life cycle carbon footprints as low as 106 g CO2-eq/km.”

Vehicle production: Manufacturing one electric car takes as much energy as manufacturing two conventional automobiles

“In contrast with ICEVs, almost half of an EV’s life cycle GWP is associated with its production. We estimate the GWP from EV production to be 87 to 95 grams carbon dioxide equivalent per kilometer (g CO2-eq/km), which is roughly twice the 43 g CO2-eq/km associated with ICEV production. Battery production contributes 35% to 41% of the EV production phase GWP, whereas the electric engine contributes 7% to 8%. Other powertrain components, notably inverters and the passive battery cooling system with their high aluminum content, contribute 16% to 18% of the embodied GWP of EVs.”

Comparative Environmental Life Cycle Assessment of Conventional and Electric Vehicles“, Troy R. Hawkins, Bhawna Singh, Guillaume Majeau-Bettez, Anders Hammer Strømman, in “Journal of Industrial Ecology”, October 2012. Via the BBC and Treehugger. Picture: Trexa. Previously: The status quo of electric cars: better batteries, same range

Siemens Rediscovers The Trolleytruck

siemens rediscovers the trolleytruck

In Los Angeles, at the Electric Vehicle Symposium, German engineering company Siemens announced that it is conducting pilot projects using trolleytrucks:

“The eHighway concept is the electrification of trucks and select highway lanes via overhead electrified wires similar to how modern day trolleys or streetcars are powered on many city streets.”

Trolleybuses and trolleytrucks offer sustainable electric transportation for a bargain. Trolleylines are relatively cheap to build and can be very easily integrated into existing highways and infrastructures. Furthermore, the vehicles do not require large batteries, which means that trolleybuses and trolleytrucks do not have the disadvantages of electric cars. Trolleybuses are still around in many countries, especially in Central and Eastern Europe, but trolleytrucks have become very rare.

Siemens uses hybrid diesel electric freight trucks with built-in technology and software to connect to overhead electrified wires. “The trucks are designed to use both electricity and diesel power and will automatically switch to electric mode when they detect and attach to the overhead lines.

Once the truck leaves the lines, it switches back to diesel. As the technology becomes more widely adopted, the company believes every truck equipped with an electric drive system will be able to use the eHighway regardless if it’s a diesel electric, pure battery, fuel cell range extended or CNG combustion engine vehicle.”

Previously: “Get wired (again): trolleybusses and trolleytrucks“.

Hat tip to Stefan van der Fange.

Overview of Early Electric Trucks (1907 Catalog)

early electric trucks

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