JMU AFV Lab Blog

This item was on the GreenCarCongress.com blog. It introduces a concept for an electric bicycle that has motor and battery inside the hub! A very elegant concept, I think. I do wonder if the motor heat will have an adverse effect on battery life. It uses Lithium Ion batteries, which have a heat problem, anyway. Go to http://www.greencarcongress.com/2008/10/mit-bringing-sm.html#more to read more about it. Be sure to read the comments at the bottom of the article, too.

MIT Bringing Smart Biking Project to Copenhagen; Prototype Hybrid Bicycle

12 October 2008

MIT researchers at its SENSEable City Laboratory have unveiled a project in Copenhagen aimed at transforming bicycle use, promoting urban sustainability and building new connections between the city’s cyclists. The project, called SmartBiking, will utilize a novel self-organizing smart-tag system that will allow the city’s residents to exchange basic information and share their relative positioning with each other.

As part of the project, a prototype of a smart bicycle is being developed in collaboration with the MIT Media Lab’s Smart Cities Group. This hybrid bicycle harvests the energy created when braking and releases it while cycling. All hybrid-drive elements, including the battery, are packed in the rear wheel, which becomes a self-contained component that could be retrofitted on most existing bicycles.

A considerable fraction of [Copenhagen’s] energy comes from renewable sources and, unlike a few decades ago, 30 to 40 percent of its citizens use bicycles as their primary method of transportation. So our challenge was, ‘How can we enhance these dynamics of sustainability? And how can we use technology to make them more widespread?’

The smart tags will allow individuals to monitor the distance they travel while cycling as part of a citywide “green mileage” initiative, which is similar to a frequent-flyer program. Ultimately, fine-grained monitoring of urban activities could allow cities such as Copenhagen to enter carbon-trading schemes. Cities could obtain funding for sustainable city services in exchange for their efforts to cut carbon dioxide emissions. The impact could be considerable, as cities account for approximately half of the world population, but are responsible for a much larger share of carbon emissions.

Beyond encouraging Copenhagen’s citizens to ride more often, the program aims to help them interact as well. A Facebook application called “I crossed your path” creates a social network for cyclists, allowing them to link up with people they may have ridden past during the day and potentially establish new connections, according to Christine Outram, the principal research assistant on the project.

The project will be implemented citywide in time for the November 2009 UN Climate Change Conference, which Copenhagen will host.

The Smart Biking Project is developed by the SENSEable City Laboratory, an MIT research group focused on technology and urban planning that is a part of the MIT Department of Urban Studies and Planning, together with the MIT Design Lab. In addition to professors Ratti and Mitchell, the team comprises Assaf Biderman, Francesco Calabrese, Michael Lin, Mauro Martino and Outram.

Among the MIT Smart Cities Group’s projects is the CityCar, a stackable electric two-passenger city vehicle. The CityCar utilizes fully integrated in-wheel electric motors, energy storage integrated in the axle, and suspension systems called “Wheel Robots.” This technology is patented-pending and under design development at the MIT Media Lab.

source: http://www.greencarcongress.com/2008/10/mit-bringing-sm.html#more

I ran across this item in Science Daily this morning. It is an interesting concept. Is there technology to make a circuit that is both charger and inverter, i.e., can use line voltage to charge batteries and then take battery voltage and invert it back to line voltage? I don’t know of any. If not, this concept would be workable only by adding an inverter circuit in parallel with the charger circuit, with attendant control mechanisms, which would add considerably to the purchase price of a PHEV. Go to http://www.sciencedaily.com/releases/2008/10/081002172140.htm to read the full article

Scientists Explore Putting Electric Cars On A Two-way Power Street

ScienceDaily (Oct. 12, 2008) — Think of it as the end of cars’ slacker days: No more sitting idle for hours in parking lots or garages racking up payments, but instead earning their keep by providing power to the electricity grid.

Scientists at the University of Michigan, using a $2 million grant from the National Science Foundation (NSF), are exploring plug-in hybrid electric vehicles (PHEV) that not only use grid electricity to meet their power needs, but return it to the grid, earning money for the owner.

