what happens in these stellar explosions. ast year we used the European space agency s Herschel Space observatory to study the intricate network of gas filaments to show how exploding stars are creating huge amounts of space dust. urther measurements
With hot gas still expanding at high speeds after the explosion a supernova remnant is a harsh hot and hostile environment
The ionized argon then mixed with the cool gas to provide perfect conditions for noble gas compounds to form.
GQDS were derived from bituminous coal anthracite and coke a byproduct of oil refining. The coals were each sonicated in nitric and sulfuric acids and heated for 24 hours.
#irtual wall blocks oil spills from spreading Researchers have designed an invisible allthat stops oily liquids from spreading
The outer shell of a droplet of oil on a surface has a thin skin
and has future implications in the guided delivery of oil and effective blockage of oil spreading. ur work is based on micro/nanoelectromechanical systems or M/NEMS
which can be thought of as miniaturized electrical or mechanical structures that allow researchers to conduct their work on the micro/nanoscopic levelsays Jae Kwon associate professor of electrical and computer engineering at the University of Missouri. il-based materials or low-surface tension liquids
and spread very easily pose challenges to researchers who need to control those tiny oil droplets on microdevices. il-based compounds are referred to as low-surface tension liquids
Also as can be seen from oil spills in the Gulf of mexico oil can stick and easily spread out on any surface.
Using specially designed oil-repellent surfaces Kwon and his group demonstrated invisible irtual wallsthat block spreading of low-surface tension liquids at the boundary line with microscopic features already created in the device. ur newly developed surface helped keep oil
which is normally unmanageable in predetermined pathways making it controllable. e feel that oil-repellant surfaces can be utilized widely for many industrial applications
and virtual walls for low-surface tension liquids also have immense potential for many lab-on-a-chip devices
which are crucial to current and future research techniques. n the future oil-repellent virtual walls may be used to control the transport of oil without spillage Kwon says w
which can act as molecular ievesto separate liquids and gases one molecule at a timeâ##a property that shows promise for applications such as water purification water desalination and gas storage.
and analyzed their chemical compositions using gas chromatography-mass spectrometry. Finally the researchers presented the gland extracts to worker bees
to form these inks was hydrazine##a highly toxic explosive liquid used in rocket fuel. Brutchey and David Webber of USC mixed two compounds to create the new solvent that effectively dissolves a class of semiconductors known as chalcogenides. hen the two compounds work together they do something quite remarkablesays Brutchey.
and inexpensive location and identification tags for animals infrastructure (pipelines conduits for example) and for humans entering hazardous areas particularly where they might be buried underground
and Energy project and the Department of energy s Light-Material Interactions in Energy conversion Center supported the work along with the National Science Foundation and the Research Triangle Solar fuels Institute.
which typically relies on seismic waves to search for underwater oil and natural gas. Industryâ#efforts could be aided by network of interconnected devices working together. e could even use it to monitor fish
#Nanoribbon material keeps gases captive Rice university rightoriginal Studyposted by Mike Williams-Rice on October 11 2013an enhanced polymer could make vehicles that run on compressed natural gas more practical and even prolong the shelf life of bottled beer
The material is more impermeable to pressurized gas and far lighter than the metal in tanks now used to contain the gas say researchers.
Rice university chemist James Tour and colleagues report their results this week in the online edition of ACS Nano.
Because gas molecules cannot penetrate GNRS they are faced with a ortuous pathto freedom he says.
The researchers acknowledge that a solid two-dimensional sheet of graphene might be the perfect barrier to gas
But the overlapping 200-to 300-nanometer-wide ribbons dispersed so well that they were nearly as effective as large-sheet graphene in containing gas molecules.
and make it impermeable to gastour says. his becomes increasingly important as automakers think about powering cars with natural gas.
Metal tanks that can handle natural gas under pressure are often much heavier than the automakers would like. e says the material could help to solve longstanding problems in food packaging too. emember
That s because gas molecules go through rubber or plastictour says. t took years for scientists to figure out how to make a plastic bottle for soda.
They report that in the presence of the compound each gas has a photoluminescent ingerprintwith a specific intensity lifetime and color.
