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Titlenews & views for making & saving money in energy and fuel

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Description a wide ranging blog covering topics in energy, fuels and energy conservation for making and saving money. we cover nuclear, biofuel, solar, wind, and others.

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Keywords hydrogen storage,polymer,hydrogen carrying polymer,ketone fluorenone polymer,,hydrogen,manmade diamond,radioactivity,nuclear powered battery,electricity,batteries,platinum,catalytic activity,catalyst,electrolyzers,materials,insulation,aerogel composites,soundproofing,silica aerogels,bodipy,boron dipyrromethene,redox flow battery,dye based batteries
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manmade diamond with radioactivity energizes like a battery
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new polymer may solve the hydrogen storage problem http://newenergyandfuel.com/http:/newenergyandfuel/com/2016/12/01/new-polymer-may-solve-the-hydrogen-storage-problem/
leave a comment http://newenergyandfuel.com/http:/newenergyandfuel/com/2016/12/01/new-polymer-may-solve-the-hydrogen-storage-problem/#respond
a waseda university research group has developed a hydrogen-carrying polymer, which can be molded as a tangible, safe, and compact plastic sheet. https://www.waseda.jp/inst/sgu/news-en/2016/10/10/1659/
the research study paper was been published in the journal nature communications. http://www.nature.com/articles/ncomms13032
manmade diamond with radioactivity energizes like a battery http://newenergyandfuel.com/http:/newenergyandfuel/com/2016/11/30/manmade-diamond-with-radioactivity-energizes-like-a-battery/
1 comment http://newenergyandfuel.com/http:/newenergyandfuel/com/2016/11/30/manmade-diamond-with-radioactivity-energizes-like-a-battery/#comments
a university of bristol team of physicists and chemists have grown a man-made diamond that when placed in a radioactive field, is able to generate a small electrical current. http://www.bris.ac.uk/news/2016/november/diamond-power.html
getting double the catalytic activity from platinum http://newenergyandfuel.com/http:/newenergyandfuel/com/2016/11/29/getting-double-the-catalytic-activity-from-platinum/
leave a comment http://newenergyandfuel.com/http:/newenergyandfuel/com/2016/11/29/getting-double-the-catalytic-activity-from-platinum/#respond
stanford university researchers have found that squeezing a platinum catalyst a fraction of a nanometer nearly doubles its catalytic activity. http://news.stanford.edu/2016/11/24/platinum-catalysts-tiny-squeeze-gives-big-boost-performance/
the findings have been published in the journal science. http://science.sciencemag.org/content/354/6315/1031
a new insulation that’s cooler and quieter http://newenergyandfuel.com/http:/newenergyandfuel/com/2016/11/24/a-new-insulation-thats-cooler-and-quieter/
2 comments http://newenergyandfuel.com/http:/newenergyandfuel/com/2016/11/24/a-new-insulation-thats-cooler-and-quieter/#comments
nanyang technological university (ntu singapore) researchers have developed a new insulation from materials known as aerogel composites. the new foam insulates against heat 2.6 times better than conventional insulation foam. http://media.ntu.edu.sg/newsreleases/pages/newsdetail.aspx?news=58d249c2-50bd-46e8-8881-80483e77a7bd
fun glow in the dark dye for better batteries http://newenergyandfuel.com/http:/newenergyandfuel/com/2016/11/23/fun-glow-in-the-dark-dye-for-better-batteries/
leave a comment http://newenergyandfuel.com/http:/newenergyandfuel/com/2016/11/23/fun-glow-in-the-dark-dye-for-better-batteries/#respond
university at buffalo scientists think so. they have identified a fluorescent dye called bodipy as an ideal material for stockpiling energy in rechargeable, liquid-based batteries that could one day power cars and homes. http://www.buffalo.edu/news/releases/2016/11/032.html
the research was published in chemsuschem, http://onlinelibrary.wiley.com/doi/10.1002/cssc.201601104/abstract;jsessionid=a99e96f170817dbb7ebe88af0186ce7e.f01t01
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manmade diamond with radioactivity energizes like a battery http://newenergyandfuel.com/http:/newenergyandfuel/com/2016/11/30/manmade-diamond-with-radioactivity-energizes-like-a-battery/#comment-3444959
a new insulation that’s cooler and quieter http://newenergyandfuel.com/http:/newenergyandfuel/com/2016/11/24/a-new-insulation-thats-cooler-and-quieter/#comment-3444884
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a new insulation that’s cooler and quieter http://newenergyandfuel.com/http:/newenergyandfuel/com/2016/11/24/a-new-insulation-thats-cooler-and-quieter/#comment-3444831
new polymer may solve the hydrogen storage problem http://newenergyandfuel.com/http:/newenergyandfuel/com/2016/12/01/new-polymer-may-solve-the-hydrogen-storage-problem/
manmade diamond with radioactivity energizes like a battery http://newenergyandfuel.com/http:/newenergyandfuel/com/2016/11/30/manmade-diamond-with-radioactivity-energizes-like-a-battery/
getting double the catalytic activity from platinum http://newenergyandfuel.com/http:/newenergyandfuel/com/2016/11/29/getting-double-the-catalytic-activity-from-platinum/
