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Posts about cool products including high tech gadgets, appropriate technology solutions and possible products in the future. Recommended posts: Lego Learning (mindstorms) - Lifestraw - Video Goggles - Wakamaru Robot - Re-engineered Wheelchair

Google Invests $168 million in Largest Solar Tower Power Project

Posted on April 12, 2011  Comments (4)

Google is investing in a new solar tower power project located in California that will generate 392 gross MW of clean, solar energy. That’s the equivalent of taking more than 90,000 cars off the road. Google has now invested $250 million in clean energy.

Investing in the world’s largest solar power tower plant

works by using a field of mirrors, called heliostats, to concentrate the sun’s rays onto a solar receiver on top of a tower. The solar receiver generates steam, which then spins a traditional turbine and generator to make electricity. Power towers are very efficient because all those mirrors focus a tremendous amount of solar energy onto a small area to produce steam at high pressure and temperature (up to 1000 degrees F).

Several large solar projects are in the works in the sunny Southwest (and around the globe), but Ivanpah will be the first solar power tower system of this scale. The Ivanpah Power Tower will be approximately 450 feet tall and will use 173,000 heliostats, each with two mirrors.

The Department of energy is also providing financing for this project. The project is 10 times larger than the largest solar photovoltaic project in California.

Related: Google Investing Huge Sums in Renewable Energy and is HiringGoogle.org Invests $10 million in Geothermal EnergyGoogle’s Energy InterestsMolten Salt Solar Reactor Approved by CaliforniaSolar Tower Power GenerationFinding Huge Sources of Energy Without Increasing Carbon Dioxide Output

Wave Disk Engine Could Increase Efficiency 5 Times

Posted on April 8, 2011  Comments (1)

Norbert Müller’s group has received $2.5 million from the U.S. Department of Energy Advanced Research Projects Agency-Energy (ARPA-E) in 2010 to build and develop the wave disk engine, which uses turbo combustion “shock wave” technology to convert either liquid fuel or compressed natural gas or hydrogen into electrical power. With this engine, fuel efficiency for hybrid vehicles could increase 5 times compared to internal combustion engine vehicles on the road today (and 3.5 times less than current hybrid cars), while reducing costs by 30%. The goal of Müller’s team is to produce an engine that would give hybrid vehicles a 500-mile driving range and reduce carbon dioxide emissions by as much as 90%.

In the video he says they hope to have the engines in production vehicles within 3 years. My guess is he is being quite optimistic, but we will see. The new engine would allow 1,000 pounds to be removed from the weight of cars (by removing the need for drive train, radiator…).

Related: $10 Million X Prize for 100 MPG CarEconomic Benefits Brought by Investing in Engineering59 MPG Toyota iQ Diesel Available in Europe (2008)MIT Hosts Student Vehicle Design Summit (2006)

Cat Allergy Vaccine Created

Posted on April 2, 2011  Comments (5)

McMaster University researchers have developed a vaccine which successfully treats people with an allergy to cats. Traditionally, frequent allergy shots have been considered the most effective way to bring relief — other than getting rid of the family pet — for the 8 to 10% of the population allergic to cats.

Both options, may now be avoided thanks to the work of immunologist Mark Larché, professor at the Michael G. DeGroote School of Medicine and Canada Research Chair in Allergy & Immune Tolerance.

Building on research he’s conducted for the past 10 years in Canada and Britain, Larché and his research team have developed a vaccine which is effective and safe with almost no side effects. The research is published in a the January 2011 issue of the Journal of Allergy & Clinical Immunology, a leading journal in the allergy field.

The researchers took one protein (molecule) that cats secrete on their fur which causes the majority of allergic problems. Using blood samples from 100 patient volunteers allergic to cats, they deconstructed the molecule and identified short regions within the protein which activate T-cells (helper cells that fight infection) in the immune system.

Using the amino acid code for the whole protein, researchers made synthetic versions of these regions. For the cat allergy vaccine, they found seven peptides (strings of amino acids). “And those synthetic peptides are what we mix together to make the vaccine,” said Larché. “We picked the peptides that would work in as much of the population as possible.”

Known as “peptide immunotherapy,” a low dose of the vaccine is given into the skin. Initially, four to eight doses a year may be required, but the side effects of the traditional allergy shots do not arise, Larché said. The optimal dose will be determined in phase three clinical trials which are getting underway with a much larger group of cat allergy sufferers.

The development of a vaccine to treat people allergic to cats is the first in a line of vaccines developed with Adiga Life Sciences, a company established at McMaster in 2008. It is a joint venture between McMaster University Circassia Ltd., a UK-based biotech company.

