Foul odour from industrial chicken rendering facilities may soon be history

August 27, 2009 By Leave a Comment

Washington, Aug 27 (ANI): A research team led by Indian-origin scientist from North Carolina State University has devised a new technique that can help eliminate foul odour and air pollutants from industrial chicken rendering facilities.

Rendering facilities take animal byproducts (e.g., skin, bones, feathers) and process them into useful products such as fertilizer. However, the rendering process produces extremely foul odours.

Currently, the industry uses chemical “scrubbers” to remove odor-causing agents, but this technique is not very effective.

Furthermore, some of the odour-causing compounds are aldehydes, which can combine with other atmospheric compounds to form ozone – triggering asthma attacks and causing other adverse respiratory health effects.

According to Praveen Kolar, assistant professor of biological and agricultural engineering, the inexpensive treatment process uses ozone and specially-designed catalysts to break down the odour-causing compounds.

The new technique with an effective filtration system takes advantage of catalytic oxidation to remove these odour-causing pollutants.

This process takes place at room temperature, so there are no energy costs, and results in only two byproducts: carbon dioxide and pure water.

The researchers developed the catalysts by coating structures made of activated carbon with a nanoscale film made of cobalt or nickel oxides.

“We used activated carbon because its porous structure gives it an extremely large surface area meaning that there is more area that can be exposed to the odorous agents,” said Kolar.

The cobalt and nickel oxide nanofilms make excellent catalysts, Kolar explains, “because they increase the rate of the chemical reaction between the odour-causing compounds and the ozone, making the process more efficient. They are also metals that are both readily available and relatively inexpensive.” (ANI)

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Scientists create material that can repel hot water

July 16, 2009 By Leave a Comment

London, July 16 (ANI): In a breakthrough study, scientists from University of Minnesota in St Paul have developed a new material that can repel hot water.

The new discovery could help protect vulnerable members of the population such as elderly, children, physically impaired people from hot-water burns.

Scientists have long been working on producing water-repelling materials inspired by natural surfaces, such as lotus leaves.

These leaves have waxy hydrophobic – water hating – coating and a spiky surface texture that helps to trap small pockets of air beneath water droplets.

During the study, Yuyang Liu along with colleagues from Hong Kong Polytechnic University, reviewed studies suggesting carbon nanotubes are powerfully hydrophobic in their search for a material that can repel hot water as well as cold, and found that they seem indifferent to temperature.

To further improve resistance to hot water, the team added carbon nanotubes to Teflon – a substance commonly used as a non-stick coating on cookware.

The researchers later dipped a cotton fabric into the mix.

They found that the material is able to repel hot water, milk, coffee and tea at 75 degree Celsius – a sufficient temperature to cause scalding – without problems.

Moreover, the hot droplets retain a near spherical shape and roll off the material.

However, Liu insists that Teflon coating alone is not so effective. He said that carbon nanotubes create a dimpled surface texture on a nanoscopic scale – small enough to trap air even under drops of hot liquid and prevent droplet impalement on the surface.

Philippe Brunet at the Mechanics Laboratory of Lille, France, thinks the work is promising.

“It has been claimed that a dense carpet of nanowires, coated with ad-hoc chemistry, should have a very high robustness to impalement but he doesn’t think anyone has tested such materials against hot water before,” New Scientist quoted him as saying.

The study appears in Journal of Materials Chemistry. (ANI)

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Scottish man sets new world by running 259 ft with body set on fire

July 6, 2009 By Leave a Comment

London, July 06 (ANI): A Scottish man slammed the previous world record of running 227ft with body set on fire by sprinting 259 ft.

Keith Malcolm, from Aberdeen, succeeded in his second attempt to break the record after he fell 40ft short of the record in his previous attempt in May.

The amateur stuntman, who now lives in Widley near Portsmouth, Hants, wore eight layers of protective clothing, including four layers of fireproof undergarments, a Formula One fireproof jacket and three overalls to avoid any harm.
He protected his head with three fire hoods and a helmet apart from coating himself in special protective “stunt gel” to save himself from flames that approximately reached 1000 degree Celsius.

“It was absolutely awesome. I managed it in 17 seconds and was running flat-out. I really did not want to hang around,” the Telegraph quoted Malcolm as saying.

“There wasn’t much left of the jacket at the end. To be honest, the heat I felt was what you would expect if you were wearing all those clothes and a helmet in hot weather and trying to run.

However, team of experts from Hampshire Fire and Rescue were at hand in case any accident had occurred.