Solvents are liquid chemicals often petroleum-based that are used widely to dissolve solid materials. They are found in paints thinners aerosol sprays dyes marking pens adhesives and other products.
and small poresmart says. he pores are big enough at about 7. 4 angstrom for most gas-phase molecules to enter.
or photonic devices but if this can be realized on a large scale it'#going to cover a broad spectrum of applications. ltrathin h-BN protection might find a place in turbines jet engines oil exploration
and developed the ability to react with oxide minerals rather than breathe oxygen as we do to convert organic nutrients into biological fuel.
and convert it into biological fuel their excess electrons flow into the carbon filaments and across to the positive electrode
The phosphorus fuels the fixing of nitrogen carried out by blue-green algae also known as cyanobacteria. he phosphorus-rich nitrogen-poor water is a boon to cyanobacteria that can fix their own nitrogensigman says. y growing more rapidly the nitrogen-fixers
For the purposes of this experiment the researchers placed silica##manganese oxide eadson the matchstick material and introduced hydrogen peroxide as the chemical fuel in one particular place.
and is used commonly in muds for oil drilling, in modern construction, in medical applications and as a binder by iron and steel foundries.
but a high dose of ethanol can blunt their fear according to new research. These findings may pave the way for new methodologies for understanding anxiety
and that this preference can be abolished by exposing the fish to ethanol. Scary robotporfiri and Macri along with students Valentina Cianca and Tiziana Bartolini hypothesized that robots could be used to induce fear as well as affinity
To determine whether alcohol would affect fear responses the researchers exposed separate groups of fish to different doses of ethanol in water.
Ethanol has been shown to influence anxiety-related responses in humans rodents and some species of fish.
The zebrafish exposed to the highest concentrations of ethanol showed remarkable changes in behavior failing to avoid the predatory robot.
Acute administration of ethanol causes no harm and has no lasting effect on zebrafish.##These results are further evidence that robots may represent an exciting new approach in evaluating
and evaluated whether the results obtained therein were sensitive to ethanol administration. They placed test subjects in a two-chamber tank with one well-lit side and one darkened side to establish which conditions were preferable.
Ethanol exposure significantly modulated these fear responses as well abolishing the preference for the light compartment
Among ethanol-exposed fish there were many more who were unaffected by the robotic predator preferred the dark compartment
Three groups of fish were treated with varying doses of ethanol in water#zero percent (control group) 0. 25 percent and 1 percent by volume.
The two ethanol-exposed groups deviated significantly from this pattern spending more time in other regions of the tank.
The process for creating Portland cement a key ingredient in modern concrete requires fossil fuels to burn calcium carbonate (limestone) and clays at about 1450 degrees Celsius (2642 degrees Fahrenheit.
When they detect the current they need for navigation they power back on slip into the current then power off again to conserve fuel as the current carries them to a target location.
although just as important considering that the warm moist air on the ocean surface provides fuel for hurricanes.
The mechanism takes into account the#shear#effect of mass movement of the ionised gas known as plasma
#While only a proof-of-concept at this stage future research will demonstrate the device s capabilities as a low-cost way of analyzing individual proteins and gas molecules.
Fuel Since the Biolite will burn almost any biomass fuel; from wood, pine cones, leaves, pellets, rice husks, even dung, it means fuel need not be carried,
unlike bottles for petroleum or gas burners that cannot be carried on airplanes and must be sourced at destination.
whereby the thin gas layer that burns around a solid fuel is separated and added to oxygen to burn more efficiently.
and the vent open to allow oxygen flow before the fire is started using whatever forest fuels are available.
it's therefore easy to add more fuel simply by lifting the pan and popping more in.
or less fuel, will create a smaller flame for simmering. When you wish to extinguish it you can
either allow the fan to keep adding oxygen till all the fuel runs out, or by swilling the coals in any remaining cooking water and pouring into a small hole nearby.
As there is no dependency on fuel or power it is a great emergency preparedness tool,
He was inspired to create a modest modification to vehicles that would reduce the need for conventional fuel,
There no doubt that in the race for green power the human body has been overlooked in favor of alternative fuel sources such as biofuels, hydrogen etc.
it releases a gas known as ethylene, that causes the ripening process to begin. Once that process is under way,
Currently, produce warehouses use expensive technologies such as gas chromatography or mass spectroscopy to measure ethylene levels,
This one is likely the farthest down the pipeline but imagine a future world where we each have telepresence robots that we control from home using virtual reality headsets.
#Toyota opens fuel cell patents to drive hydrogen society Toyota is serious about hydrogen fuel cell technology.
Contrast that now to oil, black gold, one of the rarest of substances on the Planet Earth.
Nations will kill to secure supplies of oil. Oil is found perhaps in the most dangerous, volatile, unstable areas of the Planet Earth."
