Sentences with phrase «cell energy generation»

We are identifying and supporting work on the technologies of the future: in advanced manufacturing; renewable energy; cell therapy; interconnected digital; intelligent transport; and next generation computing.

Ong, who leads the Materials Virtual Lab and is a faculty member in the Sustainable Power and Energy Center at UC San Diego, uses a combination of high - throughput calculations and machine learning to discover next - generation materials for energy applications, including batteries, fuel cells andEnergy Center at UC San Diego, uses a combination of high - throughput calculations and machine learning to discover next - generation materials for energy applications, including batteries, fuel cells andenergy applications, including batteries, fuel cells and LEDs.

The exciting implication is that next - generation wastewater treatment plants could use new technologies, including microbe - powered fuel cells, to capture enough methane, hydrogen, and other fuels from wastewater to generate all the energy they need, and then some.

The M.I.T. invention combines the electricity generation of photovoltaic cells with the energy storage of solar - thermal systems

«Also, the PEM fuel cells exhibit high efficiency in electric energy generation.»

«Hydrogen produced onboard the aircraft during flight can be channeled to a fuel cell for electrical energy generation,» said lead researcher Dr. Shani Elitzur of the Technion Faculty of Aerospace Engineering.

The improvements in the lithium - ion batteries offered by NREL's approach also can make a difference in portable consumer electronics, such as laptops, tablets, cell phones, and portable media, as well as the stationary energy storage devices that will become increasingly important as more variable - generation renewable energy enters the grid.

Larger cells need more energy to survive and condensin could be crucial to maintaining appropriate DNA content and cell sizes across cellular generations.

Examples of indirect use which require energy harvesting are electricity generation through wind turbines or photovoltaic cells, or production of fuels such as ethanol from biomass.

«This was matched by increased glucose uptake for glycolysis, revealing that TCL1 promotes the metabolic switch in energy generation necessary for cells to acquire pluripotency.»

«Stem cell reprogramming factor controls change in cellular energy generation: Research reveals role for KLF4 protein in instructing cells to undergo metabolic changes while acquiring stem cell characteristics.»

Meanwhile, the fuel cell variant would feature a smaller battery for energy - storage purposes, as GM's next - generation, high - energy density fuel cell stack will be able to provide sufficient quantities of electricity to the motor on its own.

Generation of ROS, a byproduct of the energy production and use, is normal as well, but, as with fission, too much is bad for the cell.

These two adjustments allow bone cells to be self - supporting in terms of energy generation and to protect themselves against an increased level of oxygen radicals.»

That is important not only for the design of dye - sensitised solar cells, but also in order to be able to develop systems of materials for photocatalytic generation of hydrogen for storing solar energy as hydrogen fuel.»