The new world record was set at the Alton and North East Hampshire Agricultural Show, which aimed at raising money for Cancer Research. (ANI)

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Novel implant coating technique created

June 30, 2009 By Leave a Comment

Washington, June 30 (ANI): An electrochemical process for coating metal implants which vastly improves their functionality, longevity and integration into the body has been developed by a Tel Aviv University researcher.

Brainchild of Prof. Noam Eliaz of the TAU School of Mechanical Engineering, the new process could vastly improve the lives of people who have undergone complicated total joint replacement surgeries so they can better walk, run and ultimately avoid rejection of the implant by their bodies.

“The surface chemistry, structure and morphology of our new coatings resemble biological material,” explains Prof. Eliaz.

“We’ve been able to enhance the integration of the coating with the mineralized tissue of the body, allowing more peoples’ bodies to accept implants,” the expert added.

His new coating resulted in a 33 percent decrease in the level of materials failure, or delamination, in these implants.

Prof. Eliaz presented his findings to the 215th meeting of the Electrochemical Society in San Francisco in May 2009. (ANI)

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Safer metal alloys may replace chrome coatings on bathroom fixtures, car bumpers

May 21, 2009 By 1 Comment

Washington, May 21 (ANI): Scientists have now found safer metal alloys to replace chrome coatings, which provides that shiny lustre to metal products like bathroom fixtures and car bumpers.

Researchers at the Massachusetts Institute of Technology (MIT) say that chrome not only adds beauty and durability, but could also be dangerous for workers during manufacturing and also pollutes the environment.

“People have been trying to replace it for a very long time. The problem is that it’s the only plated metal coating that has all of these properties – hardness, long-lasting shine and corrosion protection,” said Christopher Schuh, MIT associate professor of materials science and engineering.

But the researchers have now developed a new nickel-tungsten alloy that is not only safer than chrome but also more durable.

The new coating, which is now being tested on the bumpers of a truck fleet, could also replace chrome in faucet fixtures and engine parts, among other applications.

The technique used to coat metal objects with chrome-electroplating-involves running a current through a liquid bath of chromium ions, which deposits a thin layer of chrome on the surface of an object placed in the bath.

The ions, known as hexavalent chromium, are carcinogenic if inhaled, and contact with the liquid can be fatal.

Hexavalent chromium can pollute groundwater, and some of the original Superfund cleanup sites involved hexavalent chromium pollution.

“It’s an environmental nightmare,” said Schuh.

Chrome owes its hardness to its nanocrystalline structure, and thus the researchers decided to duplicate that structure with a material that could be easily and safely electroplated.

They used computer models to predict material properties, and settled on a nickel-tungsten alloy that is environmentally friendly and more durable than chrome.

The researchers have shown that nickel-tungsten alloys remain stable indefinitely at room temperature, and are highly resistant to decomposition when heated.

They can also be made harder and longer lasting than chrome and also the electroplating process is more efficient than that for chrome, because multiple layers can be applied in one step, which could save money for manufacturers.

“Not only do you get rid of the environmental baggage but you make a better product as well,” said Schuh.

The technology could be used to coat products like shock absorbers, print rolls and even electronics. (ANI)

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Beef, chicken, fish may help treat stomach ulcers

May 16, 2009 By 1 Comment

Washington, May 16 (ANI): Beef, chicken, fish, eggs, dairy products and some fruits and vegetables could help keep stomach ulcers at bay, says a new study.

Bacteria known as Helicobacter pylori are known to cause such ulcers, and thus antibiotics are used a primary therapy for such infection. But today the bacteria are growing increasingly resistant to antibiotics.

And now, the study by scientists at Beth Israel Deaconess Medical Center (BIDMC) and the Massachusetts Institute of Technology, has shown that the amino acid glutamine, found in many foods as well as in dietary supplements, may prove beneficial in offsetting gastric damage caused by H. pylori infection.

The findings offer the possibility of an alternative to antibiotics for the treatment of stomach ulcers.

“Our findings suggest that extra glutamine in the diet could protect against gastric damage caused by H. pylori. Gastric damage develops when the bacteria weakens the stomach’s protective mucous coating, damages cells and elicits a robust immune response that is ineffective at ridding the infection,” says senior author Dr. Susan Hagen, Associate Director of Research.

She noted that eventually, years of infection result in a combination of persistent gastritis, cell damage and an environment conducive to cancer development.

Glutamine is a nonessential amino acid naturally found in certain foods, including beef, chicken, fish, eggs, dairy products and some fruits and vegetables. L-glutamine – the biologically active isomer of glutamine – is widely used as a dietary supplement by body builders to increase muscle mass.

In earlier studies, researchers had shown that glutamine protects against cell death from H. pylori-produced ammonia.

