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Lighting up metal pollutants in water
Fitter to promote clean coal power
In the near future the scientists hope to carry out the
A thin metal filter material
sintering process on a com-
developed at the US Depart-
mercial scale, and to test the
ment of Energy’s (DOE’s)
filter in a DOE demonstration
Ames Laboratory
power plant run by the
may hold the
key to allowing power plants
University
to burn high sulphur coal
Lighting up metal pollutants in water
cleanly. The technology
of North Dakota.
to burn this
type of coal has existed for
A team of US BrighamYoung
some time, and demonstration
University
plants have shown that
synthesized molecules
pressurzed-fluidized
glow in the presence
com-
bustion and integrated cation combined
gasifi-
scientists
has that of
specific metal pollutants. High levels of metals in the
cycles provide
high efficiency, low emission
environment
power generation.
activities
However,
often result from
such as mining, fossil
the resulting flue gases contain
fuel combustion
fly ash, which is high in
industrial
sulphides, chlorides and
sure to high levels of metals
sodium compounds. This not
and other
applications.
such as mercury,
Expo-
cadmium and
screening then spread out as a
zinc can pose serious health
thin layer (0.5 mm) and heated
risks. Methods of tracking
only poses a threat to air
made from superalloys
quality, but can also damage the
the aerospace
turbines that drive plants’
chose a nickel-chromium-
in a vacuum furnace
generators.
aluminium-iron
sintering process bonds the
but they tend to be labour
particles
intensive
To prevent the
used in
industry. They alloy because
together,
metal in water currently
forming
particles from reaching the
it maintained
turbines and the atmosphere,
high temperatures
the hot gas is normally passed
and was resistant to thermal
between the spheres, but at the
synthetic compounds
through banks of cylindrical
shock.
same time leaving air spaces.
out and bind metal ions.
ceramic candle filters. The
its strength at
. The
(850 “C)
The thin, permeable
sheets
Tests have shown that the material undergoes
maintained by regular cleaning,
cess called tap-densified
moderate
using an internal blast of
powder sintering.
compressed
is
loose
slow.
The latest technology
strong and smooth joints
of metal are formed by a pro-
filters’ operating efficiency
and relatively
exist,
only a
drop in yield
uses
that seek
Smaller synthetic molecules then bind to the metal-binding compounds
and act as fluo-
strength when going from
rescent ‘reporters’,
molten superalloy is converted
room temperature
glow brightly under UV light.
ceramic materials are
into a fine powder using a
operating
susceptible
high-pressure
series of bend radius tests the
compounds
air. Unfortunately, to thermal shock,
High purity
atomization
to high
temperatures.
In a
i.e. they
If no metal ion is bound, the remain dark.
so the abrupt change in tempe-
system. As the hot metal passes
material was also sufficiently
According
to reseachers,
rature caused by the com-
through a nozzle, a high-
ductile to be formed into cor-
technology
is paving the way
pressed air can often crack the
pressure jet of nitrogen gas
rugated tubes; an important
for the development
ceramic material.
breaks the liquid into millions
feature for strength,
early warning system for metal
of tiny metal spheres. The
for increasing the filter surface
contamination
resulting powder is sorted by
area.
water and waste streams.
Researchers
began looking
at developing metal filters
Filtration+Separation
as well as
the
of an
of drinking
October2OOl23
In the near future the scientists hope to carry out the
A thin metal filter material
sintering process on a com-
developed at the US Depart-
mercial scale, and to test the
ment of Energy’s (DOE’s)
filter in a DOE demonstration
Ames Laboratory
power plant run by the
may hold the
key to allowing power plants
University
to burn high sulphur coal
Lighting up metal pollutants in water
cleanly. The technology
of North Dakota.
to burn this
type of coal has existed for
A team of US BrighamYoung
some time, and demonstration
University
plants have shown that
synthesized molecules
pressurzed-fluidized
glow in the presence
com-
bustion and integrated cation combined
gasifi-
scientists
has that of
specific metal pollutants. High levels of metals in the
cycles provide
high efficiency, low emission
environment
power generation.
activities
However,
often result from
such as mining, fossil
the resulting flue gases contain
fuel combustion
fly ash, which is high in
industrial
sulphides, chlorides and
sure to high levels of metals
sodium compounds. This not
and other
applications.
such as mercury,
Expo-
cadmium and
screening then spread out as a
zinc can pose serious health
thin layer (0.5 mm) and heated
risks. Methods of tracking
only poses a threat to air
made from superalloys
quality, but can also damage the
the aerospace
turbines that drive plants’
chose a nickel-chromium-
in a vacuum furnace
generators.
aluminium-iron
sintering process bonds the
but they tend to be labour
particles
intensive
To prevent the
used in
industry. They alloy because
together,
metal in water currently
forming
particles from reaching the
it maintained
turbines and the atmosphere,
high temperatures
the hot gas is normally passed
and was resistant to thermal
between the spheres, but at the
synthetic compounds
through banks of cylindrical
shock.
same time leaving air spaces.
out and bind metal ions.
ceramic candle filters. The
its strength at
. The
(850 “C)
The thin, permeable
sheets
Tests have shown that the material undergoes
maintained by regular cleaning,
cess called tap-densified
moderate
using an internal blast of
powder sintering.
compressed
is
loose
slow.
The latest technology
strong and smooth joints
of metal are formed by a pro-
filters’ operating efficiency
and relatively
exist,
only a
drop in yield
uses
that seek
Smaller synthetic molecules then bind to the metal-binding compounds
and act as fluo-
strength when going from
rescent ‘reporters’,
molten superalloy is converted
room temperature
glow brightly under UV light.
ceramic materials are
into a fine powder using a
operating
susceptible
high-pressure
series of bend radius tests the
compounds
air. Unfortunately, to thermal shock,
High purity
atomization
to high
temperatures.
In a
i.e. they
If no metal ion is bound, the remain dark.
so the abrupt change in tempe-
system. As the hot metal passes
material was also sufficiently
According
to reseachers,
rature caused by the com-
through a nozzle, a high-
ductile to be formed into cor-
technology
is paving the way
pressed air can often crack the
pressure jet of nitrogen gas
rugated tubes; an important
for the development
ceramic material.
breaks the liquid into millions
feature for strength,
early warning system for metal
of tiny metal spheres. The
for increasing the filter surface
contamination
resulting powder is sorted by
area.
water and waste streams.
Researchers
began looking
at developing metal filters
Filtration+Separation
as well as
the
of an
of drinking
October2OOl23