Kola deep well. Where is the deepest oil well? Ultra-deep wells located on the territory of the former USSR
Today, the scientific research of mankind has reached the boundaries of the solar system: we landed spacecraft to the planets, their satellites, asteroids, comets, sent missions to the Kuiper belt and crossed the border of the heliopause. With the help of telescopes, we see events that took place 13 billion years ago - when the universe was only a few hundred million years old. Against this background, it is interesting to assess how well we know our Earth. The best way to get to know her internal structure- drill a well: the deeper, the better. The deepest well on Earth is the Kola Superdeep, or SG-3. In 1990, its depth reached 12 kilometers 262 meters. If we compare this figure with the radius of our planet, it turns out that this is only 0.2 percent of the way to the center of the Earth. But even this turned out to be enough to turn the idea of \u200b\u200bthe structure earth's crust.
If you imagine a well as a shaft through which you can go down by elevator into the very bowels of the earth, or at least a couple of kilometers, then this is not at all the case. The diameter of the drilling tool with which the engineers created the well was only 21.4 centimeters. The upper two-kilometer section of the well is a little wider - it was expanded to 39.4 centimeters, but still there is no way for a person to get there. To imagine the proportions of the well, the best analogy would be a 57-meter sewing needle with a diameter of 1 millimeter, slightly thicker at one end.
Well layout
But this presentation will be simplified. During drilling, several accidents occurred at the well - part of the drill string ended up underground without the possibility of extracting it. Therefore, several times the well was started anew, from the marks of seven and nine kilometers. There are four major branches and about a dozen smaller ones. The main branches have different maximum depths: two of them cross the mark of 12 kilometers, two more do not reach it by only 200-400 meters. Note that the depth of the Mariana Trench is one kilometer less - 10,994 meters relative to sea level.
Horizontal (left) and vertical projections of SG-3 trajectories
Yu.N. Yakovlev et al. / Bulletin of Kolsky scientific center RAS, 2014
Moreover, it would be a mistake to perceive the well as a plumb line. Due to the fact that at different depths the rocks have different mechanical properties, the drill during the work deviated to less dense areas. Therefore, on a large scale, the profile of the Kola Superdeep looks like a slightly curved wire with several branches.
Approaching the well today, we will see only the upper part - a metal hatch screwed to the mouth with twelve massive bolts. The inscription on it was made with a mistake, the correct depth is 12,262 meters.
How was a deep well drilled?
To begin with, it should be noted that the SG-3 was originally conceived specifically for scientific purposes. The researchers chose to drill a place where ancient rocks came to the surface of the earth - up to three billion years old. One of the arguments in the exploration was that the young sedimentary rocks were well studied during oil production, and no one had yet drilled deep into the ancient layers. In addition, there were also large copper-nickel deposits, the exploration of which would be a useful addition to the scientific mission of the well.
Drilling began in 1970. The first part of the well was drilled with a Uralmash-4E serial rig - it was usually used for drilling oil wells. The modification of the installation made it possible to reach a depth of 7 kilometers 263 meters. It took four years. Then the installation was changed to "Uralmash-15000", named after the planned depth of the well - 15 kilometers. The new drilling rig was designed specifically for the Kola Superdeep: drilling at such great depths required a serious refinement of equipment and materials. For example, the weight of the drill string alone at a 15-kilometer depth reached 200 tons. The installation itself could lift loads up to 400 tons.
The drill string consists of pipes connected to each other. With its help, engineers lower the drilling tool to the bottom of the well, and it also ensures its operation. At the end of the column, special 46-meter turbodrills were installed, driven by a stream of water from the surface. They made it possible to rotate the rock crushing tool separately from the entire column.
The bits with which the drill string cut into the granite evoke associations with futuristic details from the robot - several spinning spiked disks connected to the turbine from above. One such bit was enough for only four hours of work - this roughly corresponds to a passage of 7-10 meters, after which the entire drill string must be raised, disassembled and then lowered again. Constant descents and ascents themselves took up to 8 hours.
Even the pipes for the column in the Kola Superdeep had to use unusual ones. At depth, temperature and pressure gradually increase, and, as engineers say, at temperatures above 150-160 degrees, the steel of serial pipes softens and holds multi-ton loads worse - because of this, the likelihood of dangerous deformations and breakage of the column increases. Therefore, the developers chose lighter and heat-resistant aluminum alloys. Each of the pipes had a length of about 33 meters and a diameter of about 20 centimeters - a little narrower than the well itself.