“Our work demonstrated that the damaging effects of ammonia on gastric cells could be reversed completely by the administration of L-glutamine. The amino acid stimulated ammonia detoxification in the stomach – as it does in the liver – so that the effective concentration of ammonia was reduced, thereby blocking cell damage,” explained Hagen.

Thus, they hypothesized that a similar mechanism might be at work in the intact stomach infected with H. pylori.

After testing the hypothesis on mice, researchers found that at six-weeks-post infection, the animals exhibited increased expression of three cytokines – interleukin 4, interleukin 10 and transforming growth factor-alpha mRNA.

“These all play an important role in the stomach’s ability to protect against damaging effects resulting from other responses to H. pylori infection,” explained Hagen.

The study results showed that in 20 weeks, H. pylori-infected mice, that were fed the L-glutamine diet exhibited lower levels of inflammation than did the mice that received the standard control diet.

“Because many of the stomach pathologies during H. pylori infection [including cancer progression] are linked to high levels of inflammation, this result provides us with preliminary evidence that glutamine supplementation may be an alternative therapy for reducing the severity of infection,” explained Hagen.

She added that studies in human subjects would be the next step to determine the relevance of this finding in the clinical setting.

The study was published in the latest issue of the Journal of Nutrition. (ANI)

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Inexpensive plastic used in CDs could improve aircraft, computer electronics

May 16, 2009 By Leave a Comment

Washington, May 16 (ANI): An inexpensive plastic used to manufacture CDs and DVDs will one day soon be put to use in improving the integrity of electronics in aircraft, computers and iPhones.

Thanks to a pair of grants from the US Air Force, Shay Curran, associate professor of physics at UH, and his research team have demonstrated ultra-high electrical conductive properties in plastics, called polycarbonates, by mixing them with just the right amount and type of carbon nanotubes.

Curran, who initially began this form of research a decade ago at Trinity College Dublin, started to look at high-conductive plastics in a slightly different manner.

Curran’s team has come up with a strategy to achieve higher conductivities using carbon nanotubes in plastic hosts than what has been currently achieved.

By combining nanotubes with polycarbonates, Curran’s group was able to reach a milestone of creating nanocomposites with ultra-high conductive properties.

“While its mechanical and optical properties are very good, polycarbonate is a non-conductive plastic. That means its ability to carry an electrical charge is as good as a tree, which is pretty awful,” Curran said.

“Imagine that this remarkable plastic can now not only have good optical and mechanical properties, but also good electrical characteristics. By being able to tailor the amount of nanotubes we can add to the composite, we also can change it from the conductivity of silicon to a few orders below that achieved by metals,” he added.

Making this very inexpensive plastic highly conductive could benefit electronics in everything from military aircraft to personal computers.

Computer failure, for instance, results from the build up of thermal and electrical charges, so developing these polymer nanotube composites into an antistatic coating or to provide a shield against electromagnetic interference would increase the lifespan of computing devices, ranging from PCs to PDAs.

The next step of this research is to develop ink formulations to paint these polycarbonate nanocomposites onto various electrical components. (ANI)

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Angry and rejected ex-Oz pace bowler Tait says may take a trip to Greece

May 15, 2009 By Leave a Comment

Adelaide (Australia), May 15 (ANI): An irate former Australian pace bowler Shaun Tait lashed out at Cricket Australia on Friday for ruining his Indian Premier League dream and then denying him a national contract which he labelled a “kick in the teeth”.

In an explosive media session in Adelaide, Tait criticized national chairman of selectors Andrew Hilditch for “sugar coating” his contract snub and threatened to take a trip to Greek Islands rather than pursue futile preparation for Australia’s one-day series against England in September.

Tait believes he was fit enough to play for Shane Warne’s Rajasthan Royals after recovering from a four-month fight against hamstring tendonitis and could have fronted for Australia’s World Twenty20 campaign.

However CA physio Alex Kountouris and doctor Trefor James ruled Tait was not fit enough to play in the IPL – costing the super slinger 500,000 dollars.

“I am pretty ready to go. If I was to play cricket tomorrow I could wheel myself out. To not let you go, not pick you in a squad then not give you a contract is a bit of a kick in the teeth. I can take a breath, and it gives me some options to explore other options in the cricket world,” the Courier Mail quoted Tait, as saying.

A disheartened Tait said that he would pursue county cricket in England, but was not optimistic about a one-day recall against England in September.

