Sustainable Oil?
Sustainable Oil?
By Chris Bennett -
WorldNetDaily May 25, 2004
About 80 miles off of the coast of Louisiana lies a mostly submerged
mountain, the top of which is known as Eugene Island. The portion underwater
is an eerie-looking, sloping tower jutting up from the depths of the Gulf of
Mexico, with deep fissures and perpendicular faults which spontaneously spew
natural gas. A significant reservoir of crude oil was discovered nearby in
the late '60s, and by 1970, a platform named Eugene 330 was busily producing
about 15,000 barrels a day of high-quality crude oil.
By the late '80s, the platform's production had slipped to less than
4,000 barrels per day, and was considered pumped out. Done. Suddenly, in
1990, production soared back to 15,000 barrels a day, and the reserves which
had been estimated at 60 million barrels in the '70s, were recalculated at
400 million barrels. Interestingly, the measured geological age of the new
oil was quantifiably different than the oil pumped in the '70s.
Analysis of seismic recordings revealed the presence of a "deep fault"
at the base of the Eugene Island reservoir which was gushing up a river of
oil from some deeper and previously unknown source.
Similar results were seen at other Gulf of Mexico oil wells. Similar
results were found in the Cook Inlet oil fields in Alaska. Similar results
were found in oil fields in Uzbekistan. Similarly in the Middle East, where
oil exploration and extraction have been underway for at least the last 20
years, known reserves have doubled. Currently there are somewhere in the
neighborhood of 680 billion barrels of Middle East reserve oil.
Creating that much oil would take a big pile of dead dinosaurs and
fermenting prehistoric plants. Could there be another source for crude oil?
An intriguing theory now permeating oil company research staffs
suggests that crude oil may actually be a natural inorganic product, not a
stepchild of unfathomable time and organic degradation. The theory suggests
there may be huge, yet-to-be-discovered reserves of oil at depths that dwarf
current world estimates.
The theory is simple: Crude oil forms as a natural inorganic process
which occurs between the mantle and the crust, somewhere between 5 and 20
miles deep. The proposed mechanism is as follows:
· Methane (CH4) is a common molecule found in quantity throughout our
solar system - huge concentrations exist at great depth in the Earth.
· At the mantle-crust interface, roughly 20,000 feet beneath the
surface, rapidly rising streams of compressed methane-based gasses hit
pockets of high temperature causing the condensation of heavier
hydrocarbons. The product of this condensation is commonly known as crude
oil.
· Some compressed methane-based gasses migrate into pockets and
reservoirs we extract as "natural gas."
· In the geologically "cooler," more tectonically stable regions
around the globe, the crude oil pools into reservoirs.
· In the "hotter," more volcanic and tectonically active areas, the
oil and natural gas continue to condense and eventually to oxidize,
producing carbon dioxide and steam, which exits from active volcanoes.
· Periodically, depending on variations of geology and Earth movement,
oil seeps to the surface in quantity, creating the vast oil-sand deposits of
Canada and Venezuela, or the continual seeps found beneath the Gulf of
Mexico and Uzbekistan.
· Periodically, depending on variations of geology, the vast, deep
pools of oil break free and replenish existing known reserves of oil.
There are a number of observations across the oil-producing regions of
the globe that support this theory, and the list of proponents begins with
Mendelev (who created the periodic table of elements) and includes Dr.Thomas
Gold (founding director of Cornell University Center for Radiophysics and
Space Research) and Dr. J.F. Kenney of Gas Resources Corporations, Houston,
Texas.
In his 1999 book, "The Deep Hot Biosphere," Dr. Gold presents
compelling evidence for inorganic oil formation. He notes that geologic
structures where oil is found all correspond to "deep earth"
formations, not
the haphazard depositions we find with sedimentary rock, associated fossils
or even current surface life.
He also notes that oil extracted from varying depths from the same oil
field have the same chemistry - oil chemistry does not vary as fossils vary
with increasing depth. Also interesting is the fact that oil is found in
huge quantities among geographic formations where assays of prehistoric life
are not sufficient to produce the existing reservoirs of oil. Where then did
it come from?
Another interesting fact is that every oil field throughout the world
has outgassing helium. Helium is so often present in oil fields that helium
detectors are used as oil-prospecting tools. Helium is an inert gas known to
be a fundamental product of the radiological decay or uranium and thorium,
identified in quantity at great depths below the surface of the earth, 200
and more miles below. It is not found in meaningful quantities in areas that
are not producing methane, oil or natural gas. It is not a member of the
dozen or so common elements associated with life. It is found throughout the
solar system as a thoroughly inorganic product.
Even more intriguing is evidence that several oil reservoirs around
the globe are refilling themselves, such as the Eugene Island reservoir -
not from the sides, as would be expected from cocurrent organic reservoirs,
but from the bottom up.
Dr. Gold strongly believes that oil is a "renewable, primordial soup
continually manufactured by the Earth under ultrahot conditions and
tremendous pressures. As this substance migrates toward the surface, it is
attached by bacteria, making it appear to have an organic origin dating back
to the dinosaurs."
Smaller oil companies and innovative teams are using this theory to
justify deep oil drilling in Alaska and the Gulf of Mexico, among other
locations, with some success. Dr. Kenney is on record predicting that parts
of Siberia contain a deep reservoir of oil equal to or exceeding that
already discovered in the Middle East.
Could this be true?
In August 2002, in the "Proceedings of the National Academy of
Sciences (US)," Dr. Kenney published a paper, which had a partial title of
"The genesis of hydrocarbons and the origin of petroleum." Dr. Kenney
and
three Russian coauthors conclude:
The Hydrogen-Carbon system does not spontaneously evolve hydrocarbons
at pressures less than 30 Kbar, even in the most favorable environment. The
H-C system evolves hydrocarbons under pressures found in the mantle of the
Earth and at temperatures consistent with that environment.
He was quoted as stating that "competent physicists, chemists,
chemical engineers and men knowledgeable of thermodynamics have known that
natural petroleum does not evolve from biological materials since the last
quarter of the 19th century."
Deeply entrenched in our culture is the belief that at some point in
the relatively near future we will see the last working pump on the last
functioning oil well screech and rattle, and that will be that. The end of
the Age of Oil. And unless we find another source of cheap energy, the world
will rapidly become a much darker and dangerous place.
If Dr. Gold and Dr. Kenney are correct, this "the end of the world as
we know it" scenario simply won't happen. Think about it ... while not
inexhaustible, deep Earth reserves of inorganic crude oil and commercially
feasible extraction would provide the world with generations of low-cost
fuel. Dr. Gold has been quoted saying that current worldwide reserves of
crude oil could be off by a factor of over 100.
A Hedberg Conference, sponsored by the American Association of
Petroleum Geologists, was scheduled to discuss and publicly debate this
issue. Papers were solicited from interested academics and professionals.
The conference was scheduled to begin June 9, 2003, but was canceled at the
last minute. A new date has yet to be set.
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