Tag Archives: economy

Engineering a Better World: Bike Corn-Sheller

photo of bike maize sheller

More appropriate technology from MIT’s D-Lab.

D-Lab-developed device makes corn processing more efficient

Jodie Wu, an MIT senior in mechanical engineering, spent the summer traveling from village to village in Tanzania to introduce a new system for processing the corn: A simple attachment for a bicycle that makes it possible to remove the kernels quickly and efficiently using pedal power. The device makes processing up to 30 times faster and allows one person to complete the job alone in one day.

The basic concept for the maize-sheller was first developed in Guatemala by an NGO called MayaPedal, and then refined by Wu last semester as a class project in D-Lab: Design, a class taught by Department of Mechanical Engineering Senior Lecturer Amy Smith. Now, thanks to Wu’s efforts, the technology is beginning to make its way around the world.

Thus, the owner of a bicycle, with a small extra investment, can travel from village to village to carry out a variety of useful tasks. A simple bike thereby becomes an ongoing source of income.

Wu refined the corn-sheller system, which was originally designed as a permanent installation that required a bicycle dedicated solely to that purpose, to make it an add-on, like Kiwia’s tools, that could be easily bolted onto an ordinary bike and removed easily.

Photo shows the prototype of the attachment. Engineering that makes a significant difference in people’s lives (especially those that need it the most) is even cooler than the latest high tech gizmos in my opinion. And those new gizmos are cool.

Related: Design for the Unwealthiest 90 PercentAppropriate Technology postsWater Pump Merry-go-RoundNepalese Entrepreneur Success – Tumaini Cycles blog (by

$400 Million More for Harvard and MIT

$400 million endowment for the Broad Institute of Harvard and MIT

“Today the Broad Institute is the world’s leading genomics and biomedical institute, and we’re now making a $600 million bet that the Broad will be the place where the greatest scientific discoveries take place,” Eli Broad said at today’s ceremony.

In its short history, the Broad Institute’s accomplishments include cataloging and identifying genetic risk factors for diseases such as type 2 diabetes and autism; discovering new therapeutic targets for cancer, malaria, and other diseases; and applying genomic tools to better understand and treat human pathogens like tuberculosis.

The Broads’ gift is the largest to support biomedical research at a university anywhere in the world. The Broads initially invested $100 million in 2003 as a way to test the institute’s new approach to biomedical research. By 2005, the Broad Institute had already made significant accomplishments and progress, and the Broads invested a second $100 million. Their endowment of $400 million today will allow the Broad Institute to transition to a permanent, non-profit 501(c)(3) organization with both Harvard and MIT still at the heart of it, continuing to help govern the institute.

Many countries would love to create a world class center of biomedical research. And several are trying. Boston sure seems to be staking a claim that it will be one of those centers of excellence. The economic benefits of that to Boston will be huge.

Related: Harvard Plans Life Sciences Campus$1 Billion for Life Sciences in MassachusettsChina’s Gene Therapy Investment$600 Million for Basic Biomedical Research from HHMIEdinburgh University $115 Million Stem Cell Center

Wind Power Provided Over 1% of Global Electricity in 2007

graph of global installed wind power capacity

Data from World Wind Energy Association, for installed Mega Watts of global wind power capacity in 2007. 19,696 MW of capacity were added in 2007, bringing the total to 93,849 MW. Europe accounts for 61% of installed capacity, Germany accounts for 24% and the USA 18%.

The graph shows the top 10 producers (with the exceptions of Denmark and Portugal) and includes Japan (which is 13th).

Related: USA Wind Power Installed Capacity 1981 to 2005Wind Power has the Potential to Produce 20% of Electricity by 2030Top 12 Manufacturing Countries in 2007Sails for Modern Cargo ShipsMIT’s Energy ‘Manhattan Project’

15 Photovoltaics Solar Power Innovations

15 Photovoltaics Solar Power Innovations You Must See

Researchers at McMaster University (coolest name ever) have succeeded in ‘growing’ light-absorbing nanowires made of high-performance photovoltaic materials on carbon-nanotube fabric. In other words, hairy solar panels.

The aim is to produce flexible, affordable solar cells that, within five years, will achieve a conversion efficiency of 20%. Longer term, it’s theoretically possible to achieve 40% efficiency!

while looking for a solution, researchers noticed that moths have very non-reflective eyes (“most likely an evolutionary defense against nocturnal predators”). The moth-eye process creates panels that reflect less than 2% of light. That’s a vast improvement over the 35 to 40% reflection rate seen without the anti-reflection coating layers.