g (acceleration due to gravity) G (gravitational constant) G star G1.9 +0.3 gabbro Gabor, Dennis (1900 — 1979) Gabriel's Horn Gacrux (Gamma Crucis) gadolinium Gagarin, Yuri Alexeyevich (1934 — 1968) Gagarin Cosmonaut Training Center GAIA Gaia Hypothesis galactic anticenter galactic bulge galactic center Galactic Club galactic coordinates galactic disk galactic empire galactic equator galactic habitable zone galactic halo galactic magnetic field galactic noise galactic plane galactic rotation galactose Galatea GALAXIES galaxy galaxy cannibalism galaxy classification galaxy formation galaxy interaction galaxy merger Galaxy, The Galaxy satellite series Gale Crater Galen (c. AD 129 — c. 216) galena GALEX (Galaxy Evolution Explorer) Galilean satellites Galilean telescope Galileo (Galilei, Galileo)(1564 — 1642) Galileo (spacecraft) Galileo Europa Mission (GEM) Galileo satellite navigation system gall gall bladder Galle, Johann Gottfried (1812 — 1910) gallic acid gallium gallon gallstone Galois, Évariste (1811 — 1832) Galois theory Galton, Francis (1822 — 1911) Galvani, Luigi (1737 — 1798) galvanizing galvanometer game game theory GAMES AND PUZZLES gamete gametophyte Gamma (Soviet orbiting telescope) Gamma Cassiopeiae Gamma Cassiopeiae star gamma function gamma globulin gamma rays Gamma Velorum gamma - ray burst gamma - ray satellites Gamow, George (1904 — 1968) ganglion gangrene Ganswindt, Hermann (1856 — 1934) Ganymede «garbage theory», of the origin of life Gardner, Martin (1914 — 2010) Garneau, Marc (1949 ---RRB- garnet Garnet Star (Mu Cephei) Garnet Star Nebula (IC 1396) garnierite Garriott, Owen K. (1930 ---RRB- Garuda gas gas chromatography gas constant gas giant gas laws gas - bounded nebula gaseous nebula gaseous propellant gaseous - propellant rocket engine gasoline Gaspra (minor planet 951) Gassendi, Pierre (1592 — 1655) gastric juice gastrin gastrocnemius gastroenteritis gastrointestinal tract gastropod gastrulation Gatewood, George D. (1940 ---RRB- Gauer - Henry reflex gauge boson gauge theory gauss (unit) Gauss, Carl Friedrich (1777 — 1855) Gaussian distribution Gay - Lussac, Joseph Louis (1778 — 1850) GCOM (Global Change Observing Mission) Geber (c. 720 — 815) gegenschein Geiger, Hans Wilhelm (1882 — 1945) Geiger - Müller counter Giessler tube gel gelatin Gelfond's theorem Gell - Mann, Murray (1929 ---RRB- GEM «gemination,» of martian canals Geminga Gemini (constellation) Gemini Observatory Gemini Project Gemini - Titan II gemstone gene gene expression gene mapping gene pool gene therapy gene transfer General Catalogue of Variable Stars (GCVS) general precession general theory of relativity generation ship generator Genesis (inflatable orbiting module) Genesis (sample return probe) genetic code genetic counseling genetic disorder genetic drift genetic engineering genetic marker genetic material genetic pool genetic recombination genetics GENETICS AND HEREDITY Geneva Extrasolar Planet Search Program genome genome, interstellar transmission of genotype gentian violet genus geoboard geode geodesic geodesy geodesy satellites geodetic precession Geographos (minor planet 1620) geography GEOGRAPHY Geo - IK geologic time geology GEOLOGY AND PLANETARY SCIENCE geomagnetic field geomagnetic storm geometric mean geometric sequence geometry GEOMETRY geometry puzzles geophysics GEOS (Geodetic Earth Orbiting Satellite) Geosat geostationary orbit geosynchronous orbit geosynchronous / geostationary transfer orbit (GTO) geosyncline Geotail (satellite) geotropism germ germ cells Germain, Sophie (1776 — 1831) German Rocket Society germanium germination Gesner, Konrad von (1516 — 1565) gestation Get Off the Earth puzzle Gettier problem geyser g - force GFO (Geosat Follow - On) GFZ - 1 (GeoForschungsZentrum) ghost crater Ghost Head Nebula (NGC 2080) ghost image Ghost of Jupiter (NGC 3242) Giacconi, Riccardo (1931 ---RRB- Giacobini - Zinner, Comet (Comet 21P /) Giaever, Ivar (1929 ---RRB- giant branch Giant Magellan Telescope giant molecular cloud giant planet giant star Giant's Causeway Giauque, William Francis (1895 — 1982) gibberellins Gibbs, Josiah Willard (1839 — 1903) Gibbs free energy Gibson, Edward G. (1936 ---RRB- Gilbert, William (1544 — 1603) gilbert (unit) Gilbreath's conjecture gilding gill gill (unit) Gilruth, Robert R. (1913 — 2000) gilsonite gimbal Ginga ginkgo Giotto (ESA Halley probe) GIRD (Gruppa Isutcheniya Reaktivnovo Dvisheniya) girder glacial drift glacial groove glacier gland Glaser, Donald Arthur (1926 — 2013) Glashow, Sheldon (1932 ---RRB- glass GLAST (Gamma - ray Large Area Space Telescope) Glauber, Johann Rudolf (1607 — 1670) glaucoma glauconite Glenn, John Herschel, Jr. (1921 ---RRB- Glenn Research Center Glennan, T (homas) Keith (1905 — 1995) glenoid cavity glia glial cell glider Gliese 