However, even specially designed materials could not withstand drilling conditions. After the first seven-kilometer section, it took almost ten years and more than 50 kilometers of pipes to further drill to the mark of 12,000 meters. Engineers were faced with the fact that below seven kilometers the rocks became less dense and fractured - viscous for the drill. In addition, the wellbore itself distorted its shape and became elliptical. As a result, the string broke off several times, and, unable to lift it back, the engineers were forced to concrete the well branch and go through the wellbore again, wasting years of work.
One of these major accidents forced drillers in 1984 to concrete a well branch that reached a depth of 12,066 meters. Drilling had to be restarted from the 7-kilometer mark. This was preceded by a pause in work with the well - at that moment the existence of SG-3 was declassified, and the international geological congress Geoexpo was held in Moscow, the delegates of which visited the object.
According to eyewitnesses of the accident, after the resumption of work, the column drilled a well nine meters down. After four hours of drilling, the workers prepared to lift the column back, but it "did not go." The drillers decided that the pipe somewhere "stuck" to the walls of the well, and increased the lifting power. The workload has been drastically reduced. Gradually disassembling the string into 33-meter candles, the workers reached the next segment, ending with an uneven lower edge: the turbodrill and another five kilometers of pipes remained in the well, they could not be lifted.
The drillers managed to reach the 12-kilometer mark again only by 1990, at the same time the dive record was set - 12,262 meters. Then there was a new accident, and since 1994, work on the well was stopped.
The scientific mission of the ultra-deep
Pattern of seismic tests on SG-3
"Kola superdeep" Ministry of Geology of the USSR, publishing house "Nedra", 1984
The well was investigated by a whole range of geological and geophysical methods, ranging from core collection (a column of rocks corresponding to given depths) and ending with radiation and seismological measurements. For example, the core was taken using core receivers with special drills - they look like pipes with jagged edges. In the center of these pipes there are 6-7 centimeter holes where the rock enters.
But even with this seemingly simple (except for the need to lift this core from many kilometers deep) technique, difficulties arose. Due to the drilling fluid - the same one that set the drill in motion - the core was saturated with liquid and changed its properties. In addition, conditions in depth and on the surface of the earth are very different - the samples cracked from the pressure difference.
At different depths, the core yield was very different. If at five kilometers from a 100-meter segment it was possible to count on 30 centimeters of core, then at depths of more than nine kilometers, instead of a column of rocks, geologists received a set of washers from dense rock.
Micrograph of rocks raised from a depth of 8028 meters
"Kola superdeep" Ministry of Geology of the USSR, publishing house "Nedra", 1984
Studies of the material lifted from the well led to several important conclusions. First, the structure of the earth's crust cannot be simplified to a composition of several layers. This was previously indicated by seismological data - geophysicists saw waves that seemed to be reflected from a smooth boundary. Studies at SG-3 have shown that such visibility can also occur with a complex distribution of rocks.
This assumption affected the design of the well - scientists expected that at a depth of seven kilometers the shaft would enter basalt rocks, but they did not meet at the 12-kilometer mark either. But instead of basalt, geologists discovered rocks that had a large number of cracks and low density, which could not be expected at all from many kilometers of depth. Moreover, traces of groundwater were found in the cracks - it was even suggested that they were formed by a direct reaction of oxygen and hydrogen in the thickness of the Earth.
Among scientific results applied ones were also found - for example, at shallow depths, geologists found a horizon of copper-nickel ores suitable for mining. And at a depth of 9.5 kilometers, a layer of a geochemical anomaly of gold was discovered - micrometer grains of native gold were present in the rock. Concentrations reached gram per ton of rock. However, it is unlikely that mining from such a depth will ever be profitable. But the very existence and properties of the gold-bearing layer made it possible to clarify the models of the evolution of minerals - petrogenesis.
Separately, it is necessary to talk about the studies of temperature gradients and radiation. For such experiments, downhole instruments are used, which are lowered on wire-cables. The big problem was to ensure their synchronization with ground equipment, as well as to ensure operation at great depths. For example, difficulties arose with the fact that the cables, with a length of 12 kilometers, were stretched by about 20 meters, which could greatly reduce the accuracy of the data. To avoid this, geophysicists had to create new methods for marking distances.