a new insulation that’s cooler and quieter http://newenergyandfuel.com/http:/newenergyandfuel/com/2016/11/24/a-new-insulation-thats-cooler-and-quieter/
fun glow in the dark dye for better batteries http://newenergyandfuel.com/http:/newenergyandfuel/com/2016/11/23/fun-glow-in-the-dark-dye-for-better-batteries/
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hydrogen-carrying polymer, which can be molded as a tangible, safe, and compact plastic sheet. the tokyo research group’s newly developed a polymer can store hydrogen in a light, compact and flexible sheet, and is safe to touch even when filled with hydrogen gas. a sheet of the fluorenone and fluorenol hydrogel on a 5 g scale and the fluorenol sheet sealed up with a gas-barrier bag (after hydrogen releasing). image credit: waseda university, tokyo. click image for the largest view. although research and development on technology allowing hydrogen to become a major energy source has been going on for many years, the conventional methods of storing and carrying hydrogen were accompanied by safety risks such as explosions. the research study paper was been published in the journal nature communications. recently, hydrogen-absorbing organic compounds have been studied as storage materials, for their ability to stably store and release hydrogen through chemical bonding. however, these compounds require vessels or tanks maintained at high pressure and/or temperature and often encounter difficulty in releasing the hydrogen gas. widespread commercialization of hydrogen as an energy source requires a safer and more efficient system for storing and carrying it. led by professors hiroyuki nishide and kenichi oyaizu of the department of applied chemistry, the team developed a ketone (fluorenone) polymer, which can be produced as a thin sheet, and can fix hydrogen via simple electrolytic hydrogenation in water at room temperature. furthermore, the fluorenol polymer can release hydrogen when heated to 80º celsius with an aqueous iridium catalyst. the group proved that under mild conditions the cycle of fixing and releasing hydrogen can be repeated without significant deterioration. the advantages of the ketone/alcohol polymer include easy handling, moldability, robustness, non-flammability and low toxicity, pointing the way to the development of a light, thin plastic container that can be carried in your pocket. the new material is also expected to contribute to the creation of distributed energy systems, especially in remote areas. sounds good. the hydrogen folks are sure to check this out in fine detail. fine enough will take time, but this technology might be what breaks out the hydrogen economy into the mass market. --> nov 30 manmade diamond with radioactivity energizes like a battery november 30, 2016 | 1 comment a university of bristol team of physicists and chemists have grown a man-made diamond that when placed in a radioactive field, is able to generate a small electrical current. the new technology is a development that uses nuclear waste to generate electricity in a nuclear-powered battery. the development could solve some of the problems of nuclear waste, clean electricity generation and battery life. this innovative method for radioactive energy was presented at the cabot institute’s sold-out annual lecture – ‘ideas to change the world’- last friday, november 25th, 2016. unlike the majority of electricity-generation technologies, which use energy to move a magnet through a coil of wire to generate a current, the man-made diamond is able to produce a charge simply by being placed in close proximity to a radioactive source. tom scott, professor in materials in the university’s interface analysis centre and a member of the cabot institute, said, “there are no moving parts involved, no emissions generated and no maintenance required, just direct electricity generation. by encapsulating radioactive material inside diamonds, we turn a long-term problem of nuclear waste into a nuclear-powered battery and a long-term supply of clean energy.” the team have demonstrated a prototype ‘diamond battery’ using nickel-63 as the radiation source. however, they are now working to significantly improve efficiency by utilising carbon-14, a radioactive version of carbon, which is generated in graphite blocks used to moderate the reaction in nuclear power plants. research by academics at bristol has shown that the radioactive carbon-14 is concentrated at the surface of these blocks, making it possible to process it to remove the majority of the radioactive material. the extracted carbon-14 is then incorporated into a diamond to produce a nuclear-powered battery. the uk for example, currently holds almost 95,000 metric tons of graphite blocks and by extracting carbon-14 from them, their radioactivity decreases, reducing the cost and challenge of safely storing this nuclear waste. dr. neil fox from the school of chemistry explained, “carbon-14 was chosen as a source material because it emits a short-range radiation, which is quickly absorbed by any solid material. this would make it dangerous to ingest or touch with your naked skin, but