229B Gliese 581 Gliese 67 (HD 10307, HIP 7918) Gliese 710 (HD 168442, HIP 89825) Gliese 86 Gliese 876 Gliese Catalogue glioma glissette glitch Global Astrometric Interferometer for Astrophysics (GAIA) Global Oscillation Network Group (GONG) Globalstar globe Globigerina globular cluster globular proteins globule globulin globus pallidus GLOMR (Global Low Orbiting Message Relay) GLONASS (Global Navigation Satellite System) glossopharyngeal nerve Gloster E. 28/39 glottis glow - worm glucagon glucocorticoid glucose glucoside gluon Glushko, Valentin Petrovitch (1908 — 1989) glutamic acid glutamine gluten gluteus maximus glycerol glycine glycogen glycol glycolysis glycoprotein glycosidic bond glycosuria glyoxysome GMS (Geosynchronous Meteorological Satellite) GMT (Greenwich Mean Time) Gnathostomata gneiss Go Go, No - go goblet cell GOCE (Gravity field and steady - state Ocean Circulation Explorer) God Goddard, Robert Hutchings (1882 — 1945) Goddard Institute for Space Studies Goddard Space Flight Center Gödel, Kurt (1906 — 1978) Gödel universe Godwin, Francis (1562 — 1633) GOES (Geostationary Operational Environmental Satellite) goethite goiter gold Gold, Thomas (1920 — 2004) Goldbach conjecture golden ratio (phi) Goldin, Daniel Saul (1940 ---RRB- gold - leaf electroscope Goldstone Tracking Facility Golgi, Camillo (1844 — 1926) Golgi apparatus Golomb, Solomon W. (1932 — 2016) golygon GOMS (Geostationary Operational Meteorological Satellite) gonad gonadotrophin - releasing hormone gonadotrophins Gondwanaland Gonets goniatite goniometer gonorrhea Goodricke, John (1764 — 1786) googol Gordian Knot Gordon, Richard Francis, Jr. (1929 — 2017) Gore, John Ellard (1845 — 1910) gorge gorilla Gorizont Gott loop Goudsmit, Samuel Abraham (1902 — 1978) Gould, Benjamin Apthorp (1824 — 1896) Gould, Stephen Jay (1941 — 2002) Gould Belt gout governor GPS (Global Positioning System) Graaf, Regnier de (1641 — 1673) Graafian follicle GRAB graben GRACE (Gravity Recovery and Climate Experiment) graceful graph gradient Graham, Ronald (1935 ---RRB- Graham, Thomas (1805 — 1869) Graham's law of diffusion Graham's number GRAIL (Gravity Recovery and Interior Laboratory) grain (cereal) grain (unit) gram gram - atom Gramme, Zénobe Théophile (1826 — 1901) gramophone Gram's stain Gran Telescopio Canarias (GTC) Granat Grand Tour grand unified theory (GUT) Grandfather Paradox Granit, Ragnar Arthur (1900 — 1991) granite granulation granule granulocyte graph graph theory graphene graphite GRAPHS AND GRAPH THEORY graptolite grass grassland gravel graveyard orbit gravimeter gravimetric analysis Gravitational Biology Facility gravitational collapse gravitational constant (G) gravitational instability gravitational lens gravitational life gravitational lock gravitational microlensing GRAVITATIONAL PHYSICS gravitational slingshot effect gravitational waves graviton gravity gravity gradient gravity gradient stabilization Gravity Probe A Gravity Probe B gravity - assist gray (Gy) gray goo gray matter grazing - incidence telescope Great Annihilator Great Attractor great circle Great Comets Great Hercules Cluster (M13, NGC 6205) Great Monad Great Observatories Great Red Spot Great Rift (in Milky Way) Great Rift Valley Great Square of Pegasus Great Wall greater omentum greatest elongation Green, George (1793 — 1841) Green, Nathaniel E. Green, Thomas Hill (1836 — 1882) green algae Green Bank Green Bank conference (1961) Green Bank Telescope green flash greenhouse effect greenhouse gases Green's theorem Greg, Percy (1836 — 1889) Gregorian calendar Grelling's paradox Griffith, George (1857 — 1906) Griffith Observatory Grignard, François Auguste Victor (1871 — 1935) Grignard reagent grike Grimaldi, Francesco Maria (1618 — 1663) Grissom, Virgil (1926 — 1967) grit gritstone Groom Lake Groombridge 34 Groombridge Catalogue gross ground, electrical ground state ground - track group group theory GROUPS AND GROUP THEORY growing season growth growth hormone growth hormone - releasing hormone growth plate Grudge, Project Gruithuisen, Franz von Paula (1774 — 1852) Grus (constellation) Grus Quartet (NGC 7552, NGC 7582, NGC 7590, and NGC 7599) GSLV (Geosynchronous Satellite Launch Vehicle) g - suit G - type asteroid Guericke, Otto von (1602 — 1686) guanine Guiana Space Centre guidance, inertial Guide Star Catalog (GSC) guided missile guided missiles, postwar development Guillaume, Charles Édouard (1861 — 1938) Gulf Stream (ocean current) Gulfstream (jet plane) Gullstrand, Allvar (1862 — 1930) gum Gum Nebula gun metal gunpowder Gurwin Gusev Crater gut Gutenberg, Johann (c. 1400 — 1468) Guy, Richard Kenneth (1916 ---RRB- guyot Guzman Prize gymnosperm gynecology gynoecium gypsum gyrocompass gyrofrequency gyropilot gyroscope gyrostabilizer Gyulbudagian's Nebula (HH215)