“It is pretty for Cricket Australia to say get ready for a tournament when they haven’t given you a contract. I can quite easily duck off to the Greek Islands if I want to but I will keep myself bowling, fit and something comes up that would be good,” Tait said. (ANI)

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Scientists find undersea volcano has grown a massive cone

May 6, 2009 By Leave a Comment

Washington, May 6 (ANI): Marine scientists, on an expedition to an erupting undersea volcano near the Island of Guam, have discovered that it appears to be continuously active, has grown a new cone during the past three years, and its activity supports a unique biological community thriving despite the eruptions.

The international science team on the expedition, funded by the National Science Foundation (NSF), captured dramatic new information about the eruptive activity of NW Rota-1.

“NW Rota-1 remains the only place on Earth where a deep submarine volcano has ever been directly observed while erupting,” said Barbara Ransom, program director in NSF’s Division of Ocean Sciences, which funded the research.

Scientists first observed eruptions at NW Rota-1 in 2004 and again in 2006, according to Bill Chadwick, an Oregon State University (OSU) volcanologist and chief investigator on the expedition.

This time, however, they discovered that the volcano had built a new cone 40 meters high and 300 meters wide.

“As the cone has grown, we’ve seen a significant increase in the population of animals that lives atop the volcano. We’re trying to determine if there is a direct connection between the increase in the volcanic activity and that population increase,” Chadwick said.

Animals in this unusual ecosystem include shrimp, crab, limpets and barnacles, some of which are new species.

“They’re specially adapted to their environment, and are thriving in harsh chemical conditions that would be toxic to normal marine life,” said Chadwick. “Life here is actually nourished by the erupting volcano,” he added.

According to Verena Tunnicliffe, a biologist from the University of Victoria, most of the animals are dependent on diffuse hydrothermal venting that provides basic food in the form of bacterial filaments coating the rocks.

“It appears that since 2006 the diffuse venting has spread and, with it, the vent animals,” Tunnicliffe said. “There is now a very large biomass of shrimp on the volcano, and two species are able to cope with the volcanic conditions,” she added.

The shrimp reveal intriguing adaptations to volcano living.

“The ‘Loihi’ shrimp has adapted to grazing the bacterial filaments with tiny claws like garden shears,” said Tunnicliffe. “The second shrimp is a new species – they also graze as juveniles, but as they grow to adult stage, their front claws enlarge and they become predators,” she added.

The new studies are important because NW Rota-1 provides a one-of-a-kind natural laboratory for the investigation of undersea volcanic activity and its relation to chemical-based ecosystems at hydrothermal vents, where life on Earth may have originated. (ANI)

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Light-emitting T-shirts come closer to reality

May 6, 2009 By Leave a Comment

London, May 6 (ANI): Light-emitting T-shirts may soon come to be used for electronic displays, thanks to a new Japanese screen-printing method of depositing a luminescent gel onto any surface, including paper and fabric.

Researchers at Dai Nippon Printing in Tokyo, who have made this advance, have revealed that the gel consists of a ruthenium compound that emits a bright light when a voltage is applied to it, along with an electrolyte and silica nanoparticles.

The electrolyte is a liquid salt, an ionic liquid that does not easily evaporate. It also prevents the ink from degrading, allowing displays to be printed onto surfaces without the need for a protective coating.

What makes this ink suitable for use with textiles is the fact that it will not wash off in water, say the researchers.

According to them, the silica nanoparticles blend with the light-emitting liquid to form a gel, allowing it to be printed onto different surfaces in discrete blobs, to form pixels.

Presently, the ink emits only reddish hues, reports New Scientist magazine.

The researchers, however, are trying to incorporate other metal compounds into their technique so as to emit green and blue light, which will eventually give them the whole spectrum.

Since the screen-printing technique currently allows only rough pixels to be generated, the images produced currently are fuzzy.

The researchers say that they are working on techniques to deposit the gel onto surfaces using an ink-jet printer, which would allow them to create smaller pixels and hence higher resolution at costs lower than those involved in lithographic techniques.

The company hopes to market the technology within five years.

It believes that its technique may pave the way for light-emitting posters, clothing, flexible displays, and new lighting applications. (ANI)

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Nikon rolls out eight new COOLPIX cameras

April 9, 2009 By Leave a Comment

The celebrated maker of optics and imaging products, Nikon has rolled out eight new models of its COOLPIX brand of digital cameras, including one Performance Series camera, three Life Series cameras, and four Style Series cameras.

Nikon COOLPIX P90 belongs to the company’s Performance Series cameras. The black color COOLPIX P90 comes equipped with a 24x optical zoom, and a new 3.0-inch vari-angle LCD monitor that can swivel around. It boasts anti-reflection coating, and 15 fps high-speed capability. The camera, featuring electronic viewfinder, auto scene selector, a 4-way vr image stabilization system, iso 6400 capability (3mp), quick retouch, and distortion control, has been released with the price tag of Rs. 25,950.