“Cars sit most of the time,” said Jeff Stein, a professor in the Department of Mechanical Engineering. “What if it could work for you while it sits there? If you could use a car for something more than just getting to work or going on a family vacation, it would be a whole different way to think about a vehicle, and a whole different way to think about the power grid, too.”

The concept, called vehicle-to-grid (V2G) integration, is part of a larger effort to embrace large-scale changes that are needed to improve the sustainability and resilience of the transportation and electric power infrastructures. If V2G integration succeeds, it will enable the grid to utilize PHEV batteries for storing excess renewable energy from wind and the sun, releasing this energy to grid customers when needed, such as during peak hours.

This will lead to more sustainable transportation and grid infrastructures, and will also increase the resilience of these infrastructures to sharp changes in energy costs, supply, or demand.

The NSF’s Emerging Frontiers in Research and Innovation program created a topic for a 2007-2008 call for proposals on resilient and sustainable infrastructures. This topic argues that the nation’s infrastructures over the past century have evolved largely independently but new technologies have emerged that coupled some of these infrastructures. This has created a need for fundamental tools to design and develop these new technologies and to evolve these coupled infrastructures.

Stein and others see the PHEV as a perfect example of such a new technology that in this case is coupling the transportation and power grid infrastructures.

V2G is an opportunity to look at vehicles beyond shaving miles per gallon. A team of experts in mechanical and power systems engineering, economics, and industrial ecology will examine every aspect of a PHEV and how it interacts with the electrical grid.

If PHEVs, which are anticipated to be on the market in 2010, fulfill their promise, millions could be on the road in the decades to come. This potentially will provide unprecedented shared battery storage to the grid and transportation infrastructures, thereby allowing these infrastructures to store renewable energy when available and use it when needed.

Aging electric plants are good at generating power, Stein said, but they face challenges in storing it, and lack ways to buffer against either big surges in demands, or interruptions in supply. Massive storage systems can be costly and problematic.

But, Stein said, think of all the “distributed” storage packed into millions of PHEVs on the road. He and his colleagues envision a world where the electric cars could double as mobile holding tanks for electricity, ready to serve in their down time.

“If we had lots of PHEVs all plugged into the grid, then what seems like an insignificant amount of energy storage becomes a large energy storage,” he said….

Source: http://www.sciencedaily.com/releases/2008/10/081002172140.htm

Saw this article on the Autobloggreen blog this morning and thought you may be interested. The 3 wheel “leaning” concept is not new; as the article mentions, Piaggio has had it for quite a while. What fascinates me is the concept of having electric motors/alternators in each front wheel, which charge their battery only from regenerative braking. It has a conventional, but supercharged125cc ICE driving the rear wheel.  Two separate drive systems.  I’m also fascinated by the horizontal spring arrangement of the front suspension.  I’m reserving judgment on this concept, mainly because I wonder what effect it will have on handling when the inside wheel drops in a pothole in a turn and the other wheel makes a sudden move upward, with attendant loss of traction when it is needed most.  I foresee skids in turns as a result.  Back in the late sixties early seventies, a British firm (BMC I think it was) sold a car with “hydraulic suspension.”  It had antifreeze/water filled rubber bags at each wheel, all connected with water lines.  This had a disturbing action that when one wheel dropped in a pothole, it was felt at all four wheels, like all four wheels had hit potholes simultaneously.  It also was prone to total loss of traction when something, like a pothole, disturbed the balance.  In a curve on a wet road , they would “turn end for end” if the driver was a little too aggressive.