Adiga and McMaster are now collaborating on research into the use of peptide immunotherapy for house dust mite, ragweed, grass, birch tree and moulds

Related: MIT Engineers Design New Type of Nanoparticle for Vacines10 Questions to Ask Your Vet About Cat MedicationsVaccine For Strep Infections

Pepsi Bottles Made of Switch Grass and Other Plants

Posted on March 16, 2011  Comments (0)

Pepsi bottles: no more plastic

The bottle is made from switch grass, pine bark, corn husks and other materials. Ultimately, Pepsi plans to also use orange peels, oat hulls, potato scraps and other leftovers from its food business. The new bottle looks, feels and protects the drink inside exactly the same as its current bottles, said Rocco Papalia, senior vice president of advanced research at PepsiCo.

PepsiCo says it is the world’s first bottle of a common type of plastic called PET made entirely of plant materials. Coca-Cola Co. currently produces a bottle using 30 percent plant-based materials and recently estimated it would be several years before it has a 100 percent plant bottle that’s commercially viable.

“This is the beginning of the end of petroleum-based plastics,” said Allen Hershkowitz, a senior scientist with the Natural Resources Defense Council and director of its waste management project. “When you have a company of this size making a commitment to a plant-based plastic, the market is going to respond.”

Coca-Cola said it welcomed other advances in packaging, but noted that it has scaled up use of its own plant-based bottle since introducing it in 2009. It also says it has demonstrated a 100 percent plant bottle in the lab and is still working to ensure it is commercially viable.

There are other plant-based plastics available or in development, but Herskowitz said these are not environmentally preferred because they typically use plants grown solely for that purpose rather than using the estimated 2 billion tons of agricultural waste produced each year. And these alternative plastics cannot be recycled.

Related: Albatross Chicks Fed Plastic Ocean Pollution by ParentsBisphenol A (used in plastic bottles)Biodegradable Plastic Bags and BottlesElectrolyzed Water Replacing Toxic Cleaning Substances

Molten Salt Solar Reactor Approved by California

Posted on December 18, 2010  Comments (12)

California has approved a molten salt solar reactor project. The plan is for a 150-megawatt solar power tower project. From the press release: the “Solar Energy Project has the ability to collect and store enough thermal energy each morning to operate at full power all afternoon and for up to 8 hours after sunset. The game-changing technology featuring inherent energy storage affords utilities with a generator that performs with the reliability and dispatchability of a conventional power generator without harmful emissions that are associated with burning coal, natural gas and oil.”

diagram of solar energy project using molton salt

molten salt solar system diagram

The heliostats focus concentrated sunlight on a receiver which sits on top of the tower. Within the receiver, the concentrated sunlight heats molten salt to over 1000 degrees Fahrenheit. The heated molten salt then flows into a thermal storage tank where it is stored, maintaining 98% thermal efficiency, and eventually pumped to a steam generator. The steam drives a standard turbine to generate electricity. This process, also known as the “Rankine cycle” is similar to a standard coal-fired power plant, except it is fueled by clean and free solar energy.

This is another green energy project that has a great deal of potential. There is a great need for such new energy sources and hopefully quite a few of these projects will let us enjoy a greener and more sustainable way to meet our future energy needs.

For those interested in the business aspects of this energy project: United Technologies provided SolarReserve with an exclusive worldwide license to develop projects using the proprietary molten salt power tower technology, which has been in development for nearly three decades.

Related: Solar Thermal in Desert, to Beat Coal by 2020Wind Power Capacity Up 170% Worldwide from 2005-2009Cost Efficient Solar Dish by StudentsSolar Tower Power Generation

Great Furniture for Small Spaces

Posted on November 21, 2010  Comments (8)

Wonderful design from Italy with great space saving furniture. Great design with wonderful engineering provides solutions that are a joy to see and live with. These are not cheap though. New York City distributors of the furniture.

Related: Toyota Engineering Development ProcessHonda U3-X Personal TransportTreadmill Cats: Friday Cat Fun #3Engineering Students Design Innovative Hand Dryer

Fix it Goo

Posted on November 16, 2010  Comments (0)

5 years of discovery and experimentation culminated in Sugru. It cures at room tempature, is self-adhesive, is flexible, waterproof and dish-washer-proof. Another post on home fixing.

Related: Teenage Engineer’s Company Launches Safety StairEngineers Should Follow Their HeartsTest it Out, Experiment by They Might Be GiantsBionic Vision

Fiskars Cuts+More 5-in-1 Multi-Purpose Scissors

Posted on November 12, 2010  Comments (2)

These are some well engineering scissors with all sorts of handy features. Fiskars makes some great products. High-quality blades provide excellent cutting performance on a wide variety of materials. Large, ergonomically sculpted finger and thumb loops provide excellent comfort and control when cutting.

Additional features include a power notch for cutting light rope, wire cutter, twine cutter, pointed awl tip and bottle opener. You can even take the scissors apart and use the titanium-coated blade as a knife. It’s dishwasher safe and includes an innovative sheath with a built-in tape cutter and a ceramic scissors sharpener to keep the blades performing at their best. Ergonomically sculpted handles provide comfortable use and cutting control. Power notch cuts light rope. Wire cutter makes cutting wire without damaging the blades quick and easy.

