There are four Uses themes for reworking the nation's energy matrix: 1) Efficiency — appliance efficiency, building efficiency, vehicle efficiency,
process heat efficiency.
Not exact matches
The SPX portfolio includes a wide range of APV branded products, systems and technologies, such as
heat transfer (aseptic and non-aseptic), membrane filtration, UHT treatment, cheese production systems, distillation, mixing and blending technologies designed to operate at maximum
efficiencies in modern
processing lines within the dairy, food, beverage and related industries around the world.
The CALORIS CONCENTRIX ® MVR evaporator is a high -
efficiency falling film evaporator system that uses proprietary turbofan technology for Mechanical Vapor Recompression (MVR)
heating, driving the evaporation
process with electrical power.
Moreover, milk quality also affects the
efficiency and cost - effectiveness of your plant's
processing systems, in particular your
heat exchangers.
The glass energy capture system will recycle waste
heat from the smelting
process to increase energy
efficiency.
The UCLA researchers were able to demonstrate that using this multiferroic material to generate spin waves could reduce wasted
heat and therefore increase power
efficiency for
processing by up to 1,000 times.
«Quantum manipulation power for quantum information
processing gets a boost: Improving the
efficiency of quantum
heat engines involves reducing the number of photons in a cavity, ultimately impacting quantum manipulation power.»
«This suggests that the light use
efficiency of lettuce and pothos was limited by a
process other than conversion into
heat, likely light - induced damage to the photosynthetic machinery in the leaves,» the authors noted.
A new
heat - exchanger system to capture and recycle waste
heat from oxy - fuel furnaces could cut
process CO2 emissions by 30 % and nitrous oxide emissions by 90 %, as well enhancing thermal
efficiency and significantly reducing operating costs.
This
process often requires
heat and therefore may damage the
heat labile constituents in the
process, thus using a different, less efficient extraction solvent is perhaps better despite lowered extraction
efficiency.
To enhance
efficiency to an even higher level, the turbochargers are made of a particularly
heat - resistant material which makes them immune to high exhaust gas temperatures in the interest of a fuel - efficient combustion
process particularly under full load.
All the while research on energy uses and
efficiency continued and
efficiency of industrial
processes, home
heating, water
heating, appliances, lighting, etc., improved, prodded in the case of household uses by thoughtful
efficiency standards.
Further
efficiency improvements may be possible in many areas including transportation, power distribution, lighting, refrigeration, motors, cooking,
heating, industrial
processes and other areas.
The team estimates that the
process can convert about 30 % of the energy stored in sewage to usable energy, a rate comparable with solar panel
efficiencies or the energy gained in
heat and power from methane fermentation.
[7] Power plant
efficiency can also be greatly improved by using «combined
heat and power» systems that use waste
heat from the combustion
process for space
heating or industrial applications, [8] or by using a «combined cycle» that uses the waste
heat to power a steam turbine and make more electricity.
There are plenty of fossil fuels and pseudo-fossil sources such as peat that have such low
efficiency, that most of the carbon may be burned as
process or waste
heat.
The next goal is to raise the
efficiency to 15 percent, by incorporating an advanced system to recover sensible
heat of the
process.
A major driver in these
efficiency gains has been our increased investment in cogeneration — a technology enabling us to capture
heat generated from electricity production that is otherwise wasted, and use it in other industrial
processes.
Process optimization and heat - recovery improvements within the upgrading process are other possible sources for increased efficiencies, although detailed accounts of such changes are not publicly ava
Process optimization and
heat - recovery improvements within the upgrading
process are other possible sources for increased efficiencies, although detailed accounts of such changes are not publicly ava
process are other possible sources for increased
efficiencies, although detailed accounts of such changes are not publicly available.
When
heat is recovered from the electricity production
process, total
efficiency is up to 85 percent...
Maybe the high
efficiency comes from recycling the waste
heat as the thermal input of the endothermal
process.
With secondary
processes like using waste
heat to dry municipal waste (sterilize) prior to recycling you have increased the
efficiency of both
processes.
The purpose of the Framework is to introduce a standardized and transparent methodology into industrial energy
efficiency projects and practices including: system optimization,
process improvements, waste
heat recovery and the installation of on - site power generation.
In this respect, an SPARC
process can realize greater
efficiencies than
process requiring ambient or near - ambient temperatures in that the low - energy photons are used to help
heat the SPARC reaction and to
heat a working fluid to a more useful temperature (i.e., 200 °C).
Because the 40degree 90degree N region accounts for up to 40 % of the simulated global ocean
heat uptake over one hundred years, the
process described here influences the global
heat uptake
efficiency.
The technol - ogy itself was developed with energy
efficiency in mind as it was initially conceived in order to recycle
heat generated in industrial
processes.
A high -
efficiency furnace not only emanates more
heat because it has a longer and more convoluted
heat exchanger, but it also gets more
heat from the condensation
process.