Not exact matches
Hydro - Quebec, meanwhile, would combine its extensive hydro - based generation assets with NB Power's
thermal - based ones, creating a more efficient and synergistic utility with increased
capacity to sell to the lucrative markets
in the northeastern United States.
In 2012, there were around 2,150
thermal waste treatment plants operating globally with a total annual waste treatment
capacity of almost 250 million tons.
The need of fuel for power has risen
in recent times as the country's electricity generation mix has tilted more to
thermal power, which this year is expected to account for about 70 percent of the total power generation
capacity of the country.
That compares with an expected 4 percent annual growth
in thermal power
capacity, half that seen between 2005 and 2011, said Liu Xiangdong, director of planning statistics of the China Electricity Council.
In addition to low thermal conductivity, these novel aerogels have several unique features, one of which is super high oil absorption capacity — it is up to four times higher than commercial sorbents available in the marke
In addition to low
thermal conductivity, these novel aerogels have several unique features, one of which is super high oil absorption
capacity — it is up to four times higher than commercial sorbents available
in the marke
in the market.
«The majority of the
capacity addition will be through
thermal power plants, for which the demand of coal is going to increase
in the future,» the report said.
For a solar
thermal plant, this results
in higher
capacity at lower operating costs.
«This is a big advance both
in terms of
capacity and
thermal management,» Long said.
Just since last year, nearly 700 MW of new solar
thermal capacity came online with the completion of three large power plants
in the Southwest.
Meanwhile, here on earth, we still have the same remaining problem of our trapped
thermal atmospheric content that can not escape away from Earth's self contained system that is maintained by the greenhouse gases that surrounds the earth that is said to be increasing
in content, and because it increasing
in content, the
thermal kinetic
capacity (global warming potential of certain said gases will rise with it.)
The automaker says the performance brakes offer an 84 - percent increase
in brake pad area and a 42 - percent increase
in rotor area for improved system
thermal capacity.
With the brakes being used not only to slow the Supersports» mighty 5,027 - lb curb weight (
in coupe form; the convertible weighs 5,412 lb) but also to manage torque distribution and cornering, you might worry about the
thermal capacity of the brakes.
The Chevrolet Performance front brake system features Brembo ® six - piston, fixed aluminum calipers and larger - than - stock Duralife ™ rotors for an 84 % increase
in brake pad area and a 42 % increase
in rotor area to increase
thermal capacity.
With the wet multi-plate clutch system, the clutch components are bathed
in lubricating / cooling fluid
in order to provide adequate
thermal capacity.
Standard on the Charger SRT Hellcat is the largest front - brake package ever offered
in a Chrysler Group vehicle, which were first introduced on the 2015 Challenger SRT Hellcat, featuring all - new 390 - mm (15.4 - inch) Brembo two - piece rotors with six - piston calipers for outstanding heat management and
thermal capacity and longevity.
The package features massive six - piston, fixed aluminum calipers
in the front with brake pads clamping on larger - than - stock 410 x 32 mm (16.1 inch x 1.3 inch) Duralife rotors coupled with an 84 percent increase
in brake pad area and a 42 percent increase
in rotor area to increase system
thermal capacity.
An available performance brake package designed, engineered and backed by Brembo features massive front red six - piston, fixed aluminum calipers with brake pads clamping on larger - than - stock 410 x 32 mm (16.1 inch x 1.3 inch) Duralife ™ rotors coupled with an 84 percent increase
in brake pad area and a 42 percent increase
in rotor area to increase system
thermal capacity.
An available Performance front brake upgrade package designed, engineered and backed by GM features massive red Brembo ® six - piston, fixed aluminum calipers with brake pads clamping on larger - than - stock 410 x 32 mm (16.1 inch x 1.3 inch) Duralife ™ rotors coupled with an 84 percent increase
in brake pad area and a 42 percent increase
in rotor area to increase system
thermal capacity.
The only way I expect to get it is to have a federal regulation that says «
Thermal leakage of furnaces when the burner is idle shall not exceed x BTU per hour
in furnaces of up to Y heating
capacity, etc. etc..»