"Toyota hopes to help jumpstart this future hydrogen society by sharing its intellectual property. This week's announcement represents the first time that it's sharing patents free of charge.
The automaker helped to grow the gas-electric hybrid market in a similar manner, but those licensed technologies didn't come free."
USA Inc."The first generation hydrogen fuel cell vehicles, launched between 2015 and 2020, will be critical,
Over a period of 25 years, between 1955 and 1980, more than 50 corporations left New york city, including IBM, Gulf Oil, Texaco, Union carbide, General Telephone, Xerox, Pepsico and U s. Tobacco.
researchers had to aim the device at a thin layer of oil. Although this particular iteration of the invisible 3-D shapes was designed strictly as an academic project,
The Aloha state burns oil to make electricity, and prices for the fuel have jumped in recent years,
igniting demand for alternatives. The state s tax credit for solar energy made it additionally appealing (Climatewire, May 6).
#Wildcat packs a gas-powered engine that allows it to roam free in the wild.
and with a full tank of fuel it never gets tired. You do#not#want this thing chasing after you.
##Solar is now the second largest source of new electricity capacity in the U s.,behind natural gas,
#which said that U s. emissions of greenhouse gases from the burning of fossil fuels was lower last year than at any time since 1994.
#Scientists develop process to make inexpensive synthetic gas Synthetic gas would be much better for the environment.
We are still massively dependent on fossil fuels even though they are limited a resource. But, a team of scientists at the University of Illinois at Chicago have figured out#a way to make synthetic gas inexpensively,
using carbon dioxide and carbon nanofibers.####The first step in the process of creating synthetic gas requires the conversion of carbon dioxide into carbon monoxide.
Many scientists have attempted this before, but previous experiments always required silver, along with an ionic liquid (like a salt solution), to trigger the reaction.
The use of silver is obviously too expensive to make synthetic gas a feasible option for commercial use,
##The scientists believe that using super-thin#graphene sheets could make the process even more efficient, making synthetic gas less of a concept and more of a reality.
Although this is just the first step in creating synthetic gas, it is a big one, and another leap forward in reducing our dependence on oil.
It s also certainly less smelly than powering our vehicles with#poop. Via Dvice Share Thissubscribedel. icio. usfacebookredditstumbleupontechnorat o
They track things like gas consumption, how many miles are left to be driven on the current tank of gas, tire pressure,
and radio and entertainment usage. Over the next few years, auto makers and suppliers will collect this datain a variety of ways:
perhaps in combination, firing the maker revolution with even more fuel. Via Venture Beat Share Thissubscribedel. icio. usfacebookredditstumbleupontechnorat u
while natural gas will supply another 20 percent. The remaining 20 percent will be supplied by renewable sources, including hydropower,
Due to a combination of new found purchasing power, declining solar system costs, increasing kerosene costs, and advances in solar services business models,
solar is actually cheaper than the alternative (kerosene plus phone-charging) when financed. That s because close to 1 billion people have risen above the poverty line over the past twenty years,
and polluting energy sources like kerosene (or even worse, candles). Selling cheap basic services like solar electricity into this market through#micropayment schemes#is
#Japanese inventor finds solution to global trash problem by converting plastic to oil This Youtube video about the invention of a plastic-to-oil converting machine went viral
The world s oil resources are diminishing; does technology like this enable our denial of that fact,
They also explain that while methane, ethane, propane and butane gasses are released in the process,
the machine is equipped with an off-gas filter that disintegrates these gases into water and carbon.
Lastly, commentators from around the world are anxious to know if and where they can purchase a machine.
Typically made from petroleum, it is estimated that 7%of the#world s annual oil production#is used to produce
and manufacture plastic. That is more than the oil consumed by the entire African continent. Plastic s carbon footprint includes landfilling and incineration,
since sadly, its recycle rate is dismally low around the globe. Plastic trash is also polluting our oceans and washing up on beaches around the world.
A Japanese company called#Blest#created a small, very safe and easy to use machine that can convert several types of plastic back into oil.
If we convert it into oil, we save CO2 and at the same time increase people s awareness about the value of plastic garbage,##says Akinori Ito, CEO of Blest.
The result is a crude gas that can fuel things like generators or stoves and,
One kilogram of plastic produces almost one liter of oil. To convert that amount takes about 1 kwh of electricity,
##The home is the oil field of the future.####Perhaps that statement is not as crazy as it sounds,
the oil produced is used for tour buses or boats, Ito says.####Plastic s carbon footprint includes landfilling and incineration,
If we were to use only the world s plastic waste rather than oil from oil fields,
but we find ourselves on top of an oil and plastic mountain, and the only way forward is down.
they are a step forward in coming to terms with our oil and plastics dependence and help raise awareness of the carbon footprint of its production and use.