Most of the commercial tools were not designed to work in the harsh conditions of the lower tiers of the well. Therefore, for research at great depths, scientists used equipment designed specifically for the Kola Superdeep.
The most important result of geothermal research is much higher temperature gradients than expected to be seen. Near the surface, the rate of temperature increase was 11 degrees per kilometer, to a depth of two kilometers - 14 degrees per kilometer. In the interval from 2.2 to 7.5 kilometers, the temperature rose at a rate approaching 24 degrees per kilometer, although existing models predicted a value one and a half times less. As a result, already at a depth of five kilometers, the instruments recorded a temperature of 70 degrees Celsius, and by 12 kilometers this value reached 220 degrees Celsius.
The Kola super-deep well turned out to be unlike other wells - for example, when analyzing the heat release of the rocks of the Ukrainian crystalline shield and Sierra Nevada batholiths, geologists showed that heat release decreases with depth. In SG-3, on the contrary, it grew. Moreover, measurements have shown that the main source of heat, providing 45-55 percent of the heat flow, is the decay of radioactive elements.
Despite the fact that the depth of the well seems colossal, it does not reach even a third of the thickness of the earth's crust in the Baltic Shield. Geologists estimate that the base of the earth's crust in this area runs about 40 kilometers underground. Therefore, even if SG-3 had reached the planned 15-kilometer cutoff, we still would not have reached the mantle.
Such an ambitious task was set by American scientists when developing the Mohol project. Geologists planned to reach the border of Mohorovicic - an underground area where abrupt change propagation speed of sound waves. It is believed to be related to the boundary between the crust and the mantle. It is worth noting that the drillers chose the bottom of the ocean near the island of Guadalupe as a place for the well - the distance to the border was only a few kilometers. However, the depth of the ocean itself reached 3.5 kilometers here, which significantly complicated drilling work. The first tests in the 1960s allowed geologists to drill holes only 183 meters.
Plans were recently made to revive the deep ocean drilling project with the help of the exploration drilling vessel JOIDES Resolution. As new goal geologists chose a point in the Indian Ocean, not far from Africa. The depth of the Mohorovichic border there is only about 2.5 kilometers. In December 2015 - January 2016, geologists managed to drill a well with a depth of 789 meters - the fifth largest in the world of underwater wells. But this value is only half of what was required at the first stage. However, the team plans to return and complete what they started.
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0.2 percent of the path to the center of the Earth is not such an impressive figure compared to the scale of space travel. However, it should be borne in mind that the boundary of the solar system does not pass along the orbit of Neptune (or even the Kuiper belt). The gravity of the Sun prevails over the stellar one up to distances of two light years from the star. So if you carefully calculate everything, it turns out that Voyager 2 also flew only a tenth of a percent of the path to the outskirts of our system.
Therefore, do not be upset by how little we know the "insides" of our own planet. Geologists have their own telescopes - seismic research - and their own ambitious plans to conquer the bowels. And if astronomers have already managed to touch a solid part of celestial bodies in solar system, then geologists have all the most interesting things yet to come.
Vladimir Korolev
In 1970, just in time for Lenin's 100th birthday, Soviet scientists launched one of the most ambitious projects of our time. On the Kola Peninsula, ten kilometers from the village of Zapolyarny, drilling of a well began, which as a result turned out to be the deepest in the world and entered the Guinness Book of Records.
Grandiose science project walked for over twenty years. He brought a lot of interesting discoveries, went down in the history of science, and in the end was overgrown with so many legends, rumors and gossip that would be enough for more than one horror movie.
entrance to hell
During its heyday, the drilling rig on the Kola Peninsula was a cyclopean structure 20-story high. Up to three thousand people worked here per shift. The team was led by leading geologists of the country. The drilling rig was built in the tundra ten kilometers from the village of Zapolyarny, and in the polar night it shone with lights like a spaceship.
When all this splendor suddenly closed and the lights went out, rumors immediately spread. By all measures, the drilling was remarkably successful. No one in the world has yet managed to reach such a depth - Soviet geologists lowered the drill more than 12 kilometers.
The sudden end of a successful project looked as ridiculous as the fact that the Americans closed the program of flights to the moon. Aliens were blamed for the collapse of the lunar project. In the problems of the Kola Superdeep - devils and demons.