«Experts project that by 2010 the number of solar water heaters installed
in China will equal the
thermal equivalent of the electrical
capacity of 40 large nuclear power plants.»
The water, due to it's much greater
thermal capacity, cools much slower than the air would
in the absence of heat inflow, so this also limits the rate of cooling of the air.
All but 18 states have some utility - scale solar PV
capacity, but only three states (California, Arizona, and Nevada) have utility - scale solar
thermal resources, as these systems often require large, contiguous tracts of land
in arid environments.
News, Marek Kubik at storage system provider and integrator Fluence wrote about an academic study into Ireland's grid which showed the role batteries could play there
in stabilising the grid using far less
capacity than
thermal generation.
In looking at this of course, we must take into account that overall the
thermal inertia and overall energy storage
capacity of the troposphere is dwarfed by the oceans and far more variable than the oceans, so looking at the energy of the troposphere and comparing it to Earth's overall reservoir of non-tectonic energy is much like weighing the flee on a dog's back to see how much it adds to the weight of the dog.
Bear
in mind the current out letting of heat
in the waters below Australia, heat that did not have
thermal capacity to reach the Antarctic.
When combined with
thermal storage
capacity of several hours of full -
capacity generation, CSP plants can continue to produce electricity even when clouds block the sun, or after sundown or
in early morning when power demand steps up.
Ferrostaal's extensive construction
capacity and expertise — particularly
in the concentrated solar
thermal field — together with eSolar's award - winning technology, offers us the opportunity to rapidly construct solar power projects across the globe
in coming years.»
However,
in order to achieve a step change
in production
capacity, alternative approaches such as via
thermal routes (termed «Bio-SNG») are necessary.
A robust ice cap, due to its
thermal capacity, can not melt away
in summer.
But capital costs are the real show - stoppers: for photovoltaics, at $ 3 / peak watt current prices (solar
thermal systems are roughly the same), even
in an ideal location, 2000 TWh / yr requires about 1 TW peak
capacity, or $ 3 trillion capital investment.
In 2013, 2,145 MW of utility - scale solar capacity entered service in California, of which more than 500 MW came from large - scale solar thermal plant
In 2013, 2,145 MW of utility - scale solar
capacity entered service
in California, of which more than 500 MW came from large - scale solar thermal plant
in California, of which more than 500 MW came from large - scale solar
thermal plants.
Solar
thermal capacity additions also continue to be outpaced by solar photovoltaic (PV)
capacity additions, even though solar PV has only meaningfully entered the utility - scale market
in the past few years.
EIA projections for total solar
thermal capacity additions
in 2013 and 2014 include six projects for a total of 1,257 MW, with more expected
in 2015 and 2016.
Several large, new solar
thermal power plants are expected to begin commercial operation by the end of 2013, more than doubling the solar
thermal generating
capacity in the United States.
In recent decades, scientists have developed sufficient monitoring
capacity to understand how much of sea level rise is due to
thermal expansion (from ocean heating) and melting land ice.
A thin sheet of metal quickly absorbs the solar energy, and having good conductivity, quickly converting it into an increase
in heat whereas the
thermal lag of water by contrast is great and whilst energy is being absorbed due to its large heat
capacity the response is slow.
A windmill that drives ground
thermal mechanically into a system built to store
capacity at high times to release from its reservoir when the windmill is stilled is many times more efficient than one that generates electricity and stores power
in batteries.
From both an air quality and a climate leadership perspective, it would not be ideal for India to stress on expanding its
thermal power
capacity to 441 GW
in 2040 from 125 GW
in 2012, as proposed
in the NEP, without having adequate technology
in place for improving the efficiency and reducing the emissions from these plants.
It shows little if any true understanding of heat, temperature,
thermal capacities, energy, radiation or any meaningful physical science relating to the subject
in question.
