The demise of the world trade
center towers has attracted a great deal of interest and controversy because we
simply had gaps in the story of the destruction itself. Claims of other external causes believed by
conspiracy theorists hardly advanced our understanding. Now we finally have a proper model that actually
conforms to the known data.
The surprise to myself is that
molten alumina combined with water has the explosive impact of dynamite. We surely have no further to look once that
is understood because the most likely result of combustion involving a large
aircraft will be molten aluminum. After
that the rest is detail.
Had we understood that a decade
ago, then explanations for the outcome would have been obvious. Then no one could imagine what sourced the
witnessed explosive power that brought down the towers. They are also quite right to observe that the
collapse of the tower would entomb the metal and the waster and violently mix
the two generating massive explosions in the pile itself that was surely
sufficient to bring down an odd adjacent structure.
Consider the controversy put to
rest although I am sure a few enthusiasts will attempt to keep it alive.
Be sure that the reason we fail
to know the real danger of molten aluminum is that the industry has kept those
200 plus accidents rather quiet.
Obviously an accidental fall into a vat would flatten a smelter.
New Theory Explains Collapse of World
Trade Center 's
Twin Towers
ScienceDaily (Sep. 21, 2011) — According to a theory advanced by a
SINTEF materials scientist, a mixture of water from sprinkler systems and
molten aluminium from melted aircraft hulls created explosions that led to the
collapse of the Twin Towers in Manhattan.
Just before the two New York
skyscrapers collapsed on Sept. 11, 2001, powerful explosions within the
building could be heard, leading many people to believe that overheated steel
beams in the building were not the cause of the collapse.
The explosions fed the conspiracy theories that someone had placed
explosives inside the towers.
At an international materials technology conference in San Diego , the audience
heard senior scientist Christian Simensen of SINTEF Materials and Chemistry
present an alternative theory based on the physics of materials of what
happened in the towers when they were attacked by the aircraft. The SINTEF
researcher believes that his theory is much more likely to reflect the actual
situation than the official explanation of the collapse.
In the wake of the conference Simensen had an article published in the
journal Aluminium International Today, describing his theory.
Explosive meeting of molten aluminium and water
Simensen believes that it is overwhelmingly likely that the two
aircraft were trapped inside an insulating layer of building debris within the
skyscrapers. This leads him to believe that it was the aircraft hulls rather
than the buildings themselves that absorbed most of the heat from the burning
aircraft fuel.
The SINTEF scientist believes that the heat melted the aluminium of the
aircraft hulls, and the core of his theory is that molten aluminium then found
its way downwards within the buildings through staircases and gaps in the floor
-- and that the flowing aluminium underwent a chemical reaction with water from
the sprinklers in the floors below.
"Both scientific experiments and 250 reported disasters
suffered by the aluminium industry have shown that the combination of molten
aluminium and water releases enormous explosions," says Simensen.
"Explosions demolished the towers"
Simensen continues: "I regard it as extremely likely that it was
these explosions that made the skyscrapers collapse by tearing out part of the
internal structure, and that this caused the uppermost floors of the buildings
to fall and crush the lower parts. In other words, I believe that these were
the explosions that were heard by people in the vicinity and that have since
given life to the conspiracy theories that explosives had been placed in the
skyscrapers."
Practical use
"Could your theory be used to protect human life and material
values if other skyscrapers are ever hit by large aircraft?"
"Yes, as a matter of fact it could. One lesson is that we could
develop means of rapidly emptying sprinkler systems in the floors under the
point of impact. Another possibility would be to fire in a rocket carrying a
fire-retardant that would overlie the aircraft body and prevent the metal alloy
from becoming overheated."
Day of unreality
It was in the morning New York time on
September 11, 2001, when two Boeing 767 passenger planes flew into the World Trade Center 's "Twin
Towers " in Manhattan
in New York .
One hour later, WTC2 collapsed, followed after half an hour by WTC1.