© vk.com
A popular legend says that from great depths, the drill was repeatedly taken out melted. There were no physical reasons for this - the temperature underground did not exceed 200 degrees Celsius, and the drill was designed for a thousand degrees. Then the audio sensors allegedly began to pick up some moans, screams and sighs. Dispatchers who monitored the instrument readings complained of feelings of panic fear and anxiety.
According to legend, it turned out that geologists had drilled to hell. The groans of sinners, extremely high temperatures, the atmosphere of horror at the drilling rig - all this explained why all work on the Kola Superdeep was suddenly curtailed.
Many were skeptical about these rumors. However, in 1995, after the work was stopped, a powerful explosion occurred at the drilling rig. Nobody understood what could explode there, even the head of the entire project, a prominent geologist David Guberman.
Today, excursions are led to an abandoned drilling rig and they tell tourists a fascinating story about how scientists drilled a hole into the underworld of the dead. As moaning ghosts roam the installation, and in the evening demons crawl out to the surface and strive to sneak into the abyss of a gaping extreme seeker.
© wikimedia.org
underground moon
In fact, the whole story with the “well to hell” was invented by Finnish journalists by April 1st. Their comic article was reprinted by American newspapers, and the duck flew to the masses. Long-term drilling of the Kola superdeep proceeded without any mysticism. But what happened there in reality was more interesting than any legends.
To begin with, ultra-deep drilling by definition was doomed to numerous accidents. Under the yoke of gigantic pressure (up to 1000 atmospheres) and high temperatures, the drills could not withstand, the well was clogged, the pipes that strengthened the vent were broken. Countless times the narrow well was bent so that new branches had to be drilled.
The worst accident occurred shortly after the main triumph of geologists. In 1982, they were able to overcome the mark of 12 kilometers. These results were solemnly announced in Moscow at the International Geological Congress. Geologists from all over the world were brought to the Kola Peninsula, they were shown a drilling rig and rock samples mined at a fantastic depth that mankind had never reached before.
© youtube.com
After the celebration, drilling continued. However, the break in work proved fatal. In 1984, the most terrible accident occurred at the drilling rig. As many as five kilometers of pipes came off and hammered the well. It was impossible to continue drilling. The results of five years of work were lost overnight.
I had to resume drilling from the 7-kilometer mark. Only in 1990, geologists again managed to cross over 12 kilometers. 12,262 meters - this is the final depth of the Kola well.
But in parallel with the terrible accidents, incredible discoveries also followed. Deep drilling is an analogue of a time machine. On the Kola Peninsula, the oldest rocks, whose age exceeds 3 billion years, come to the surface. Climbing deeper and deeper, scientists have gained a clear idea of what happened on our planet during its youth.
First of all, it turned out that the traditional scheme of the geological section, compiled by scientists, does not correspond to reality. “Up to 4 kilometers, everything went according to theory, and then the doomsday began,” Huberman later said.
According to calculations, having drilled a layer of granite, it was supposed to get to even harder, basalt rocks. But there was no basalt. After the granite came loose layered rocks, which constantly crumbled and made it difficult to move inland.
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But among the rocks 2.8 billion years old, fossilized microorganisms were found. This made it possible to clarify the time of the origin of life on Earth. Huge deposits of methane have been found at even greater depths. This clarified the question of the origin of hydrocarbons - oil and gas.
And at a depth of more than 9 kilometers, scientists discovered a gold-bearing olivine layer, so vividly described by Alexei Tolstoy in the Hyperboloid of Engineer Garin.
But the most fantastic discovery occurred in the late 1970s, when the Soviet lunar station brought samples of lunar soil. Geologists were amazed to see that its composition completely coincides with the composition of the rocks they mined at a depth of 3 kilometers. How was it possible?
The fact is that one of the hypotheses of the origin of the Moon suggests that several billion years ago, the Earth collided with some kind of celestial body. As a result of the collision, a piece broke off from our planet and turned into a satellite. It is possible that this piece came off in the area of the current Kola Peninsula.
© vk.com
The final
So why did they close the Kola Superdeep?
Firstly, the main tasks of the scientific expedition were completed. Unique equipment for drilling at great depths was created, tested under extreme conditions and noticeably improved. The collected rock samples were studied and described in detail. The Kola well helped to better understand the structure of the earth's crust and the history of our planet.
