Recycling the lowly rice husk to power villages in India (and make a profit)

Peeled-off, tossed aside, and forgotten, the rice husk may be the world’s most ubiquitous-and forsaken-form of agricultural waste. To Chip Ransler of Husk Power Systems, it’s a massive clean energy supply for the world’s rural poor, and one that could change the lives of hundreds of millions of people.But first-what’s a rice husk? It’s the hard, protective coating that covers every harvested grain of rice. These husks make up about a third of the gross weight of the harvest, so rice is generally milled locally, and the husk discarded, before the digestible product is shipped off. Farmers burn the husk byproduct to get rid of it, or often just let it rot in the field.But where others see waste, HPS sees potential. And power. Power that rural India desperately needs. Villages in rural India-and throughout the developing world, for that matter-generally exist off the grid, unserved by the massive centralized power plants that electrify cities. Villagers, meanwhile, depend on motorcycle batteries, kerosene lamps, diesel generators, and the very occasional rooftop solar array (often financed by microloans) to light up dark rooms, charge cell phones, or pump water. There’s a dearth of what Ransler calls “meso-power plants,” which could serve a small village’s needs.Husk Power Systems is working to change that. Ransler, along with three business partners from the notoriously hard-up region of Bihar, India, have pioneered a way to build village-scaled power plants, and to run them (profitably!) on plentiful, and until now worthless, rice husks. Using a tried and true technology-gasification-Manoj Sinha and Gyanesh Pandey, the team’s engineers, have built a generator fueled by biogas that’s released as the husks are heated. A typical system will churn out 35 to 100 kilowatts of juice, enough to serve 600-700 households.


In a unique twist, customers prepay for the power, tallying up the wattage of what they plan to plug in. Everyone charges cell phones first. (According to Ransler, 90 percent of rural villagers in Bihar have cell phones, “which they charge from motorcycle batteries for 25 to 50 cents each-a total ripoff.”) Then they’ll plug in lights, radios, fans and even pumps to irrigate crops. Businesses are connecting to the new grid as well, now free from generators and the volatile costs of diesel.The benefits to the community go on and on. Compared to solar, wind, and even coal, the cost of husk power is cheap. HPS buys the husks from local farmers-about 500 tons of the material are produced by the typical village every season-creating a sustainable local market. Each plant also employs three villagers: one to feed husks into the plant, one to maintain the equipment, and one to collect payments. Of course the biggest boost is the power itself. A teacher in one village HPS serves told the team, “We earned our independence from England 60 years ago, but today-when you came into our village-we got independence from poverty.”Right now, HPS is running pilot projects in 35 Indian villages, powering more than 50,000 people’s homes. And, again, each plant is profitable. They pay for themselves running even at 40 percent capacity. At 95 percent, an operation can net $22,500 a year. A couple of other potential revenue streams could help bump those numbers up. The silica ash byproduct of the gasification can be sold off to concrete manufacturers, and the HPS team is also hoping to be certified under the Clean Development Mechanism program so that they can sell carbon credits for the emissions reduced by their plants. (Besides making diesel generators redundant, gasifying the husks prevents the release of a considerable amount of methane, one of the world’s most potent greenhouse gasses.)The plan is to reach 100 villages as soon as possible, and then work on scaling the idea globally. “Take a map of the world’s energy-poor areas and compare it to a map of rice-producing areas,” Ransler explains, “and these two maps are essentially the same.”Quick to dismiss any preconceived notions that providing power for the rural poor is too difficult, that it doesn’t make business sense, Ransler assures, “This can work anywhere there’s rice.” And nearly everywhere there’s rice, people are desperate for power.LEARN MORESee Ransler and Sinha present at the Pop!Tech conference.Title image of rice farmer in Bihar from Flickr user yumievriwan, licensed under Creative Commons. Bottom image from HPS.

  • Australia produces so much solar power that they’re giving three hours of it away each day for free
    Photo credit: CanvaSolar energy surpluses during the day offers Aussies free energy.