safely held within diamond, no short-range radiation can escape. in fact, diamond is the hardest substance known to man, there is literally nothing we could use that could offer more protection.” despite their low-power, relative to current battery technologies, the life-time of these diamond batteries could revolutionize the powering of devices over long timescales. using carbon-14 the battery would take 5,730 years to reach 50 percent power, which is about as long as human civilization has existed. professor scott added: “we envision these batteries to be used in situations where it is not feasible to charge or replace conventional batteries. obvious applications would be in low-power electrical devices where long life of the energy source is needed, such as pacemakers, satellites, high-altitude drones or even spacecraft. there are so many possible uses that we’re asking the public to come up with suggestions of how they would utilize this technology by using #diamondbattery.” this is another example of astonishing and intrepid innovation and creativity. while we’re a ways off from seeing this on the market, and likely some governmental oversight, as that scare the daylights word, “radioactivity’ is involved, this is an idea of great merit. the idea will need a great deal of shepherding, but the benefits are there and the risk is buried in a diamond. --> nov 29 getting double the catalytic activity from platinum november 29, 2016 | leave a comment stanford university researchers have found that squeezing a platinum catalyst a fraction of a nanometer nearly doubles its catalytic activity. the finding could lead to better fuel cells and other clean energy technologies. it does suggest it may be possible to halve the platinum expense in devices. that alone is a huge improvement. the team bonded a platinum catalyst to a thin material that expands and contracts as electrons move in and out, and found that squeezing the platinum a fraction of a nanometer nearly doubled its catalytic activity. the findings have been published in the journal science. lead author haotian wang, a former graduate student at stanford now at harvard university said, “in this study, we present a new way to fine-tune metal catalysts at the atomic scale. we found that ordinary battery materials can be used to control the activity of platinum and possibly for many other metal catalysts.” the new technique can be applied to a wide range of clean technologies, wang said, including fuel cells that use platinum catalysts to generate energy, and platinum electrolyzers that split water into oxygen and hydrogen fuel. co-author yi cui, a professor of materials science and engineering at stanford and of photon science at the slac national accelerator laboratory said, “our tuning technique could make fuel cells more energy efficient and increase their power output. it could also improve the hydrogen-generation efficiency of water splitters and enhance the production of other fuels and chemicals.” catalysts are used to make chemical reactions go faster while consuming less energy. the performance of a metal catalyst depends on its electronic structure – that is, how the electrons orbiting individual atoms are arranged. top: removing electrons separates the atoms and lowers efficiency by 40 percent. (1 ångstrom = 0.1 nanometer) bottom: platinum atoms attached to layers of lithium cobalt oxide contract when electricity is applied, boosting platinum catalytic efficiency by 90 percent. image credit: haotian wang, stanford. click image for the largest view. wang explained, “the electronic structure of a catalyst needs to match the molecule of interest in order to achieve the chemical reaction you want. you can adjust the electronic structure of a catalyst by compressing the atoms or pulling them apart.” the stanford team introduced a novel way to compress or separate the atoms by 5 percent, a mere 0.01 nanometer. “that might not seem like much, but it’s really a lot,” cui said. “how did we achieve that? it’s really a marriage of battery research and catalysis.” the study focused on lithium cobalt oxide, a material widely used in batteries for cellphones and other electronic devices. the researchers stacked several layers of lithium cobalt oxide together to form a battery-like electrode. “applying electricity removes lithium ions from the electrode, causing it to expand by 0.01 nanometer,” cui said. “when lithium is reinserted during the discharge phase, the electrode contracts to its original size.” for the experiment, the stanford team added several layers of platinum to the lithium cobalt oxide electrode. “because platinum is bonded to the edge, it expands with the rest of the electrode when electricity is added and contracts during discharge,” cui said. separating the platinum layers a distance of 0.01 nanometer, or 5 percent, had a significant impact on performance, wang said. “we found that compression makes platinum much more active,” he said. “we observed a 90 percent enhancement in the ability of platinum to reduce oxygen in water. this could improve the efficiency of hydrogen fuel cells.” stretching the electrode by 5 percent had the opposite effect, suppressing oxygen