Each detected PNB - specific signal of such duration will be counted as a confirmation of PC cell destruction; (2) theranostic dual - pulse treatment: the first pulse will be close to the PNB generation threshold to generate small non-invasive PNBs; upon detecting such signals the system will increase the energy to the ablative level and will generate the second pulse in the same direction to expose the same area or volume and to detect ablative PNBs.

------------------------------------------------------------------------ Each cell in the body is dependent on the efficient generation of cellular energy by mitochondria to stay alive.

It's also going to assist with the generation of red and white blood cells, making sure you keep your immune system strong and your energy level up.

It is required for the transport of fatty acids into the cells power plants (mitochondria) to enable the breakdown of fats for the generation of metabolic energy.2 carnitine is therefore crucial for the body to convert fat into energy.

Noting that we are exposed to 100,000 chemicals on a daily basis, Dr. Dekel adds that many are «thyroid toxic» — leading to blocked receptor sites, cell dysfunction and poor energy generation.

Ironically, this energy - generation mechanism which is so essential to life can also set the stage for cell damage.

First of all, salt — and when I talk about salt, you can kind of interchange it with sodium — salt is vital for the generation of hydroelectric energy in the cells in our body.

Glycoproteins and polysaccharide molecules like glycosaminoglycans are important structural components of the body; certain cell types rely on glucose for energy; and the immune system relies on glucose for generation of reactive oxygen species to kill pathogens.

Electrovaya launches next generation of MN series of Li - ion SuperPolymer cells; claims energy densities exceeding 200 Wh / g

In addition, a «Next Energy» display will showcase Honda's latest initiatives in new energy development, including technology for producing bio-ethanol from rice straw and the environmentally responsible next - generation thin - film solar cells, which will go on sale nationwide in Energy» display will showcase Honda's latest initiatives in new energy development, including technology for producing bio-ethanol from rice straw and the environmentally responsible next - generation thin - film solar cells, which will go on sale nationwide in energy development, including technology for producing bio-ethanol from rice straw and the environmentally responsible next - generation thin - film solar cells, which will go on sale nationwide in Japan.

«Since 2000, global wind energy generation has more than tripled; solar cell production has risen six-fold; production of fuel ethanol from crops have more than doubled; and biodiesel production has expanded nearly four-fold.

It will surpass the esoteric Platinum LEED certification, and its design goals [PDF] include greenhouse gas - neutrality and net energy generation using a 250 - kilowatt fuel cell.

Second generation materials have been specifically developed to address energy requirements and production costs of first generation cells» «A commonly cited example of second generation cells are printed cells that can be produced at an extremely fast rate.

[citation needed] Nevertheless, due to very capital intensive production, it is generally not thought that first generation cells will be able to provide energy more cost effective than fossil fuel sources.»

• Carbon Dioxide Capture and Storage (2006) • Energy Sector Methane Recovery and Use Initiative (2007) • IEA Energy Technology Essentials: Biofuel Production, Biomass Power for Power Generation and CHP, CO2 Capture and Storage, Fuel Cells, Hydrogen Production and Distribution, Nuclear Power (2007 & 2006) • International CHP / DHC Collaborative (2007) • International Energy Technology Co-operation — Frequently Asked Questions (Chinese, Russian)(2006/7) • Renewables in Global Energy Supply (2007) • Energy Technology Perspectives Fact Sheets: Buildings and Appliances; Electricity Generation; Industry; Road Transport Technologies and Fuels; and Scenario Analysis (2006)

In other news, China's Yingli Green Energy (NYSE: YGE), Amtech Systems (Nasdaq: ASYS) and the Energy Research Centre of the Netherlands will collaborate on developing next - generation high efficiency solar cells.