    In a time when energy costs are rising, Australia is taking a different approach. The country has acquired so much solar power that they’re giving it away. In fact, those who sign up for the program will get three free hours of energy each day.

    This comes from a government-run offer dubbed Solar Sharer. It offers a free three-hour period for those who sign up. This period runs from 11:00 a.m. to 2:00 p.m. in Queensland, Victoria and New South Wales. The period runs from noon to 3:00 p.m. in South Australia. 

    Free, but not unlimited, power

    While the power is free for those who are eligible and have a smart meter, there is a daily cap of 24 kilowatt-hours (kWh). Any amount above that will be charged. However, the energy cap is based on the Australian Energy Regulator’s assessment of what a five-person household uses each day. 

    While that free period each day provides a great window to use major appliances or charge electric cars, there are some catches. Solar Sharer isn’t yet available to residents outside those areas, but energy brokers are making similar offers. There is also no guarantee that electricity rates won’t get higher outside of those free periods either.

    Who benefits?

    The program is designed for those who are a part of a solar power grid. It also benefits people who work from home the most. If the people in the household are at their job or the office, they likely won’t be able to take advantage of the deal.  

    While Energy Consumers Australia supports this offer, they are concerned about how governments and retailers relay the information to customers. In short, they don’t want people to be surprised if their electricity rates are charged higher during the non-free periods. They’re also concerned that, by their measure, only three in 10 eligible people were aware of this offer.

    “We don’t want to have people signing up to these plans assuming it will decrease their bills, when in fact it could do the opposite,” the consumer advocacy group said to The Guardian.

    There is a chance that rates won’t get higher if more people are able to take advantage of Solar Sharer. Since most electricity use is during the evening when more people are home from work, changing up the usage towards daytime hours can benefit everyone. It would still be an uphill battle as electric light is mostly used in the evening and nighttime when it’s dark.

    Similar programs elsewhere

    While there are catches, this isn’t the first program of its type. There are similar successful free energy programs in other nations. Areas such as Germany and the Nordic countries create so much green energy through wind farms that they make similar free power offers. California has also offered government programs for low-income households and farmworkers housing cheap-to-free solar energy.

    While kinks definitely need to be sorted out, creating so much generated energy to the point that it can be given freely is a good problem to have.

  • Motorcyclist trapped under a 3,300 pound car saved by Australian car salesmen
    Photo credit: @ACurrentAffair9 on YouTubeA man was saved from being crushed under a car.

    Tyler Wiebe was on his way to work on his motorcycle in Brisbane, Australia. Then a car approached in the wrong way in traffic, colliding with another car that then hit Wiebe. The accident threw Wiebe off his bike and under a car. He was trapped under the 3,300-lb. vehicle, doomed until a group of salesmen and onlookers came to his rescue.

    “I was being dragged and when it stopped, my head and chest were under the car,” Wiebe said to the Australian Broadcasting Corporation. The crash and being pinned down under the vehicle gave Wiebe several injuries. He suffered broken ribs, a broken collarbone, and a collapsed lung.

    But that would be diagnosed later. At the time, the car’s weight was crushing Wiebe to the point that he couldn’t breathe. His heart was also unable to beat, the pressure causing his eyes, mouth, and nose to bleed.

    “Initially it was ‘can I get out?’ and then it was ‘man I am dying, this is it,’” recalled Wiebe. “[My] wife and two kids are not here, and this is it.”

    Hope comes in the form of a car salesman

    After being stuck for two minutes under the car, help arrived from the nearby Auto Request Kedron, a used car dealership.

    “I was in the office at the time, so I heard the bang [and] came running to the doors,” Mick, one of the employees, said to A Current Affair.

    “I realized there was someone trapped under the car,” fellow employee Rob added.

    They rushed into action, recruiting other coworkers to help.

    “[I] saw Rob running and he was just whistling out saying, ‘Hey, boys, hurry up,’ ” Corbin recalled. “I remember seeing him, just like two legs. They weren’t moving at that time.”