production by 40 percent, wang said. study co-author jens norskov, a professor of chemical engineering at stanford’s suncat center for interface science and catalysis said, “our technology offers a very powerful way to controllably tune catalytic behavior. now, mediocre catalysts can become good, and good catalysts can become excellent.” its almost shocking to see such a huge productivity gain from such a simple concept applied in an innovative way. goes to show, there is lots left to be discovered. and many more catalysts to run experiments on. congratulation to the stanford team. this work is going to have an impact and soon. platinum is wildly expensive, there is only a bit over a cubic yard mined in all of history. a little bit has to go a very long way. --> nov 24 a new insulation that’s cooler and quieter november 24, 2016 | 2 comments nanyang technological university (ntu singapore) researchers have developed a new insulation from materials known as aerogel composites. the new foam insulates against heat 2.6 times better than conventional insulation foam. the new material can make vehicles and buildings cooler and quieter compared the current insulation materials in the market. when compared to traditional materials used in soundproofing, the new material can block out 80 percent of outside noise, 30 percent more than current commercial ones. ntu’s thin foam subjected to a 1100 degree flame while remaining cool at 26 degrees on the back. image credit: nanyang technological university. click image for the largest view. made from silica aerogels with a few other additives, this new material is now ready for commercialization and is expected to hit the market early next year. the promising product has the potential to be used in a wide range of applications, including in building and construction, oil and gas and the automotive industry. the aerogel composites took ntu assoc prof sunil chandrankant joshi and his then phd student, dr mahesh sachithanadam, four years to develop. the technology has been published in peer-reviewed scientific journals and a patent has been filed by ntu’s innovation and enterprise arm ntuitive. a local company, bronx creative & design center pte ltd (bdc), has licensed the aerogel composites technology with a joint venture capitalized with s$7 million ($5.2 usd million), and a production plant that will be operational in 2017. the plant will produce the aerogel composites in various forms such as sheets or panels, in line with current industry sizes. assoc prof sunil, from ntu’s school of mechanical and aerospace engineering, said the foam will be easy to install and use as it is thinner than conventional foam yet has better performance, “our ntu thin foam is also greener to manufacture, as it does not require high heat treatment or toxic materials in its production. it is therefore a lot more eco-friendly and less hazardous to the environment.” mr. thomas ng, r&d director of bdc, said this new material would address a real market need for high-performance heat insulation and better sound proofing, “with the global industries moving towards green manufacturing and a lowered carbon footprint, the new foam we produce will help address their needs and yet give a better performance.” “moving forward, we hope to show the current market that going green doesn’t mean that performance has to be compromised. we will be working with industry partners and certified testing labs to achieve the relevant standards and certifications.” said mr ng. “bdc has plans to have a footprint locally as we are now in talks with a few local parties to make this happen, in line with singapore’s vision of being a global leader in the advanced manufacturing and engineering sector,” he added. bdc has various negotiations underway with other companies to expand the production to india and various southeast asia countries within the next three years. the new aerogel composite has been branded “bronx aerosil” by bdc and is being developed for various applications by dr mahesh, now the chief technology officer at bdc. for example, to reduce the noise generated by a truck driving by to that of a normal conversation, only 15mm of the new material would be needed. on the other hand, common insulation foam requires a thickness of 25mm. the aerogel composite can reduce noise by as much as 80 percent whereas normal foam only reduces sound by 50 per cent, explained dr mahesh. against heat, bronx aerosil which is 50 percent thinner than conventional foam will still outperform it by 37 percent. “for both heat insulation and sound-proofing, we can now use less material to achieve the same effect, which will also lower the overall material and logistic costs,” dr mahesh said. apart from being a good thermal and acoustic insulator, it is also non-flammable – a crucial factor for materials used in high heat environments common in the oil and gas industries. the foam is also resilient and can withstand high compression or heavy loads. a small 10cm by 10cm piece of the aerogel composite material weighing just 15 grams can take up to 300 kilogram’s of weight, maintaining its shape without being flattened. in the first quarter of next year, bdc will begin mass