Some experts are speculating that First Solar might beat over 80 competitors to achieve manufacturing costs low enough to market solar panels at less than $1 per Watt, the target considered necessary for solar to compete with coal-burning electricity on the grid.

Related: Solar Power: Economics, Government and TechnologyCost Efficient Solar Dish by Studentsposts on solar energyLarge-Scale, Cheap Solar Electricity

Symptom of America’s Decline in Particle Physics

Land Of Big Science

Probing more deeply than ever before into the stuff of the universe requires some big hardware. It also requires the political will to lavish money on a project that has no predictable practical return, other than prestige and leadership in the branch of science that delivered just about every major technology of the past hundred years.

Those advances came, in large measure, from the United States. The coming decades may be different.

A third of the scientists working at the LHC hail from outside the 20 states that control CERN. America has contributed 1,000 or so researchers, the largest single contingent from any non-CERN nation.

The U.S. contribution amounts to $500 million—barely 5 percent of the bill. The big bucks have come from the Europeans. Germany is picking up 20 percent of the tab, the British are contributing 17 percent, and the French are giving 14 percent.

The most worrying prospect is that scientists from other countries, who used to flock to the United States to be where the action is, are now heading to Europe instead.

This is a point I have made before. The economic benefits of investing in science are real. The economic benefits of having science and engineering centers of excellence in your country are real. That doesn’t mean you automatically gain economic benefit but it is a huge advantage and opportunity if you act intelligently to make it pay off.

Related: Invest in Science for a Strong EconomyDiplomacy and Science ResearchAsia: Rising Stars of Science and EngineeringBrain Drain Benefits to the USA Less Than They Could Beposts on funding science explorationposts on basic researchAt the Heart of All Matter

Saving Lives with Smarter Hurricane Evacuations

A sign indicating a hurricane evacuation route near Boca Raton, Florida. Photo / Wikimedia Commons

Software developed by a MIT student is aiding emergency officials as they decide on evacuation plans:
Saving lives through smarter hurricane evacuations

Michael Metzger’s software tool, created as part of the research for his PhD dissertation, could allow emergency managers to better decide early on whether and when to order evacuations — and, crucially, to do so more efficiently by clearing out people in stages. The tool could also help planners optimize the location of relief supplies before a hurricane hits.

“All in all, this is a complex balancing act,” Metzger says.

The concept of evacuating an area in stages — focusing on different categories of people rather than different geographical locations — is one of the major innovations to come out of Metzger’s work, since congestion on evacuation routes has been a significant problem in some cases, such as hurricanes Katrina and Rita. Metzger suggests that, for example, the elderly might be evacuated first, followed by tourists, families with children, and then the remaining population. The determination of the specific categories and their sequence could be determined based on the demographics of the particular area.

By spacing out the evacuation of different groups over a period of about two days, he says, the process would be more efficient, while many traditional systems of evacuating a given location all at once can and have caused serious congestion problems.
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Other factors that could help to make evacuations more effective, he says, include better planning in the preparation of places for evacuees to go to, making sure buses and other transportation are ready to transport people, and preparing supplies in advance at those locations.

Related: Engineering the Boarding of AirplanesMIT Hosts Student Vehicle Design SummitLighting in Slow Motion

Lake Superior vs. Silicon Valley Hot Spots

Nice post from Rich Hoeg – Lake Superior vs. Silicon Valley Hot Spots:

Recently I had the opportunity to visit friends in Silicon Valley. While riding the light rail in Mountain View, I experienced a moment of revelation of how life differs between the shores of Lake Superior and Silicon Valley. Six young men boarded the train … all obviously geeks in their young 30’s … their laptops (all Apples) were already fired up and ready. They proceeded to have a LAN party while riding the light rail on the way to work. Why was this possible?? You need to understand that Google provides free wireless to the entire town on Mountain View. The world is connected … and interacts in different ways … at least in Silicon Valley.

Thus, life is different on the shores of Lake Superior. I am a lone software nerd looking for a wireless hotspot … not a light rail rider with free unlimited access anywhere in my community. Out in Silicon Valley I tried Google’s connection; it worked fine and did not ask for anything beyond my normal Google account.

This is one small example of why Silicon Valley is so successful. To be economically successful, countries need to focus on big things (investing in infrastructure, sensible laws relating to innovation, creating and maintaining good capital markets, investing in science and engineering education, encouraging entrepreneurs, transportation systems…) and the small stuff like this. Silicon Valley continue to be a bright light (as do other places, like Boston) but overall the USA seems to be trailing, not leading, far too often lately.