Source: http://www.autobloggreen.com/2008/10/04/peugeot-unleashes-118-mpg-hymotion3-compressor-concept/

Peugeot unleashes 118 mpg HYmotion3 Compressor Concept

Posted Oct 4th 2008 at 8:03PM by Jeremy Korzeniewski

Filed under: Hybrid, MPG, Peugeot, On Two Wheels, Paris Motor Show

We really dig Peugeot’s new HYmotion3 Compressor Concept. It’s got three wheels — two up front and one in back, our preferred arrangement — and a hybrid drivetrain. The two front wheels are independently powered by individual wheel-mounted hub motors and have no connection to the supercharged four-stroke 125cc engine that powers the rear wheel. Regenerative braking is all that provides power to the scooter’s battery pack. Like the Piaggio MP3, the HYmotion3 is a leaning machine. Besides that radical powertrain, the scooter features a full safety cage that encompasses both the driver and passenger. A real windshield sits at the front with a second large sunroof overhead.

The engine shuts down when it’s not needed and the electrically-driven front wheels are capable of powering the machine by themselves. The HYmotion3 is extremely fuel efficient, recording 118 miles per gallon. Could it see production? It’s not beyond the realm of possibility, as the supercharged engine is already sold in other Peugeot scooters and the aforementioned MP3 has proven that the design can be a success on the sales floor. In other words, stay tuned.

Source: http://www.autobloggreen.com/2008/10/04/peugeot-unleashes-118-mpg-hymotion3-compressor-concept/

Saw this interesting article on the autobloggreen blog this morning.  It’s an interesting concept; use solar panels to recharge a vehicle.  The one observation I would like to make is that this concept could not be applied to a daily runner, unless the vehicle driver worked second or third shift, without some kind of energy storage system.  Could this be an extension of the electric scooter project, Peter?

AltCar 2008: Prometheus’ solar-powered electric motorcycle

Posted Sep 29th 2008 at 8:44AM by Sebastian Blanco

Filed under: EV/Plug-in, Solar, AutoblogGreen Exclusive, Santa Monica Alt Car Expo, Green Daily

Jim Corning had an idea. Wouldn’t it be cool if you could put four solar panels on your house, and then be able to power a vehicle with the energy created with them? Corning, who founded Prometheus Solar LLC, didn’t have a vehicle he could powere with sunlight, but he did have a wife with a Ninja 250 that wasn’t getting much use.

Today, Corning has a proof-of-concept electric motorcycle. At the Santa Monica AltCar Expo, Corning was talking with curious visitors all weekend, but was happy to tell AutoblogGreen about the bike. The four panels behind Corning in the picture above offer 800 watts, enough to recharge the bike. During testing, he’s blown up the batteries twice, and those accidents helped him realize the benefits of a more aerodynamic bike. Inspired by Craig Vetter’s fuel efficiency contests of the 1980s, Corning designed the Prometheus research vehicle to be quite slippery (note the front wheel cover and the extended back end to give the air somewhere to go). He also wanted to keep the upright seating of a motorcycle, which influenced the desighn. Currently, the bike uses lithium-ion phosphate batteries from Thundersky that have a 4.6 kWh capacity connected to a 10 HP Perm PMG 132 motor. That means he can go up to 70 mph and has a range of about 50 miles. The bike is not for sale, but there has been no lack of interest, both at the show and on the street. Corning said he had to buy an open face helmet to talk to all of the people who chat him up at stop lights….

Source: http://www.autobloggreen.com/2008/09/29/altcar-2008-prometheus-solar-powered-electric-motorcycle/

I came across this article on the “Wired” blog this morning and thought it was especially relevant to our own “electric scooter” project in the AFV Lab. It’s quite an elegant electric motorcycle! To save bandwidth, I didn’t put up all the article, go to http://blog.wired.com/cars/2008/08/two-wheels-zero.html to see the rest of the article, especially the pictures at the bottom. For more information, check out the company webpage, http://www.zeromotorcycles.com/.

Two Wheels, Zero Emissions and Loads of Fun

By Chuck Squatriglia August 20, 2008 | 4:07:09 PMCategories: Electric Vehicles, Motorcycles

Saiki started developing the Zero X five years ago after participating in a NASA round table analyzing transportation technology. He became convinced electric drivetrains are the best way forward and motorcycles the logical place to develop them. They’re smaller and less complex than cars, and the regulatory hurdles to getting them on the road aren’t as high.

