2010.04.08: Lesotho RPCV Matt Orosz builds prototypes of a solar thermal power system that he designed
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2010.04.08: Lesotho RPCV Matt Orosz builds prototypes of a solar thermal power system that he designed
Lesotho RPCV Matt Orosz builds prototypes of a solar thermal power system that he designed
Orosz won the MIT Ideas Competition in 2004 and 2005. He was a World Bank Development Marketplace finalist. He picked up a couple of fellowships. He started a nonprofit, STG International. His work has been funded by the World Bank, National Collegiate Inventors and Innovators Alliance, Ignite Clean Energy, the MIT Energy Initiative and the EPA's P3 program. Here's what was different about his system: First, size. U.S. solar thermal plants can sprawl across hundreds of acres to power thousands of homes. He wanted a miniaturized system, for a single school or clinic, that would provide 3 to 5 kilowatts of power plus hot water. Second, cost. That miniaturization couldn't result in expensive, rare parts. He needed to be able to use parts that were already relatively common to make his system competitive for off-grid Africans who pay 30 cents to 50 cents a kilowatt hour for diesel or photovoltaic power. Third, simplicity. The best system - one that would take root and spread - would be one the Basotho could build and maintain themselves far from the national power grid. It would provide not just power, but local business.
Lesotho RPCV Matt Orosz builds prototypes of a solar thermal power system that he designed
Becky Bower: For Africa, cheap, low-tech, on-site solar power
01:00 AM EDT on Thursday, April 8, 2010
By BeCKY BOWER
ST. PETERSBURG, Fla.
The promise of cheap power for health clinics in rural Africa sits at the edge of a Florida bay.
Lesotho's ruddy mountains have just this in common with a strip of grass at Eckerd College: sunlight.
That, and one volunteer-minded grandmother, are why experts from four states showed up this month to start work on an experimental low-tech power plant.
Mirrored troughs will concentrate the sun's heat on a fluid, creating motion and electricity. The test site for MIT engineers will help them refine an award-winning solar design already powering one Lesotho clinic.
Why Africa? Why Eckerd?
The answer is Matt Orosz, a 32-year-old doctoral student at MIT. He's an engineer now but was once a liberal arts student at Dartmouth College. Semesters in Budapest and Zimbabwe inspired time in the Peace Corps. He worked in Lesotho, a country surrounded by South Africa where fewer than one in six people has access to electricity.
He burned his hand on a bread oven.
The oven used sunlight, with bread sitting in a shiny parabola that concentrated heat. If the Basotho could bake their bread, Orosz thought, he could create power.
A solar-energy system that didn't rely on glass-covered photovoltaic panels could solve a handful of problems. It could replace polluting diesel generators. It could create hot water that would free women from scavenging in deforested areas for fuel. It would limit theft and damage to delicate shipped-in parts.
He needed to become an engineer. He went to MIT and earned two master's degrees. He returned with a team to Lesotho in 2005 to build prototypes of a solar thermal power system that he designed.
"Nobody designs a miniature power plant," he says.
The system is already grabbing attention.
Orosz won the MIT Ideas Competition in 2004 and 2005. He was a World Bank Development Marketplace finalist. He picked up a couple of fellowships.
He started a nonprofit, STG International. His work has been funded by the World Bank, National Collegiate Inventors and Innovators Alliance, Ignite Clean Energy, the MIT Energy Initiative and the EPA's P3 program.
Here's what was different about his system:
First, size. U.S. solar thermal plants can sprawl across hundreds of acres to power thousands of homes. He wanted a miniaturized system, for a single school or clinic, that would provide 3 to 5 kilowatts of power plus hot water.
Second, cost. That miniaturization couldn't result in expensive, rare parts. He needed to be able to use parts that were already relatively common to make his system competitive for off-grid Africans who pay 30 cents to 50 cents a kilowatt hour for diesel or photovoltaic power.
Third, simplicity. The best system - one that would take root and spread - would be one the Basotho could build and maintain themselves far from the national power grid. It would provide not just power, but local business.
"If you know how to turn a wrench, you're already part of the way there," said Amy Mueller, 30, another MIT doctoral student who co-directs nonprofit STG.
Donated solar collectors came from a Hawaiian company, Sopogy. They're anchored in damp sand by German technology - giant Krinner Ground Screws instead of concrete - from a Canadian company that sent an installer from California. A St. Petersburg contractor who's a member of the Florida Green Builders Coalition, Water Oak Development Group, oversaw assembly and installation.
It was the search for a better spot for research and development that brought Orosz to Eckerd. Massachusetts was convenient, but only for the six weeks a year with enough sun. Lesotho, a 35-hour trip, was just too far. Even the Southwest, with plentiful light and space, was a longer plane flight than Florida. And then there was Orosz's grandma.
Kay Gendreau, 75, has volunteered at Eckerd for nearly a decade. She loves the campus, the people. She lives across the street. Orosz grew up working in her Massachusetts restaurant. As he searched for a Florida site, Eckerd made sense.
When he stood up March 12 for the unveiling of the site's first phase, he thanked her. Gendreau beamed.
For Eckerd, its yearlong Africa Initiative made the partnership ideal.
"We're happy to help MIT out," president Donald Eastman joked at the unveiling.
The test site won't generate electricity until 2011. That's mostly because Orosz has something he has got to do before he finishes it.
He'll spend 10 months evaluating technical, economic and social applicability of solar technology for use in low-income housing.
Florida sun will help light the way.
Becky Bower ( bbowers@sptimes.com) writes for the St. Petersburg Times.
Our technology is a small-scale distributed co-generation platform that uses solar energy to produce thermal and electrical energy supplies. The solar thermal design uses the heat from sunlight directly to drive a heat engine and to produce hot water (or cooling via an absorption-chiller type process). By using a cogeneration scheme to recover some fraction of the "waste" heat, a higher fraction of the sun's energy is captured and turned into useful energy.
These microgenerator systems are built using widely available parts including steel, plumbing supplies, and automotive parts. Specialty components (the aluminum reflective sheeting and refrigerant working fluid) are generally available as well, though the microgenerator design can be updated to use alternative materials in areas where they are extremely costly or difficult to source. The goal is a microgenerator design that is purely mechanical and can be constructed almost anywhere, unlike silicon-based photovoltaic cells which rely upon high-tech clean rooms for manufacturability.
Initial pilot systems were designed to produce between 600W and 1kW of electricity along with ~10kW of thermal outputs (e.g. hot water). In such a configuration, a 24 square-meter array of parabolic mirrors can produce up to 600L of hot water during a sunny summer day (approximately half as much on a sunny winter day with less hours of sunlight). Current designs can provide between 1-3kW of electricity along with hundreds of gallons of hot water per day. These system are designed to provide energy for off-grid schools, clinics, or community centers where both electricity and hot water are in high demand.
The STG team has been working on the development of this technology since 2003. Several generations of prototypes have been constructed and installed in Cambridge, Massachusetts (USA) and Bethel, Phamong (Lesotho).
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