Nikon has released three new cameras belonging to its COOLPIX Life Series cameras – L100, L20, and L19. — Nikon COOLPIX L100 is 10-megapixel equipped with a 3.0-inch high-resolution LCD having anti-reflection coating and 15x Optical Zoom. The black color COOLPIX L100 camera, featuring scene auto selector, sport continuous mode, 4-way vr image stabilization system, and smart portrait system, is priced at Rs. 18,450.

Nikon COOLPIX L20 is a 10-megapixel equipped with a 3.0-inch LCD monitor and 3.6x Zoom. Featuring easy auto mode with scene auto selector, smart portrait system, and motion detection, the COOLPIX L20 has been released in Silver, Black, and Red colors. The COOLPIX L20 is available for Rs. 8,950.

Nikon COOLPIX L19 is a 8-megapixel equipped with a 2.7-inch LCD monitor and 3.6x Zoom. The silver color COOLPIX L19, featuring easy auto mode, auto scene selector, smart portrait system, motion detection, has been released with the price tag of Rs. 7,450.

Nikon has released four new cameras belonging to COOLPIX S-Series – S630, S620, S230, and S220 cameras. — Nikon COOLPIX S630 is a small 12-megapixel camera equipped with 7x Optical Zoom, 2.7-inch LCD. The silver color S630, featuring sport continuous mode for shooting up to 11 frames-per-second (fps), scene auto selector, quick retouch, blink proof, 4-way vr image stabilization, and iso 6400 capability, is priced at Rs. 24,950.

Nikon COOLPIX S620 is a 12.2-megapixel camera equipped with a 4x-wide Optical Zoom. The black color S620, subject tracking, scene auto selector, quick retouch, blink proof, motion detection, 4-way vr image stabilization, iso
6400 capability, is priced at Rs. 18,950.

Nikon COOLPIX S230 is 10-megapixel camera equipped with a 3.0-inch high-resolution LCD touchscreen display and 3x Optical Zoom. Featuring one-touch focus and zoom, write and draw functions, scene auto selector, quick retouch, smart portrait system, blink proof, 4-way vr image stabilization, and iso 2000 capability, the COOLPIX S230 has been released in Purple, Red and Silver colors. The COOLPIX S230 is available for Rs. 14,250.

Nikon COOLPIX S220 is 10-megapixel slim (18mm) camera equipped with a 2.5-inch LCD and 3x Optical Zoom. Featuring scene auto selector, smart portrait system, blink proof, quick retouch, and 4-way vr image stabilization, the COOLPIX S220 has been released in Silver, Green, Purple, Blue, and Magenta colors. The COOLPIX S220 is priced at Rs. 9,950.

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Light-activated antibacterial coating may help fight hospital-acquired infections

April 1, 2009 By Leave a Comment

Washington, Mar 31 (ANI): Scientists at the UCL Eastman Dental Institute have developed a new tool to combat hospital-acquired infections- antibacterial coating that is activated by light.

The research team, led by Zoie Aiken, have tested the new coating with antibacterial properties, and found that it could kill 99.9 percent of Escherichia coli bacteria when a white hospital light was shone on its surface to activate it.

Made of titanium dioxide with added nitrogen, the veneer-like surface, when activated by white light-similar to those used in hospital wards and operating theatres-produced a decrease in the number of bacteria surviving on the test surface.

The hospital environment is usually full of microbes responsible for healthcare-associated infections (HCAI).

Thus, there’s a need for new ways to prevent the spread of these pathogens to patients.

And it is possible to apply antibacterial coatings to frequently touched hospital surfaces to kill any bacteria present and help reduce the number of HCAI.

Titanium dioxide based coatings can kill bacteria after activation with UV light.

And the addition of nitrogen to these coatings enables photons available in visible light to be utilised to activate the surface and kill bacteria.

Aiken said: “The activity of the coating will be assessed against a range of different bacteria such as MRSA and other organisms which are known to cause infections in hospitals. At present we only know that the coating is active against Escherichia coli. However, E. coli is more difficult to kill than bacteria from the Staphylococcus group which includes MRSA, so the results to date are encouraging.

“The coating has currently been applied onto glass using a method called APCVD (atmospheric pressure chemical vapour deposition.

“We are also experimenting with different materials such as plastic. As an example, the coating could be applied to a plastic sheet that could be used to cover a computer keyboard on a hospital ward. The lights in the ward will keep the coating activated, which will in turn continue to kill any bacteria that may be transferred onto the keyboard from the hands of healthcare workers.”