Secondly, time itself was not conducive to such ambitious projects. In 1992, the scientific expedition was closed funding. Employees quit and went home. But even today, the grandiose building of the drilling rig and the mysterious well impress with their scale.
Sometimes it seems that the Kola Superdeep has not yet exhausted the entire supply of its miracles. The head of the famous project was also sure of this. “We have the deepest hole in the world - this is how you should use it!” exclaimed David Huberman.
At a depth of 410-660 kilometers below the surface of the Earth, the ocean of the Archean period. Such discoveries would not have been possible without the ultra-deep drilling methods developed and used in the Soviet Union. One of the artifacts of those times is the Kola super-deep well (SG-3), which, even 24 years after the cessation of drilling, remains the deepest in the world. Why it was drilled and what discoveries it helped to make, says Lenta.ru.
The pioneers of ultra-deep drilling were the Americans. True, in the vastness of the ocean: in a pilot project, they involved the ship Glomar Challenger, designed just for this purpose. In the meantime, the corresponding theoretical base was being actively developed in the Soviet Union.
In May 1970, in the north of the Murmansk region, 10 kilometers from the city of Zapolyarny, drilling began on the Kola superdeep well. As expected, this was timed to coincide with the centenary of the birth of Lenin. Unlike other ultra-deep wells, SG-3 was drilled exclusively for scientific purposes and even organized a special exploration expedition.
The drilling site was unique: it is on the Baltic Shield in the Kola Peninsula region that ancient rocks come to the surface. Many of them are three billion years old (our planet itself is 4.5 billion years old). In addition, here the Pechenga-Imandra-Varzug rift trough is a cup-like structure pressed into ancient rocks, the origin of which is explained by a deep fault.
It took scientists four years to drill a well to a depth of 7263 meters. So far, nothing unusual has been done: the same installation was used as in the extraction of oil and gas. Then the well stood idle for a whole year: the installation was modified for turbine drilling. After the upgrade, it was possible to drill about 60 meters per month.
A depth of seven kilometers brought surprises: the alternation of hard and not very dense rocks. Accidents have become more frequent, and many caverns have appeared in the wellbore. Drilling continued until 1983, when the depth of SG-3 reached 12 kilometers. After that, the scientists gathered a large conference and talked about their successes.
However, due to careless handling of the drill, a five-kilometer section remained in the mine. For several months they tried to get it, but did not succeed. It was decided to start drilling again from a depth of seven kilometers. Due to the complexity of the operation, not only the main shaft was drilled, but also four additional ones. It took six years to restore the lost meters: in 1990, the well reached a depth of 12,262 meters, becoming the deepest in the world.
Two years later, drilling was stopped, subsequently the well was mothballed, but in fact it was abandoned.
Nevertheless, many discoveries were made at the Kola superdeep well. Engineers have created a whole system of ultra-deep drilling. The difficulty was not only in depth, but also in high temperatures (up to 200 degrees Celsius) due to the intensity of the work of the drills.
Scientists not only moved deep into the Earth, but also raised rock samples and cores for analysis. By the way, it was they who studied the lunar soil and found out that its composition almost completely corresponds to the rocks extracted from the Kola well from a depth of about three kilometers.
At a depth of more than nine kilometers, they found deposits of minerals, including gold: in the olivine layer it is as much as 78 grams per ton. And this is not so little - gold mining is considered possible at 34 grams per ton. A pleasant surprise for scientists, as well as for the nearby plant, was the discovery of a new ore horizon of copper-nickel ores.
Among other things, the researchers learned that granites do not pass into a super-strong basalt layer: in fact, Archean gneisses, which are traditionally classified as fractured rocks, were located behind it. This made a kind of revolution in geological and geophysical science and completely changed the traditional ideas about the bowels of the Earth.
Another pleasant surprise is the discovery at a depth of 9-12 kilometers of highly porous fractured rocks saturated with highly mineralized waters. According to the assumption of scientists, it is they who are responsible for the formation of ores, but before it was believed that this occurs only at much shallower depths.
Among other things, it turned out that the temperature of the bowels is slightly higher than expected: at a depth of six kilometers, a temperature gradient of 20 degrees Celsius per kilometer was obtained instead of 16 expected. The radiogenic origin of the heat flux was established, which also did not agree with previous hypotheses.