Neighbouring buildings were bombarded by flying debris when the towers
collapsed. The 47-storey skyscraper called 7 World Trade Center also caught
fire and collapsed several hours later at 17.20.
30 tonnes of aluminium
The official report on the causes of the collapse of the three
buildings was drawn up by a commission appointed by the federal government and
has since been supported by other publications. The report came to the
conclusion that the collapse was caused by heating and failure of structural
steel beams in the centre of the buildings.
"I believe that it is overwhelmingly probable that the theories
regarding the cause of the collapse of WTC1 and WTC2 are wrong, but that the
report very likely came to the correct conclusion as regards WTC7," says
Simensen.
"Why should we believe your alternative theory rather than the
official explanation?"
"To put it as succinctly as possible: because the federal
government commission did not take sufficiently into account the fact that the
aircraft brought 30 tonnes of aluminium into each of the two towers."
The collision
"What sort of evidence do you have for the theory that you are
putting forward?"
"I base my theory on comparisons I have made with parallel
observable phenomena in the world of physics. Let us start with what I think
must have happened when the planes struck the two towers. They came in at high
speed and at a low angle. The only similar phenomenon that we have any
knowledge of is meteors that hit the Earth. What we know is that these drag
material with them on their way through the soil layer. The whole surface,
including all its pores, is covered by the material that they carry along. The
innermost layer melts and turns into a glass coating on the surface of the
meteor."
"I believe that similarly, the aircraft must have been covered by
fragments of internal walls, ceilings and floors that collapsed around them and
that the planes carried along with them as they penetrated the buildings. Much
of this material was plaster, a material with extremely poor heat conduction
capacity. All this debris probably formed a shield that kept the heat close to
the aircraft and protected the rest of the building."
The fire
"So you believe that it was the aircraft themselves that became
superheated, rather than the buildings?
"Yes I do. The disintegrated aircraft probably came to a stop near
the centre of the buildings. The materials along the track of the collision
must also have burned. But the really hot zone was where the aircraft came to a
stop. I believe that some of the aircraft's fuel tanks must have suffered major
damage, but that most of them would have been cut in two when they met the
steel beams in the buildings, and that the development of the fire was
therefore fairly constant."
"I believe that the planes must have been lying in a sort of basin
of material debris, with the floor of the basin two or three storeys below the
one that they ploughed into. The entire internal basin must have been heated by
the burning fuel. Outside of the basin, the temperature would have been much
lower."
"The aluminium alloy of the aircraft hulls, which also contains
magnesium, melts at a temperature of 660o C. Experience gained from the
aluminium industry suggests that it may have taken between half and
three-quarters of an hour to reach such a temperature. If molten aluminium is
heated further to a temperature of 750o C, it becomes just as liquid as
water. I presume that this is what happened within the Twin Towers ,
and that the molten aluminium then began to run down into the floors
below."
The explosions
"What happened then?"
"All the floors in the Twin
Towers were equipped with
sprinkler systems. All the water above the hot aircraft bodies must have turned
to steam. If my theory is correct, tonnes of aluminium ran down through the
towers, where the smelt came into contact with a few hundred litres of water.
From other disasters and experiments carried out by the aluminium industry, we
know that reactions of this sort lead to violent explosions."
"The aluminium would immediately react with the water, with the
result of a local rise on temperature of several hundred degrees, in addition
to the explosions that were due to the fact that these reactions release
hydrogen. Such reactions are particularly powerful when rust or other catalysts
are present, which can raise the temperature to more than 1500o C."
"The aluminium industry has reported more than 250 aluminium-water
explosions since 1980. Alcoa Aluminium carried out an experiment under
controlled conditions, in which 20 kilos of aluminium smelt were allowed to
react with 20 kilos of water, to which some rust was added. The explosion
destroyed the entire laboratory and left a crater 30 metres in diameter."
"Many people in New York
reported that they had heard explosions just before the buildings collapsed.