The study was presented at the Society for General Microbiology meeting in Harrogate. (ANI)

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Subsurface ice on Mars exposed by recent impact craters

March 31, 2009 By Leave a Comment

London, March 31 (ANI): The HiRISE camera aboard NASA’s Mars Reconnaissance Orbiter (MRO) has observed some small, freshly gouged craters in images taken in 2008, which in turn have exposed hidden subsurface ice on the Red Planet.

According to a report in New Scientist, seen at five sites over a latitude range of 43 degrees to 56 degrees north, the excavations are typically 3 to 6 meters across and a third to two-thirds of a meter deep.

One cluster must have appeared sometime between June and August, and a somewhat larger pit showed up between January and September.

What did astound the team were splashes of white seen in and around a handful of these craterlets.

Apparently, fist-sized impactors had punched into a layer of ice hidden by a topping of dust about a third of a metre deep.

In the months that followed, these snowy splashes gradually faded from view.

Water ice isn’t stable at the craters’ latitudes, so most likely, it gradually sublimated, or vaporised, into the atmosphere, leaving behind a veneer of any dust that had been mixed with it.

The disappearing act might also be due in part to a coating of dust blown in from the atmosphere.

Either way, notes HiRISE investigator Shane Byrne of the University of Arizona, the icy deposits had to be at least a couple of inches (several centimeters) thick, and they couldn’t have been unearthed from more than a foot or two (0.3-0.6 m) down.

According to Byrne, prior surveys, particularly one done by the neutron spectrometer aboard NASA’s Mars Odyssey orbiter, show that vast reservoirs of ice lay barely buried across most of the planet’s polar and mid-latitude regions.

But, scientists are only now realising just how near the surface the ice lies – and how easily it can be reached.

“It’s probably just tens of centimeters down,” said HiRISE team leader Alfred McEwen. (ANI)

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New eco friendly ‘bacteria’ coating protects metal against corrosion in seawater

March 30, 2009 By Leave a Comment

Washington, March 30 (ANI): A team of researchers from Sheffield Hallam University, UK, has developed a new, environmentally friendly coating with the help of bacteria, which protects metals against corrosion in seawater.

Researcher Jeanette Gittens and colleagues have described how they had encapsulated spores s from a bacterium into a sol-gel coating, which then protected an aluminium alloy from microbial corrosion.

Microbially-influenced corrosion (MIC) of metals at sea is a big safety and financial problem caused by the production of damaging substances such as hydrogen sulphide by sulphate-reducing micro-organisms within biofilms on the surfaces.

Overall, it is estimated that corrosion costs the UK around 3-4 percent of GDP.

Existing anti-corrosion treatments are costly, ineffective and often include biocides and inhibitors that are toxic to aquatic life.

The corrosion-preventing bacteria occur naturally in the environment.

Incorporating its spores into the coating did not seem to affect their viability, as living cells were still found in the coating after more than six weeks in seawater.

The coating could also be heat cured at temperatures up to 90 degree Celsius.

According to Gittens, “Our results from laboratory studies and a field trial in the Thames estuary have shown that the bacteria-containing coating is substantially more effective in the prevention of corrosion than the sol-only coating.”

“We are investigating what causes the corrosion protection. We think it might be due to the immobilized bacteria producing antimicrobial agents which inhibit the growth of corrosion-causing microorganisms,” she added.

Additional trials are now planned or in progress in a variety of marine environments.(ANI)

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Scientists build world’s most buoyant boats

March 21, 2009 By Leave a Comment

Washington, March 21 (ANI): Scientists in China have built mini prototypes for the most buoyant boats ever, which are made of copper mesh coated with a highly water repellent material that can float extremely well.

According to a report in National Geographic News, the boats, made out of the superhydrophobic mesh, even stay afloat “when the upper edges are just a hair below the surface of the water.”

“In fact, these boats are able to carry a load exceeding the maximal capacities calculated from the boat’s volume,” said study co-author Qinmin Pan, a chemist at the Harbin Institute of Technology.

The coating, made of silver nitrate and other chemicals, creates an “air film” around the copper mesh, which prevents direct contact with water.

“The presence of air film increases the water displace-volume of boats to a certain extent, leading to a large loading capacity,” Pan said.

The film also prevents water from seeping through the mesh.

Since the copper mesh is flexible, scaling up the technology to carry humans would be “problematic,” according to Pan.

The researchers instead envision small-scale applications such as aquatic robots for environmental surveillance.