A pointed awl tip is perfect for piercing small holes in cardboard, leather and more. Bottle opener makes it easy to open bottles. Take-apart design offers a titanium-coated knife that is three times harder than steel for general cutting needs. Dishwasher safe for easy cleaning. The sheath protects blades, sharpens scissors and includes a tape cutter for opening boxes.

Related: Updated Black and Decker Codeless Lawn Mower ReviewThe Glove, Engineering CoolnessBike Folds To Footprint of 1 WheelDroid Incredible

Real Time Hologram Projection Getting Closer

Posted on November 6, 2010  Comments (1)

A team led by the University of Arizona professor of Materials Science and Engineering Nasser Peyghambarian has developed a new type of holographic telepresence that allows the projection of a three-dimensional moving image without the need for special eyewear such as 3D glasses or other auxiliary devices.

“Holographic telepresence means we can record a three-dimensional image in one location and show it in another location, in real-time, anywhere in the world,” said Peyghambarian, who led the research effort.

“Holographic stereography has been capable of providing excellent resolution and depth reproduction on large-scale 3D static images,” the authors wrote, “but has been missing dynamic updating capability until now.”

The prototype device uses a 10-inch screen, but Peyghambarian’s group is already successfully testing a much larger version with a 17-inch screen. The image is recorded using an array of regular cameras, each of which views the object from a different perspective. The more cameras that are used, the more refined the final holographic presentation will appear.

Related: Holographic Television on the Way3D Printing is HereVideo GogglesJetsone Jetplane Flys Over the English Channel
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Google’s Self Driving Car

Posted on October 12, 2010  Comments (5)

Google thinks big. Google thinks like engineers. Google is willing to spend money taking on problems that other companies don’t. They have been developing a car that can drive itself. They see a huge amount of waste (drivers lives and drivers time) and seek a solution.

Larry and Sergey founded Google because they wanted to help solve really big problems using technology. And one of the big problems we’re working on today is car safety and efficiency. Our goal is to help prevent traffic accidents, free up people’s time and reduce carbon emissions by fundamentally changing car use.

So we have developed technology for cars that can drive themselves. Our automated cars, manned by trained operators, just drove from our Mountain View campus to our Santa Monica office and on to Hollywood Boulevard. They’ve driven down Lombard Street, crossed the Golden Gate bridge, navigated the Pacific Coast Highway, and even made it all the way around Lake Tahoe. All in all, our self-driving cars have logged over 140,000 miles. We think this is a first in robotics research.

Our automated cars use video cameras, radar sensors and a laser range finder to “see” other traffic, as well as detailed maps (which we collect using manually driven vehicles) to navigate the road ahead. This is all made possible by Google’s data centers, which can process the enormous amounts of information gathered by our cars when mapping their terrain.

To develop this technology, we gathered some of the very best engineers from the DARPA Challenges, a series of autonomous vehicle races organized by the U.S. Government. Chris Urmson was the technical team leader of the CMU team that won the 2007 Urban Challenge. Mike Montemerlo was the software lead for the Stanford team that won the 2005 Grand Challenge. Also on the team is Anthony Levandowski, who built the world’s first autonomous motorcycle that participated in a DARPA Grand Challenge, and who also built a modified Prius that delivered pizza without a person inside.

Related: Larry Page and Sergey Brin WebcastEnergy Secretary Steve Chu and Google CEO Eric Schmidt Speak On Funding Science ResearchGoogle’s Ten Golden RulesCMU Wins $2 million in DARPA Auto Race

sOccket: Power Through Play

Posted on October 8, 2010  Comments (3)

In a fun example of appropriate technology and innovation 4 college students have created a football (soccer ball) that is charged as you play with it. The ball uses an inductive coil mechanism to generate energy, thanks in part to a novel Engineering Sciences course, Idea Translation. They are beta testing the ball in Africa: the current prototypes can provide light 3 hours of LED light after less than 10 minutes of play. Jessica Matthews ’10, Jessica Lin ’09, Hemali Thakkara ’11 and Julia Silverman ’10 (see photo) created the eco-friendly ball when they all were undergraduates at Harvard College.

photo of sOccket creators: Jessica Matthews, Jessica Lin, Hemali Thakkara and Julia Silverman

sOccket creators: Jessica Matthews, Jessica Lin, Hemali Thakkara and Julia Silverman

They received funding from: Harvard Institute for Global Health and the Clinton Global Initiative University. The

sOccket won the Popular Mechanics Breakthrough Award, which recognizes the innovators and products poised to change the world. A future model could be used to charge a cell phone.

From Take part: approximately 1.5 billion people worldwide use kerosene to light their homes. “Not only is kerosene expensive, but its flames are dangerous and the smoke poses serious health risks,” says Lin. Respiratory infections account for the largest percentage of childhood deaths in developing nations—more than AIDS and malaria.

Related: High school team presenting a project they completed to create a solution to provide clean waterWater Pump Merry-go-RoundEngineering a Better World: Bike Corn-ShellerGreen Technology Innovation by College Engineering Students

Watch a June 2010 interview on the ball:
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