Sentences with phrase «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.
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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.
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.
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.
Not exact matches
Along with Mars 2020, STMD is hard at work, advancing promising technology for potential infusion into these Mars missions including: Heat - shield for Extreme Entry Environment, a tailorable, woven thermal protection system that would reduce entry loads and greatly reduce heat - shield mass; Deep Space Optical Communications, which will improve the data - return capacity from space to Earth by more than 10 times the current state - of - the - art; and the Deep Space Atomic Clock project which will revolutionize deep space travel by improving the precision of space navigation and enabling more efficient use of tracking networks like GPS.
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 delayed action is a property of the climate system, which also affects greenhouse gases, and is caused by the oceans which act as a flywheel due to their great heat capacity and thermal inertia.
It contains 192 cells, down from 288, and has 20 percent more overall storage capacity and an active thermal system.
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.
Transmission Albins 1st to 6th Gear set kit Uprated & High Strength GTC 14 plate clutch system Upgraded 4wd Gearlock system Uprated Diff's SVM gearbox cooler kit with additional fan and thermal control / motul pump and braided lines GTC Billet gearbox high capacity oil pan SVM synthetic 13lts duel clutch oil Shell helix racing oils
Advanced technologies, including high - speed combustion, multi-hole direct fuel injectors, a continuously variable capacity oil pump, a variable cooling system and VVT - iE intelligent variable valve - timing on the intake side give the engine maximum thermal efficiency of around 40 percent — an exceptional number for a passenger vehicle engine.
Monitoring Capacity - Blood pressure (PetMAP)- Pulse oximeter - EKG - Constant digital temperature monitor for hypo / hyperthermic patients - Constant thermal monitoring system for hypothermia or surgeries - Warm water blankets - safest for surgical patients
The United States has slightly more than 20,000 megawatts (MW) of solar generating capacity, which includes utility - scale solar photovoltaic (PV) and solar thermal installations, as well as distributed generation solar PV systems, also known as rooftop solar.
Utility - scale solar makes up more than two - thirds of California's solar capacity, with utility - scale solar PV making up 55 % and solar thermal systems such as concentrating solar making up another 13 %.
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.
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.
This funding system granted a premium on top of the electricity pool price of 12 $ cents for each kWh output of a solar thermal plant between 100 kW and 50 MW of capacity, which could be changed every four years.
• The union of microscopic (atomic level) Hamiltonian dynamical models with macroscopic (system level) thermodynamical models, succeeds extraordinarily well at predicting a vast range of physical phenomena (including heat conductivity, heat capacity, sound velocities, viscosity, thermal expansion, solubility / insolubility, etc..)
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.
And, this means that one has to calculate what is called the «thermal inertia» or «thermal capacity» of the system.
The surface / lower troposphere (all of how much of the thermal capacity of the system?)
The calculation is based on the following criteria: • size, geometry and exposure of the dwelling • materials used for construction • thermal insulation of the different elements of the building fabric • ventilation characteristics of the dwelling and ventilation equipment • efficiency, responsiveness and control characteristics of the heating system • solar gains through glazed openings of the dwelling • thermal storage (mass) capacity of the dwelling • the fuel used to provide space and water heating, ventilation and lighting • renewable energy generation In this article we look at some of the principal factors that impact on the BER.
There is far more information that needs to be considered (such as the velocity at which thermal energy (and light) travels through the system, and the thermal capacities of the system components) before a proper «heat budget» can be prepared.
We designed a system that we thought with the kind of GPUs that at the time we thought we needed, and that we thought we could well serve with a two GPU architecture... that that was the thermal limit we needed, or the thermal capacity we needed.