In the deep layers more than 2.8 billion years old, scientists have found 14 types of petrified microorganisms. This made it possible to shift the time of the origin of life on the planet by one and a half billion years ago. The researchers also found that there are no sedimentary rocks at the depths and there is methane, forever burying the theory of the biological origin of hydrocarbons.
Back in 1990, in the southern part of Germany, a group of scientists decided to look into the bowels of our planet at the junction of two tectonic plates that collided more than 300 million years ago when the continent was formed. The final goal of the scientists was to drill one of the deepest wells in the world up to 10 km.
Initially, it was assumed that the well would become a kind of "telescope", which would provide an opportunity to learn more about the bowels of our planet and try to learn about the Earth's core. The drilling process took place as part of the Continental Deep Drilling program and lasted until October 1994, when, due to financial problems the program had to be cancelled.
The well was named Kontinentales Tiefbohrprogramm der Bundesrepublik, abbreviated as KTB, and by the time the program was closed, it had been drilled for more than 9 km, which did not add enthusiasm to the scientists. The drilling process itself was not going to be easy. For 4 years, scientists, engineers and workers had to face a whole bunch of difficult situations and rather difficult tasks. So, for example, the drill had to pass through rocks heated to a temperature of about 300 degrees Celsius, but even under such conditions, the drillers still coped by cooling the well with liquid hydrogen.
However, despite the fact that the program was curtailed, scientific experiments were not stopped and were carried out until the end of 1995, and it should be noted that they were not carried out in vain. During this time, it was possible to discover new, rather unexpected facts about the structure of our planet, new temperature distribution maps were compiled and data on the distribution of seismic pressure were obtained, which made it possible to create models of the layered structure of the upper part of the Earth's surface.
However, the scientists saved the most interesting for last. The Dutch scientist Lott Given, who, together with acoustic engineers and scientists from the Research Center for Geophysical Research (Germany), did what many dreamed of - almost in the truest sense of the word, he "heard the heartbeat" of the Earth. To do this, he and his team needed to make acoustic measurements, with which the research team recreated the sounds that we could hear at a depth of 9 kilometers. However, now you can hear these sounds too.
Despite the fact that KTB is currently considered the deepest well in the world, there are several such wells, which, however, have already been sealed. And among them, a well stands out, which during its existence has managed to acquire legends, this is the Kola super-deep well-well, better known as the "Road to Hell". Unlike other competitors of KTB, the Kola well reached 12.2 km in depth and was considered the deepest well in the world.
Its drilling began in 1970 in the Murmansk region ( Soviet Union, now the Russian Federation), 10 kilometers west of the city of Zapolyarny. During drilling, the well experienced several accidents, as a result of which the workers had to concrete the well and start drilling from a much shallower depth and at a different angle. It is interesting that it is precisely with a series of accidents and failures that haunt the group that the reason for the emergence of the legend that the well was drilled to the very, that neither is real Hell is associated.
As the text of the legend says, after passing the milestone of 12 km, scientists, using microphones, managed to hear the sounds of screams. However, we decided to continue drilling and during the passage of the next mark (14 km), we suddenly stumbled upon voids. After the scientists lowered the microphones, they heard the cries and groans of men and women. And after some time, an accident occurred, after which it was decided to stop drilling work
And, despite the fact that the accident really happened, the scientists did not hear any screams of people, and all the talk about demons is nothing more than fiction, said David Mironovich Guberman, one of the authors of the project, under whose leadership the drilling of the well took place.
After another accident in 1990, upon reaching a depth of 12,262 meters, drilling was completed, and in 2008, the project was abandoned, and the equipment was dismantled. Two years later, in 2010, the well was mothballed.
It should be noted that such projects as drilling wells such as KTV and Kola are currently the only way and opportunity for geologists to study the bowels of the planet.
The deepest well in the world is located on the Kola Peninsula near the city of Zapolyarny (Murmansk region); its length will be 12 kilometers 262 meters, which is an absolute world record. In 1997, the Kola Superdeep was listed in the Guinness Book of Records, but by that time she herself was no longer working: drilling was stopped in 1992, the well was mothballed, and what was left of the drilling rig was abandoned to the mercy of fate and actually plundered.
However, over the years of drilling, Soviet scientists managed to make many discoveries that related to the composition of the earth's crust and shed light on some scientific issues.