Hydrogen fuel cell technology is touted as the next generation of energy.

The study finds that the growing need for a secure energy supply is driving power users to invest in distributed generation, using technologies such as small engines or turbines, fuel cells or photovoltaic systems.

Although China is among the largest producers of solar photovoltaic (PV) cells in the world, over 90 % of such PV cells are exported, leading Shi Dinghuan (石定寰), the Chairman of the Chinese Renewable Energy Industries Association (CREIA) to lament that China ships out its clean energy only to leave pollution (i.e. coal fired power generation) bEnergy Industries Association (CREIA) to lament that China ships out its clean energy only to leave pollution (i.e. coal fired power generation) benergy only to leave pollution (i.e. coal fired power generation) behind.

We will showcase our own EcoStruxure solutions and technologies (inverters, transformers, medium voltage cells, software and connected objects), to enable solar panels and other energy generation sources, and manage power distribution and create micro-grids wherever relevant.

Directs the Secretary to conduct programs in partnership with the private sector that address: (1) hydrogen production from diverse energy sources; (2) use of hydrogen for commercial, industrial, and residential electric power generation; (3) safe delivery of hydrogen or hydrogen - carrier fuels, (4) advanced vehicle technologies; (5) storage of hydrogen or hydrogen - carrier fuels; (6) development of safe, durable, affordable, and efficient fuel cells; and (7) the ability of domestic automobile manufacturers to manufacture commercially available competitive hybrid vehicle technologies in the United States.

(Sec. 356) Requires the Denali Commission to use specified funds to implement designated energy programs, including: (1) energy generation and development; (2) fuel cells, hydroelectric, solar, wind, wave, and tidal energy; (3) the replacement and cleanup of fuel tanks; and (4) the construction of fuel transportation networks and related facilities.

In that capacity, he helped manage the largest program in the world for working with businesses to develop and use advanced transportation and clean energy technologies — $ 1 billion aimed at energy efficiency, hybrid vehicles, electric batteries, hydrogen and fuel cell technologies, renewable energy, distributed generation, and biofuels.

They all appear simple however, with technological innovations such as those solar cells we noted most recently or even wave and tidal energy, once the science involved in generation of regular power can guarantee high efficiency.

We also embrace distributed generation, such as rooftop solar, fuel cells and battery storage, and our utilities in Baltimore and Philadelphia have more than 6,900 net - metered customers with over 100 megawatts of distributed energy.

However, because hydroelectric dams have an impact on land and water environments, and because dams can only be efficiently located in a limited number of places, some newer laws have been designed to encourage electricity generation from other renewable sources, such as wind, tides, geothermal energy, solar energy (photovoltaic cells, concentrated solar power, and solar thermal energy), landfill gas, etc..

Renewable energy generation is getting more efficient every year, and the amount of solar cells we need to power the planet is not really that much.

Not the politics of climate change, the economics of energy generation, how cell phones do or do not give you brain cancer, the end of the world as we know it, or how strongly you feel about saving the world.»

But perhaps the most promising application could be integrating them with spray - on solar cells, which could create an energy generation and storage system that could be painted onto any surface.

Now a new generation of entrepreneurs are experimenting with «pay - as - you go» systems, mobile banking payments, and community power that extends clean energy from off - grid cell phone towers to surrounding communities.

- Prioritization of pedestrian and bike traffic - Embedded mass transit infrastructure - Clean energy generation - Rainwater harvesting and biofiltered water flowing throughout the city - Urban agriculture and food production - A cell - like, self - organizing structure of neighborhoods (although exactly what this means is a little unclear to me right now)- A focus on ethnic and cultural diversity

Last month, AIST announed its new flexible CIGS Photovoltaic Cell with an energy conversion efficiency of 17.7 %, noting that the growing concerns about environmental problems and increasing crude oil prices has led to an increased interest in power generation using renewable energy such as photovoltaics and other new energy resources.

Still Waiting To Go Truly Cordless So while companies are working on incorporating alternative energy generation into cell phones, there isn't a practical option available right now - or even in the near future - that would really work.

While fuel cells still have some substantive CO2 emissions, they are only 45 % that of coal generation and 47 % the amount emitted from the production of energy using fossil fuels.