Film taken of the buildings also showed explosions in the floor below the
impacts. Given that the amount of aluminium involved was large in comparison
with the quantity of water, and since rust was probably also present, I believe
that it is highly likely that the building collapsed as a result of a series of
extremely energy-rich aluminium-water explosions."
The collapse
"How could explosions in the centre of a building cause a whole
tower to collapse?"
"Aluminium-water explosions are like dynamite explosions. They
were probably powerful enough to blow out an entire section of each building.
The top section would than fall down on top of the sections that remained
below, and the sheer weight of the top floors would be enough to crush the
lower part of the building."
The neighbouring building
"What happened in the case of the neighbouring WTC7
building?"
"WTC1 and WTC2 took huge amounts of aviation fuel, fragments of
steel and, if my theory is correct, large quantities of molten aluminium when
they collapsed. When these materials and everything else fell some three or
four hundred metres to the ground, they were squeezed between the upper and
lower sections of the towers. This led to the neighbouring buildings being
bombarded by hot particles, fuel and probably also aluminium droplets. Both
large and small clumps of particles have since been found embedded in the walls
of these buildings."
"WTC7 may have taken more of these impacts than the other
buildings. At any rate, the building caught fire, which got out of control. In
this case, the structural steel may have reached a temperature of more than
1000o C, over seven hours, and the 13th floor collapsed in the course of a
minute. In this case I do agree with the findings of the federal commission.
Overheating of steel beams was probably the cause of the collapse."
The way ahead
"Would it be possible to perform scientific experiments that can
support your theory?"
"It would certainly be possible to look specifically for
solidified droplets of aluminium and aluminium oxide in the walls of the
neighbouring buildings. Experiments could also be carried out to find out
whether fuel tanks are cut cleanly when they plough through a network of steel
beams at a speed of 800 kilometres an hour. We could also test on model scale whether
an object that ploughs through a room at extremely high speed becomes covered
in debris from collapsed walls, ceilings and floors."
Whew! We can all finally relax...as long as we don't go into any skyscrapers.
ReplyDeletethis would look a lot better if there were actual links to the "alleged" explosions in alcoa properties. I tend to be very skeptical of uncited references to things. Also tell about explosions with no references as to how they occur or why, when that should be well known --- after all water and aluminium are not exactly exotic substances does not lend credibility to a story
ReplyDeleteThat has to be tongue in cheek. No one in their right mind would believe that.
ReplyDeleteIf you believe this crap, then you no doubt believe in the Tooth Fairy, the Easter Bunny, and Santa himself... What a CROCK of shit!!
ReplyDeleteIt is all about the temperature. They used to use magnesium on warships until Sheffield in the Falkland war.
ReplyDeleteAluminium likely needs to be hotter but sea water then provides the oxygen
Design work rarely expects to encounter such conditions
Please examine ALL the evidence before jumping to "obvious" conclusions. The only person to have actually done that is Dr. Judy Wood, and she lays it all out with detailed photographs, charts and tables in a textbook-quality encyclopedic reference work.
ReplyDeleteIt is incumbent on all who would call themselves true scientists to read and study this book before proclaiming that they understand how 99% of the top 80 stories of the towers, including concrete, steel, glass and office furnishings, were rendered into particles of DUST averaging 90 microns in size.
To witness the de-molecularization of the robust steel core of the North Tower, search "9/11 spire" on YouTube.
Then go to www.wheredidthetowersgo.com and begin your earnest search for the truth.
Absolute utter nonsense .... one pound of aluminium in a Force3 oxygen fueled explosion is equal to just 3 lb (1.4 kg) of TNT and no building or even melt furnace has ever been destroyed by the explosive pressure of aluminum and water (which water, bye the bye, has to be trapped UNDER the liquid Al to cause a steam explosion - explain how that happened) ... there have been deaths from burns and secondary fires started by the process in Force1 and Force2 steam "explosions" by liquid Al which is thrown out from the force of the stream but Force3 explosions ALWAYS need a source of oxygen in the form of oxides.
ReplyDelete