producing the aerogel composites for their clients, which include companies from the automotive, electronics, and oil and gas sectors. further research and optimization will be carried out to improve the performance of the aerogel composite material to ensure it maintains its competitiveness edge against other technologies, said dr mahesh. there you are, let the engineering begin! a great idea and development effort goes to market --> nov 23 fun glow in the dark dye for better batteries november 23, 2016 | leave a comment could a glow-in-the-dark dye be the next advancement in energy storage technology? university at buffalo scientists think so. they have identified a fluorescent dye called bodipy as an ideal material for stockpiling energy in rechargeable, liquid-based batteries that could one day power cars and homes. bodipy – short for boron-dipyrromethene – shines brightly in the dark under a black light. but the traits that facilitate energy storage are less visible. according to new research, the dye has unusual chemical properties that enable it to excel at two key tasks: storing electrons and participating in electron transfer. batteries must perform these functions to save and deliver energy, and bodipy is very good at them. in experiments, a bodipy-based test battery operated efficiently and with longevity, running well after researchers drained and recharged it 100 times. lead researcher timothy cook, phd, an assistant professor of chemistry in the university at buffalo college of arts and sciences said, “as the world becomes more reliant on alternative energy sources, one of the huge questions we have is, ‘how do we store energy?’ what happens when the sun goes down at night, or when the wind stops. all these energy sources are intermittent, so we need batteries that can store enough energy to power the average house.” the research was published in chemsuschem, an academic journal devoted to topics at the intersection of chemistry and sustainability. bodipy is a promising material for a liquid-based battery called a “redox flow battery.” these fluid-filled power cells present several advantages over those made from conventional materials. lithium-ion batteries, for example, are risky in that they can catch fire if they overwork or break open, cook said. the dye-based batteries would not have this problem; if they ruptured, they would simply leak, he says. redox flow batteries can also be easily enlarged to store more energy – enough to allow a homeowner to power a solar house overnight, for instance, or to enable a utility company to stockpile wind energy for peak usage times. this matters because scaling up has been a challenge for many other proposed battery technologies. redox flow batteries consist of two tanks of fluids separated by various barriers. when the battery is being used, electrons are harvested from one tank and moved to the other, generating an electric current that – in theory – could power devices as small as a flashlight or as big as a house. to recharge the battery, you would use a solar, wind or other energy source to force the electrons back into the original tank, where they would be available to do their job again. a redox flow battery’s effectiveness depends on the chemical properties of the fluids in each tank. “the library of molecules used in redox flow batteries is currently small but is expected to grow significantly in coming years,” cook said. “our research identifies bodipy dye as a promising candidate.” in experiments, cook’s team filled both tanks of a redox flow battery with the same solution: a powdered bodipy dye called pm 567 dissolved in liquid. within this cocktail, the bodipy compounds displayed a notable quality: they were able to give up and receive an electron without degrading as many other chemicals do. this trait enabled the dye to store electrons and facilitate their transfer between the battery’s two ends during repeated cycles – 100 – of charging and draining. based on the experiments, scientists also predict that bodipy batteries would be powerful enough to be useful to society, generating an estimated 2.3 volts of electricity. cook said the study focused on pm 567. different varieties of bodipy share chemical properties, so it’s likely that other bopidy dyes would also make good energy storage candidates. there are getting to be several redox flow battery chemistries available. so far there isn’t one that is a market breakout and sales driver. but the immense capacity potential, low build and operating costs are going to conspire to find a chemistry and this field will break out in a big way. --> feedburner subscribe in a 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polymer, which can - 0.05% (2)
policy search site - 0.05% (2)
to produce a - 0.05% (2)
nuclear-powered battery. the - 0.05% (2)
the new foam - 0.05% (2)
to generate a - 0.05% (2)
materials used in - 0.05% (2)
this new material - 0.05% (2)
to be used - 0.05% (2)
a professor of - 0.05% (2)

Here you can find chart of all your popular one, two and three word phrases. Google and others search engines means your page is about words you use frequently.

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