Schlumberger, which is interested in cutting the number of wires in its oil rigs to save maintenance costs
when a pipeline or bridge structure is in danger or fractured. It uses proprietary algorithms to reduce false alarms.
pipeline monitoring and bridge security, among other things. The SPAN system was introduced originally last year,
it could solve the fuel crisis in the real world. Thorium is being hailed as the key in the bid to find safer
Professor Roger Barlow from the University of Huddersfield is part of a team researching thorium power generation.
but when exposed to neutrons it will react to produce a particular isotope of uranium (U-233) that becomes the nuclear fuel.
If you re trying to move to a low-carbon fuel economy, you need a whole basket of measures,
But, well, with Ellie 2. 0 in the pipeline, not for long. It s also worth noting that these professions generate about $3. 5 billion dollars in annual income,
the US has dedicated only one HSR project in the pipelines, which is the California HSR (CHSR).
and still comfortable camping mattresses or carpets hiding cables and pipelines below. I like that.
or to make with petrochemicals. The rush to develop bio-factories as a means for production promises not only to revolutionize the chemical industry,
So this notion of a quick battery replacement service that is as fast as refilling a conventional gas
Along with cutting out fossil fuel-generated energy to a large extent, the transition to renewables includes completely phasing out nuclear power.
The modest uptick in coal fired generation was substituting for pricier natural gas, not representative of a return to coal as it often mischaracterized.
Energiewende rooted in the acknowledgement that a fossil fuel-based energy system is not sustainable is remarkable for its scope and its widespread support,
with many countries opting to build large oil and coal plants to meet the demand. But for Japan, a burgeoning economy without large oil and coal reserves,
after the Fukushima disaster occurred, an in depth review concluded the most viable long-term strategy was to focus on spaced-based power systems.
requiring a less-active control system, saving millions in fuel costs. However, this approach still has problems.
which allows efficiently reprogramming unicellular life to make fuels, byproducts accessible from organic chemistry and smart devices.
Except, however, that the new Cree uses LED rather than inert gas which allows it to turn on instantly (regardless of how cold the weather is) without flickering as well as operate at a 30 percent energy savings over the traditional method.
while fossil fuel-or battery-powered unmanned aircraft are expensive to run and possess a shorter range.
They know how to turn seawater into fuel. The development of a liquid hydrocarbon fuel could one day relieve the military dependence on oil-based fuels
and is being heralded as a ame changerbecause it could allow military ships to develop their own fuel and stay operational 100 percent of the time,
rather than having to refuel at sea. The new fuel is expected initially to cost around $3 to $6 per gallon
according to the U s. Naval Research Laboratory, which has flown already a model aircraft on it. The Navy 289 vessels all rely on oil-based fuel,
with the exception of some aircraft carriers and 72 submarines that rely on nuclear propulsion. Moving away from that reliance would free the military from fuel shortages
and fluctuations in price. t a huge milestone for us, said Vice Adm. Philip Cullom. e are in very challenging times where we really do have to think in pretty innovative ways to look at how we create energy,
We need to challenge the results of the assumptions that are the result of the last six decades of constant access to cheap unlimited amounts of fuel.
The gasses are turned then into a fuel by a gas-to-liquids process with the help of catalytic converters. or us in the military, in the Navy,
said Cullom. e don necessarily go to a gas station to get our fuel. Our gas station comes to us in terms of an oiler, a replenishment ship.
Developing a game-changing technology like this, seawater to fuel really is something that reinvents a lot of the way we can do business
The next challenge for the Navy is to produce the fuel in industrial quantities. It will also partner with universities to maximize the amount of CO2
adding that the fuel oesn look or smell very different. ee demonstrated the feasibility, we want to improve the process efficiency,
which helps it to learn how to develop the more difficult or traditionally expensive parts for aviation, oil and gas, healthcare,
A rocket s skin, for example, needs to contain a column of super-pressurized fuel and at the same time weigh as little as possible.
and Government clusters Oil and Gas research and Deep Neural networks. The AMD Firepro S9150 server GPU is supported by a powerful software ecosystem enabling developers to better harness its compute performance including support for Opencl 2. 0. Featuring the first AMD Graphics
Core Next (GCN) architecture specifically with compute workloads in mind the AMD Firepro S9150 server GPU supports enhanced double precision floating point computation and breaks the 2. 0
In segments such as Oil and Gas Computer Aided Engineering and Computational Science many organizations have made substantial investments in Openmp to create scalable workloads.