The main difference between H2O and CO2 (apart from the numerical differences of their specific physical properites such as degree of freedom,
thermal capacity, physical mass, etc)
in terms of their effects on the atmosphere is that water is capable of condensing into liquid to form clouds and readily and rapidly moves between surface and atmosphere, daily, seasonally, annually and on even greater time scales, but CO2 does not liquify
in the biosphere and transfers over mostly long time periods between surface (primarily oceans, seas, etc) and the atmosphere.
The uhü is heated and cooled with a single - head Mitsubishi Hyper - Heat ductless minisplit with a rated
capacity of 18,000 BtuBritish
thermal unit, the amount of heat required to raise one pound of water (about a pint) one degree Fahrenheit
in temperature — about the heat content of one wooden kitchen match.
DC Water introduced new
thermal hydrolysis technology and
capacity at the Blue Plains plant, which is now the largest
thermal hydrolysis installation
in the world.
Regarding the real world earth and the real world atmosphere — granted that the temperature measures different things for different objects, but
in all cases there is a proportionality constant between the (change
in)
thermal energy content of an object and its (change
in) temperature, and that is the heat
capacity.
Matter that has a higher
capacity to store
thermal energy
in the form of potential energy has a higher specific heat because it takes more
thermal energy to raise its temperature 1 °C.
Albania is trying to increase its
thermal generation
capacity to cope with increased demand for electricity
in the country, which has long depended almost solely on hydro plants for power generation.
While only 3.8 GW of
thermal generation
capacity was added
in 2017, the addition of renewables
capacity clocked
in at 12.8 GW, split approximately one - third wind and two - thirds solar.
You do have such an amazing molecule
in your fictional world, defying gravity it can stay up
in the atmosphere for hundreds and even thousands of years accumulating though it's one and a half times heavier than air, and, with no heat
capacity to spit at, it can trap heat, or, heck you can't even get your stories to say the same thing consistently, it becomes this great
thermal blanket stopping heat escaping... just how much of that blanket is holes?
Air is light
in weight and low
in heat
capacity, so a lot of air needs to be passed through an air heating collector, and it has to be done
in a way that puts a lot of the air
in good
thermal contact with the absorber.
«anti-rural factors» — lack of evaporative cooling from soil and plants, lack of plant cooling, increased
thermal conductivity and
capacity from artificial structures, faster water runoff and sequestration
in cities
Thermal equilibrium doesn't mean the same temperature, if for example, a gas in getting hotter expands and rises becoming less dense and under less pressure it can move faster, it's using thermal energy to move, there's no energy lost, it's just become something else, or, as temperature relates to kinetic energy not thermal energy then heat capacity comes into play, as water can absorb a huge amount of thermal energy before there's any rise in temperature, or whatever, but if you're equating all «energy» to «heat» as thermal energy then that's a different idea altogether, not all energy i
Thermal equilibrium doesn't mean the same temperature, if for example, a gas
in getting hotter expands and rises becoming less dense and under less pressure it can move faster, it's using
thermal energy to move, there's no energy lost, it's just become something else, or, as temperature relates to kinetic energy not thermal energy then heat capacity comes into play, as water can absorb a huge amount of thermal energy before there's any rise in temperature, or whatever, but if you're equating all «energy» to «heat» as thermal energy then that's a different idea altogether, not all energy i
thermal energy to move, there's no energy lost, it's just become something else, or, as temperature relates to kinetic energy not
thermal energy then heat capacity comes into play, as water can absorb a huge amount of thermal energy before there's any rise in temperature, or whatever, but if you're equating all «energy» to «heat» as thermal energy then that's a different idea altogether, not all energy i
thermal energy then heat
capacity comes into play, as water can absorb a huge amount of
thermal energy before there's any rise in temperature, or whatever, but if you're equating all «energy» to «heat» as thermal energy then that's a different idea altogether, not all energy i
thermal energy before there's any rise
in temperature, or whatever, but if you're equating all «energy» to «heat» as
thermal energy then that's a different idea altogether, not all energy i
thermal energy then that's a different idea altogether, not all energy is heat.