Related: Engineering the Future EconomyUSA Science Losing GroundDiplomacy and Science ResearchUSA Broadband is Slow. Really Slow.

USA Broadband is Slow. Really Slow.

Surprise, surprise: U.S. broadband is slow. Really slow.

The U.S. comes in 15th on a worldwide scale, far behind the leaders Japan, South Korea and Finland.

A file that takes four minutes to download in South Korea would take nearly an hour and a half to download in the U.S. using the average bandwidth. Japanese users leaves U.S. users behind with an eye-popping 63.60 Mb/s download link. This means that Japanese can download an entire movie in just two minutes, as opposed to two hours or more here in the U.S. Just in case you are wondering: No, Japanese users do not pay more for their broadband connections. In fact, U.S. broadband cost is among the highest in the world.

Japan dominates international broadband speed with a median download speed of approximately 63 Mb/s, more than enough to stream DVD-quality video with surround audio in real time. Next on the list is South Korea where download speeds achieve an average of 49.50 Mb/s. Finland and France follow with 21.70 Mb/s and 17.60 Mb/s, respectively. Canada ranked eighth with an average download speed of 7.60 Mb/s. The U.S. came in 15th with 2.35 Mb/s.

I see this as an economic issue. Countries that have provided an investment in internet infrastructure to provide broadband to the home at reasonable prices will be rewarded.

Related: Speed Matter Report (pdf) – PhD Student Speeds up Broadband by 200 timesPlugging America’s Broadband GapThe Next Generation InternetYouTube Access Deniedinternet related posts

Plugging America’s Broadband Gap

Plugging America’s Broadband Gap

Martin is concerned about a U.S. broadband gap. Only 60% of American households have speedy Net access. That puts the country in 15th place among developed nations, according to the Organization for Economic Cooperation & Development. It’s a mighty fall from 2001, when the U.S. ranked fourth.

This is one of a number of facts that those in the USA seem ignorant of: we have a far worse internet and cell phone infrastructure than many countries. Those that think the USA is the leading technology country should be alarmed by such poor performance in a critical area such as internet infrastructure.

There are three basic options for catching up. The government can take the lead, making its own investments in broadband. Second, the government can mandate that existing providers make the service available more widely. Most realistically perhaps, the government can create incentives for private companies to roll out more broadband. That’s what Martin is trying to do. He wants to auction off wireless spectrum and require the winning bidder to provide free broadband throughout the country. The company could make money by selling advertising and advanced services.

The free service wouldn’t be the fastest on the market. The winning bidder would have to offer a minimum speed of 768 kilobits per second to 95% of the country within 10 years. Although that’s technically broadband, it’s about half the speed of today’s average U.S. broadband link.

Still, Martin’s proposal has drawn support because it has the potential to crack what has become a broadband duopoly. In most markets, only one telecom company and one cable provider offer the service. A third alternative with decent speed and big savings off the current $50 monthly average price could spark more competition. The leading contender to win the auction is M2Z Networks, a startup founded by former FCC staffer John Muleta.

The FCC approach is no panacea. It’ll provide competition at the low end of the market and will do nothing to bring the U.S. the blazing speeds common in Korea and Japan.

Related: China Builds a Better InternetInternet Undersea CablesUnderstanding Computers and the Internet

Tapping America’s Potential

Another business coalition, Tapping America’s Potential coalition, is encouraging investment an increased investment in science and engineering to strengthen the USA economy.

The economy of the 21st century is characterized by increasing competition around the globe, and nowhere do we see that more clearly than in the scientific fields, said William D. Green, chairman and CEO of Accenture and chairman of Business Roundtable’s Education, Innovation & Workforce Initiative and a member of TAP. America’s ability to innovate begins with the talent, knowledge and creative thinking of its workforce, and businesses and government must continue to work together to strengthen science and technology education.

The report includes progress updates on the TAP coalition’s agenda to advance U.S. competitiveness in STEM through:

  • Boosting and sustaining funding for basic research, especially in the physical sciences and engineering
  • Reforming visa and immigration policies to enable the United States to attract and retain STEM students from around the world to study for advanced degrees and stay to work in the United States
  • Upgrading K–12 math and science teaching to foster higher student achievement, including differentiated pay scales for mathematics and science teachers
  • Building public understanding and support for making improvement in STEM performance a national priority

Related: Asia: Rising Stars of Science and EngineeringEngineering the Future EconomyIncreasing American Fellowship Support for Scientists and EngineersDiplomacy and Science Research