There is wide agreement among scientists that emissions of heat-trapping greenhouse gases such as methane and carbon dioxide are driving climate change.
U k. emissions from fossil fuel burning in 2010 were 494 million tons of CO2 said Pieter Tans of the U s. National Oceanographic and Atmospheric Administration's Earth System Research Laboratory
After long focusing on fuel economy and energy production environmentalists and scientists are now promoting a diet of more plants and less meat to slow climate change but why?
Traditional plastics are the children of oil. They are derived from the petrochemical process. Some take thousands of years to naturally degrade
#Imergy Power systems develops high-performance flow batteries Imergy Power systems has achieved a milestone in energy storage by developing a process for producing high-performance flow batteries with recycled vanadium from mining slag oil field sludge fly ash and other forms of environmental waste.
Thousands of tons of vanadium are brought to the surface through worldwide petroleum operations alone every year.
Because oil producers do not have an economical market for low-grade vanadium, the material sits in sludge deposits.
By working with Imergy, fuel and mining companies can reduce their potential scope of liability and operating costs. his is a win all the way around.
#Halliburton releases CYPHER 2. 0 seismic-to-stimulation service Halliburton has announcedthe release of the CYPHER (SM) 2. 0 Seismic-to-Stimulation Service a proprietary
and reduce their cost per barrels of oil equivalent (BOE). Powered by Landmark's Decisionspace next-generation earth modeling solution the workflow is unique to the industry in that it is capable of updating dynamically
Halliburton's petroleum systems modeling technology defines the distribution of hydrocarbons in the unconventional reservoir to aid well placement
and completion design options Halliburton is able to quickly and iteratively optimize the development plans for operators shale assets.
and uptake said Jim Brown Halliburton's President of the Western hemisphere. Projects on shale assets in several North american basins have delivered a 35 percent production increase on average.
our objective is to generate highly accurate and detailed seismic images for the shale gas reservoirs where we operate.
We see the Paradigm 14 release as providing additional technology that will further extend our ability to generate high definition images, giving oil company operators more confidence in their exploration and field development decisions. f
#Bruker#s new products have many applications for oil and gas exploration At Analytica 2014,
It opens unique possibilities for 3d imaging and exact modeling of geological materials in oil and gas exploration, composite materials, fuel cells and electronic assemblies.
The company remote operator station called Benchremote has been designed to tackle potential safety problems with close proximity drilling in the mining and oil & gas industries.
It may be that wel see more of these hybrids popping up as our cities get less friendly to gas guzzlers.
or pressurized gas to destroy enemy targets, making them safer for military personnel to operate. And since all they require is a steady supply of electricity,
and biofuels the creators say. Researchers took tiny snippets of man-made DNA and joined them together to create a synthetic version of a chromosome the structure that contains DNA inside cells from brewer's yeast.
and biofuels and the ability to create custom-made yeast would provide useful too for the biotech industry.
Synthetic yeast could also churn out more efficient biofuels such as alcohol butanol or biodiesel which could enable humanity to transition off of a petroleum economy Boeke said.
In addition to practical applications synthetic yeast could be used to study how different genes function and interact to understand how networks of genes influence behavior the researchers added.
and biofilms with enzymes that catalyze the breakdown of cellulose could be used for the conversion of agricultural waste into biofuels.
The latest initiative in England that's transforming landfill-bound organic waste and excreta into bio-based fuel?
The first of its kind in the United kingdom Bio-Bus is a 40-seat transit vehicle that runs entirely on fuel generated through anaerobic digestion.
That is the conversion of waste n this case both locally sourced food waste and human sewage nto a methane-rich biogas.
Bio-Bus can travel 186 miles on a full tank of biomethane (or biomethane as they might say across the pond) gas which requires the annual waste of five people to produce according to the operator of the Bristol sewage treatment works GENECO.
A single person annual waste both edible and flushable would fuel the bus for 37 miles.
and food that unfit for human consumption wee able to produce enough biomethane to provide a significant supply of gas to the national gas network that capable of powering almost 8500 homes as well as fuelling the Bio-Bus. Gas-powered vehicles
The facility is capable of producing an estimated 17 million cubic meters of biomethane from this waste each year.
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