Since the water-repellant material may make it easier for the boats to move through water, Pan said, “The present finding may be extended to the design of novel superfloating and drag-reducing-fast moving-aquatic devices.” (ANI)

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Buckyballs can be used to keep water pipes clear from clogging

March 5, 2009 By Leave a Comment

Washington, March 5 (ANI): Engineers at Duke University, US, have found that microscopic particles of carbon known as buckyballs may be able to keep water pipes clear in the same way clot-busting drugs prevent arteries from clogging up.

The research team found that buckyballs hinder the ability of bacteria and other microorganisms to accumulate on the membranes used to filter water in treatment plants.

This attribute leads the researchers to believe that coating pipes and membranes with these nanoparticles may prove to be an effective strategy for addressing one of the major problems and costs of treating water.

“Just as plaque can build up inside arteries and reduce the flow of blood, bacteria and other microorganisms can over time attach and accumulate on water treatment membranes and along water pipes,” said So-Ryong Chae, post-doctoral fellow in Duke’s environmental and civil engineering department.

“As the bacteria build up on these surfaces, they attract other organic matter, creating a biofilm that slowly builds up over time,” Chae added.

According to Chae, “The results of our experiments in the laboratory indicate that buckyballs may be able to prevent this clogging, known as biofouling.”

The only other options to address biofouling are digging up the pipes and replacing the membranes, which can be expensive and inconvenient.

A buckyball, or C60, is one shape within the family of tiny carbon shapes known as fullerenes. They are named after Richard Buckminster Fuller, the inventor of the geodesic dome, since their shape resembles his famous structure.

The addition of buckyballs to treatment membranes had a two-fold effect.

First, treated membranes showed less bacterial attachment than non-treated membranes. After three days, the membranes treated with buckyballs had on average 20 colony forming units, the method by which bacterial colonies are counted.

“In contrast, the number of bacterial colonies on the untreated membrane was too numerous to count,” Chae said.

Chae also found that the presence of the buckyballs inhibited respiration, or the ability of the bacteria to use oxygen to fuel its activities.

“As the concentration of buckyballs increased, so did the inhibition of respiration,” Chae said. “This respiratory inhibition and anti-attachment suggests that this nanoparticle may be useful as an anti-fouling agent to prevent the biofouling of membranes or other surfaces,” he added. (ANI)

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Sun-powered device converts CO2 into fuel

February 19, 2009 By Leave a Comment

London, Feb 19 (ANI): A team of scientists has developed a device that houses an array of nanotubes, that is able to convert a mixture of carbon dioxide and water vapour into natural gas at unprecedented rates.

According to a report in New Scientist, Craig Grimes, from Pennsylvania State University, and his team came up with the device.

“Such devices offer a new way to take carbon dioxide from the atmosphere and convert it into fuel or other chemicals to cut the effect of fossil fuel emissions on global climate,” said Grimes.

Although other research groups have developed methods for converting carbon dioxide into organic compounds like methane, often using titanium-dioxide nanoparticles as catalysts, they have needed ultraviolet light to power the reactions.

The researchers’ breakthrough has been to develop a method that works with the wider range of visible frequencies within sunlight.

The team found it could enhance the catalytic abilities of titanium dioxide by forming it into nanotubes each around 135 nanometres wide and 40 microns long to increase surface area.

Coating the nanotubes with catalytic copper and platinum particles also boosted their activity.

The researchers housed a 2-centimetre-square section of material bristling with the tubes inside a metal chamber with a quartz window.

They then pumped in a mixture of carbon dioxide and water vapour and placed it in sunlight for three hours.

The energy provided by the sunlight transformed the carbon dioxide and water vapour into methane and related organic compounds, such as ethane and propane, at rates as high as 160 microlitres an hour per gram of nanotubes.

This is 20 times higher than published results achieved using any previous method, but still too low to be immediately practical.

If the reaction is halted early the device produces a mixture of carbon monoxide and hydrogen known as syngas, which can be converted into diesel.

“We are now working on uniformly sensitising the entire nanotube array surface with copper nanoparticles, which should dramatically increase conversion rates,” said Grimes, by at least two orders of magnitude for a given area of tubes. (ANI)

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Sun-powered device converts CO2 into fuel

February 19, 2009 By Leave a Comment

London, Feb 19 (ANI): A team of scientists has developed a device that houses an array of nanotubes, that is able to convert a mixture of carbon dioxide and water vapour into natural gas at unprecedented rates.

According to a report in New Scientist, Craig Grimes, from Pennsylvania State University, and his team came up with the device.

“Such devices offer a new way to take carbon dioxide from the atmosphere and convert it into fuel or other chemicals to cut the effect of fossil fuel emissions on global climate,” said Grimes.

Although other research groups have developed methods for converting carbon dioxide into organic compounds like methane, often using titanium-dioxide nanoparticles as catalysts, they have needed ultraviolet light to power the reactions.