Off-road bikes lend themselves to electric power because they’re typically ridden short distances, so range isn’t that big an issue. Electric motors also provide gobs or torque, a big plus in motocross riding. The Zero X produces power instantaneously, and it’ll catch you off guard because the bike is all but silent. Snap the throttle too hard and you’ll lift the front wheel. “The throttle is like a light switch,” Saiki says. “It’s on or it’s off.”

A low-speed mode limits the bike to about 30 mph and is good for tooling around. Switch to high-speed mode and you get unfettered acceleration to about 57 mph. The Zero X will hit 30 mph in under two seconds and 57 in about twice that. Juice comes from a proprietary li-ion battery that weighs 40 pounds and provides about two hours of riding time. It recharges in about two hours using any household socket, and you can get a spare for $2,950.

The Zero X has hydraulic disc brakes and fully adjustable suspension with about 8 inches of travel. It looks a bit like a big mountain bike, which isn’t a coincidence. Saiki, who holds a degree in aerospace engineering, has designed bicycles for Santa Cruz, Haro and Mountain Cycles.

He worked through seven prototypes and designed most of the 300 or so components himself. The bikes are built in a factory near Santa Cruz, and Saiki hopes to turn out 300 a month by next summer. He’s sold 127 since April (Google’s Larry Page bought three) and has a waiting list of 77 people, including two guys who signed up after seeing the bike outside our office.

Saiki says about 75 percent of buyers are seasoned motocross riders, which speaks to the bike’s dirt cred. Saiki had motocross hall-of-famer Jeff Emig flog a prototype at a track in Las Vegas last year, and Emig says it’s the real deal. “I’m expecting the production version to have a huge impact on the motor sports industry,” he says. We probably won’t see James Stewart or Ryan Villopoto racing them anytime soon (although Saiki says the AMA is interested in racing e-bikes) but the guys at Dirt Rider (.pdf) called an early prototype of the Zero X “the inevitable sound of the future of off-road motorcycle riding.”

As for Zero Motorcycle’s future, it includes a street version good for 70 mph and a range of 60 miles. Look for it in January with a sticker price of $9,000.

Photos by Emily Lang / wired.com

Source: http://blog.wired.com/cars/2008/08/two-wheels-zero.html

Saw this a while back and thought I would introduce it to this blog. It is not the first motorized unicycle, nor is it really a unicycle, as it has two wheels. However, it is curious as an extension of the Segway, and its inventor is 19 years old.  Go to http://www.dailymail.co.uk/news/article-562726/Hold-tight-The-worlds-unicycle-MOTORBIKE.html to read the full article.

Hold on tight! The world’s first unicycle
MOTORBIKE

A young inventor has created a motorbike with a twist ? it uses two wheels but they are positioned right next to each other, giving it the illusion of being a powered unicycle. And even better, it might help save the planet.

Ben Gulak has spent several years building the electric Uno that uses gyroscopic technology - like the infamous Segway commuter device - to stay upright.

The bizarre-looking contraption has only one switch - on or off - and is controlled entirely by body movement.

The rider leans forwards to accelerate to speeds of 25mph and back to slow down. It has two wheels side-by-side and has been turning heads wherever it has been ridden.

Electric Unicycle and Inventor Ben Gulag

Ben Gulak designed the Uno himself with the help of a simple 3D program

The green machine is so small and light it can be taken indoors and carried into lifts - and is recharged by being plugged into the mains.

The wheels are completely independent, allowing the bike to turn on a sixpence and the technology takes the balance and guesswork out of riding a unicycle.

Its 18-year-old creator is now looking for investors to get the Uno into production and onto the streets.

Ben, from Ontario, Canada, said: “I was inspired to make the bike after visiting China a few years ago and seeing all the smog.

“They all drive little bikes that are really polluting and I wanted to make something to combat that.

“I started with the concept because if something doesn’t look cool people just won’t be interested.

Electric Unicycle in operation