Preparatory work
The main task of drilling the well was to reach the Earth's mantle, which supposedly should consist of molten rocks. To do this, they decided to drill in the place of the Pecheneg trough of the Baltic Shield in the north-west of the East European Platform - one of the most ancient formations on the planet. According to scientists, the age of the rocks emerging here on the surface was at least three billion years. The main task of drilling was to identify the features of the shield and determine the boundaries between the layers of the earth's crust.
A unique team of Soviet scientists was created to create the well; up to 3,000 specialists and 16 research laboratories worked simultaneously at the well. The Soviet scientist David Mironovich Guberman became the head of the Kola superdeep field, Aleksey Batishchev became the head of the drilling rig, Ivan Vasilchenko became the chief engineer, the team of geologists included famous geologists Yuri Kuznetsov, Yuri Smirnov and Vladimir Lanev.
Drilling
Throughout 1970, drilling was carried out with a conventional drilling rig, then work had to be stopped, and a well was built at the site. new installation"Uralmash-15000, designed for deep drilling.
This drilling rig was a tower the size of a twenty-story building, sheathed with plywood sheets on top - otherwise it was impossible to work in winter. Soviet scientists used turbine drilling, a method in which only the drill bit rotates inside the well under the pressure of the incoming fluid.
It took only about four hours a day to drill at great depths - the rest of the time was spent lifting pipes to the surface to extract cores. During this time, the drill managed to pass from seven to ten meters of rock. It took the drillers four years to cover the first seven kilometers.
The twelve-kilometer mark was already passed in 1983, after which the work was suspended - the Moscow International Geological Congress was approaching, at which the discoveries made at the well were demonstrated.
Drilling was continued in 1984, but it turned out that a deep well cannot be left unattended for a long time - changes are taking place in its structure. The accident that threw Soviet geologists to the mark of seven kilometers occurred on the very first sinking on September 27, 1984: a 200-ton column broke. Everything below seven kilometers was lost. For almost a year, geologists tried to get the pipes, but then they recognized this as impossible and began to drill a bypass shaft. The main difficulty was that from a depth of nine kilometers, core extraction became difficult - the rock crumbled and only the most durable “plaques” remained inside the pipes.
The maximum depth was reached six years later - in 1990. The pressure at this depth was 1,000 atmospheres. After that, I had to admit that the capabilities of the equipment are limited and, after several accidents, the work was curtailed.
First, it turned out that the temperature in the depths of the earth's crust is completely different from what scientists expected, who believed that it would be low to a depth of 15 kilometers. It turned out that at a depth of five kilometers it is 75 degrees Celsius, at seven it reaches 120 degrees, and at a depth of 12 kilometers it reaches 220 degrees.
Secondly, Soviet science believed that older basalts should follow younger granites. This theory has been debunked. The grant layer turned out to be several times thicker than expected, and under it lay less durable fractured rocks - Archean gneisses (Archean is a geological period that lasted from 4,000,0000 years ago to 2,500,000 years ago).
At a depth of nine to 12 kilometers, they found deep aquifers that were not expected to be found at all.
At a depth of 1.5–2 kilometers, an ore horizon was discovered - rocks rich in rare earth metals.
The olivine belt of the planet was also found, the existence of which was hypothesized at the beginning of the 20th century by the famous geologist Vladimir Afanasyevich Obruchev. It was found deeper than nine kilometers, it turned out. that it contains a concentration of gold suitable for mining.
It was discovered that rock samples at a depth of three kilometers are fully consistent lunar soil, which confirms the theory that the Moon at one time, under the influence of an asteroid impact, could break away from the Earth.
A little bit of devilry
Superstitious people associate many legends with the Kola Superdeep. Some say that it was closed because Soviet scientists allegedly got to hell, others say that demons come out of it at night, others claim that voices of people tormented in the underworld can be heard from it.
In fact, all these are echoes of the publication of one Finnish newspaper, which just joked by releasing an article about the well on April 1st. However, as often happens, one of the American television companies picked up the joke, perhaps taking it for the truth, or perhaps deciding to scare their listeners with “terrible Russians”, after which rumors about the devilry going on in the well scattered around the world.
Of course, it was hard to work on the Kola Superdeep, the high temperature at depth and the enormous pressure created many emergencies. However, scientists assure that there was no devilry. It was difficult, often routine work.