The researchers’ breakthrough has been to develop a method that works with the wider range of visible frequencies within sunlight.

The team found it could enhance the catalytic abilities of titanium dioxide by forming it into nanotubes each around 135 nanometres wide and 40 microns long to increase surface area.

Coating the nanotubes with catalytic copper and platinum particles also boosted their activity.

The researchers housed a 2-centimetre-square section of material bristling with the tubes inside a metal chamber with a quartz window.

They then pumped in a mixture of carbon dioxide and water vapour and placed it in sunlight for three hours.

The energy provided by the sunlight transformed the carbon dioxide and water vapour into methane and related organic compounds, such as ethane and propane, at rates as high as 160 microlitres an hour per gram of nanotubes.

This is 20 times higher than published results achieved using any previous method, but still too low to be immediately practical.

If the reaction is halted early the device produces a mixture of carbon monoxide and hydrogen known as syngas, which can be converted into diesel.

“We are now working on uniformly sensitising the entire nanotube array surface with copper nanoparticles, which should dramatically increase conversion rates,” said Grimes, by at least two orders of magnitude for a given area of tubes. (ANI)

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Pawar inaugurates conference of VCs of Agricultural Universities

February 16, 2009 By Leave a Comment

New Delhi, Feb 16 (ANI): Union Agriculture Minister Sharad Pawar inaugurated a two-day conference of Vice-Chancellors of the agricultural universities on Monday.

Inaugurating the conference, Pawar said that the Integrated Farming System needs a good fertilizer policy for its support.

“The Integrated Farming System needs a good fertilizer policy for its support, the Government has recently taken a historical decision by moving to nutrient-based pricing and subsidy, and allowing additional cost of fortification and coating of fertilizers to manufactures,” Pawar said.

Pawar informed that the Indian Council of Agricultural Research (ICAR) is going to launch an Integrated Farming System Project at 31 locations in the country.

“In the Integrated Farming System approach, there is appropriate combination of crop husbandry, livestock, horticulture, vegetable, goatry, piggery, fishery, apiculture, mushroom, sericulture etc. This project will help to improve the livelihood of the farmers,” Pawar said.

The Minister also informed the new policy would broaden the basket of fertilizers and enable fertilizer use as per soil and crop requirements.

“The freight subsidy on actual basis would ensure wider spread of fertilizers and their availability in distant areas from the manufacturing sites. The upward revision of rate of concession on SSP would revive SSP industry suffering sickness for long, due to ad hoc and low rate of concession. Needless to say, the SSP containing 11% sulphur would correct widespread sulphur deficiency in Indian soils as well, besides serving as a source of phosphorus, ” he added.

The two-day Conference is being attended by representatives from different central ministries and institutions engaged in agricultural research and education besides the Vice-Chancellors of Agricultural Universities. (ANI)

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ReIndia Expo to be held in Mumbai on March 5

February 7, 2009 By Leave a Comment

Las Vegas, Feb 6 (ANI/Business Wire India): Businesses from around the world will converge at ReIndia Expo at the Bombay Exhibition Center in Mumbai on March 5.

This five-day global event will feature exhibitors, attendees and classroom instructors from Europe, North America, South America, and Asia, and many local Indian companies as well. Attendees at this show will have the opportunity to make contacts from around the world at Mumbai’s most international event.

Some of the global exhibitors include:

UniNet Imaging, a truly international supplier to the imaging industry, with U.S. headquarters in Los Angeles and subsidiaries in Europe, Asia and Latin America. UniNet develops and markets a variety of components including toners, rollers and OPC drums, and has manufacturing capabilities of injection molding, die cutting, metal stamping, chemical coating and toner development formulation.

Indian Toners and Developers, a leading manufacturer of compatible black toners. Having established itself as a pioneer in the domestic Indian market, ITDL now exports its high-quality toners and developers to more than 32 countries around the world and has opened a representative office in Singapore, and Zhuhai, China, and incorporated ITDL USA as a wholly owned subsidiary of ITDL India. The government of India has awarded ITDL its “Excellence in Export Performance” for three consecutive years.

Diamond Dispersions Ltd., U.K.-based manufacturers of a wide range of raw materials for digital printing ink makers. Diamond Dispersions makes and supplies a full range of top quality water- and solvent-based pigmented dispersions and dyes, and supplies a number of specialist additives suitable for ink makers.

JetTrueMedia Digital Image Material Co. Ltd., one of China’s leading glossy and inkjet photo paper suppliers. The company runs eight production lines, allowing it to offer competitive prices on its high-quality products that are exported around the world. (ANI)

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