    The salesmen tried to lift the vehicle up to get Wiebe to safety, but the car wouldn’t budge.

    “We tried to lift it off. We couldn’t, and then on the second attempt, we had a couple of other good Samaritans come and help us,” said Brian, another employee of Auto Request Kedron.

    Reportedly 15 people were finally able to lift the car and free Wiebe underneath. He was rushed to the hospital where he went under emergency operations. Under hospital care, Wiebe’s condition stabilized and he survived. Had he been under that car any longer, the worst would have happened.

    Wiebe was humbled and grateful to the salesmen and others who stepped up to save him.

    “I get more time with my daughters, I get more time with my family and a second lease on life, so just thank you, thank you,” Wiebe said in his hospital bed.

    Certified legends

    When he was discharged from the hospital, Wiebe set up a reunion with the employees of the used car dealership. He was able to introduce his family to his rescuers and thank them face-to-face. Wiebe presented them with matching t-shirts, each one with a logo reading “Certified Legend” on the front and an illustration of a person lifting a car over their head on the back.

    “You guys are legends, but now you’re certified legends,” Wiebe said to his heroes.

    A father and husband was saved thanks to the alertness and quick action of the nearby community.

  • Texas engineers develop a jacket that pulls fresh drinking water out of thin air
    Photo credit: @fascinatingonX/CanvaWearing this jacket could help keep people hydrated.

    For too many, access to clean drinking water is incredibly difficult. According to the World Health Organization, over two billion people live in water-stressed areas due to pollution, climate change, or population growth. However, engineering experts in Texas have developed a possible solution: just put on a jacket.

    The engineers and researchers gathered at the University of Texas at Austin developed a prototype jacket that can pull drinking water out of thin air. The jacket could help anyone frequently in areas where drinkable water is scarce. This could be used recreationally by campers, hikers, and runners—but it could also save lives. Emergency responders, soldiers, and agricultural workers could also collect water for themselves and others simply by wearing it.

    The technology behind the jacket is similar to the materials used in netting for water harvesting of air and fog. This time, however, the idea is to collect water while also being mobile.

    “Water harvesting from air is usually imagined as a stationary device such as a box, a panel or a large sorbent bed,” said Guihua Yu, chair professor of the Cockrell School of Engineering’s Walker Department of Mechanical Engineering and Texas Materials Institute. “Here, we wanted to rethink the form of the technology. If the fabric itself can collect water from air, it opens a new direction for personal and portable water access.”

    How does this jacket collect water?

    The textile used to create the jacket was derived from a device the same team created. That device was a specially engineered hydrogel fabric made from biomass-derived materials. This hydrogel fabric takes moisture from the air and then releases it as water via condensation when it’s heated by sunlight. The water can easily be collected.

    The jacket’s textile collects moisture from the air and funnels it into detachable harvesting units. The units can be placed into a foldable collector piece where they are heated to produce water. The material and system doesn’t just absorb water like other materials. Instead, it actively converts vapor into water while functioning as a piece of protective clothing.

    The jacket is able to produce between 400 to 900 milliliters of drinkable water daily. This is a vast improvement upon other similar inventions that yielded less water and were significantly bulkier to wear. The jacket’s material could collect and produce more water over time and testing, depending on the humidity of the terrain.

    Aside from creating clothing out of the material, the researchers hope to make backpacks, tents, emergency shelters, and other outdoor gear from it. The hope is that this could create more clean water access for disaster response units and everyday people living in water-stressed areas alike.

    How much hydration do you need in the heat?

    Until water-collecting jackets are commercially available, it’s important to have drinkable water nearby at all times, especially during the summer. When out in the heat, the Center for Disease Control recommends having a drink of water before working outdoors. Then drink a cup of water every 15 to 20 minutes. This can help keep your body cool and hydrated to prevent heat stroke. That said, stay alert and stay indoors if there is a heat warning in your area.

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