Kola Superdeep Borehole

Kola Superdeep Borehole
Superstructure of the Kola Superdeep Borehole, 2007
Location
Kola Superdeep Borehole is located in Russia
Kola Superdeep Borehole
Kola Superdeep Borehole
Location of the borehole in Murmansk Oblast, Russia
Kola Superdeep Borehole is located in Murmansk Oblast
Kola Superdeep Borehole
Kola Superdeep Borehole
Kola Superdeep Borehole (Murmansk Oblast)
LocationPechengsky District
ProvinceMurmansk Oblast
CountryRussia
Coordinates69°23′47″N 30°36′36″E / 69.3965°N 30.6100°E / 69.3965; 30.6100
Production
TypeScientific borehole
Greatest depth12,262 metres (40,230 ft)
History
Opened1965
Active
  • 1970–1983
  • 1984
  • 1985–1992
Closed1995

The Kola Superdeep Borehole (Russian: Кольская сверхглубокая скважина, romanizedKol'skaya sverkhglubokaya skvazhina) SG-3 is the result of a scientific drilling project of the Soviet Union in the Pechengsky District, near the Russian border with Norway, on the Kola Peninsula. The project attempted to drill as deep as possible into the Earth's crust.

Drilling began on 24 May 1970 using the Uralmash-4E, and later the Uralmash-15000 series drilling rig, and it became the deepest manmade hole in history in 1979. The 23-centimetre-diameter (9 in) boreholes were drilled by branching from a central hole. The deepest reached 12,262 metres (40,230 ft; 7.619 mi) in 1989, the deepest human-made hole on Earth, and remains so as of 2024.

In terms of true vertical depth, it remains the deepest borehole in the world. For two decades, it was also the world's longest borehole in terms of measured depth along the well bore (that is, borehole length) until it was surpassed in 2008 by the 12,289-metre-long (40,318 ft; 7.636 mi) Al Shaheen Oil Well in Qatar.

Drilling

Kola Superdeep Borehole, commemorated on a 1987 USSR stamp

Drilling began on 24 May 1970 using the Uralmash-4E, a serial drilling rig used for drilling oil wells. The rig was slightly modified to be able to reach a 7,000-metre (23,000 ft) depth. In 1974, the new purpose-built Uralmash-15000 drilling rig was installed onsite, named after the new target depth, set at 15,000 metres (49,000 ft).

On 6 June 1979, the world depth record held by the Bertha Rogers hole in Washita County, Oklahoma, United States, at 9,583 metres (31,440 ft), was broken. In October 1982, the first hole reached 11,662 metres (38,261 ft), and the second hole was started in January 1983 from a 9,300-metre (30,500 ft) depth of the first hole.

In 1983, the drill passed 12,000 metres (39,000 ft) in the second hole, and drilling was stopped for about a year for numerous scientific and celebratory visits to the site.

This idle period may have contributed to a breakdown after drilling resumed; on 27 September 1984, after drilling to 12,066 metres (39,587 ft), a 5 metres (16 ft) section of the drill string twisted off and was left in the hole. Drilling was restarted in September 1986, 7,000 metres (23,000 ft) from the first hole.

The third hole reached 12,262 metres (40,230 ft) in 1989. In that year, the hole depth was expected to reach 13,500 metres (44,300 ft) by the end of 1990 and 15,000 metres (49,000 ft) by 1993.[failed verification]

In June 1990, a breakdown occurred in the third hole at 12,262 metres (40,230 ft) of depth. The drilling of the fourth hole was started in January 1991 from 9,653 metres (31,670 ft) of depth of third hole. The drilling of the fourth hole was stopped in April 1992 at 11,882 metres (38,983 ft) of depth. Drilling of the fifth hole started in April 1994 from 8,278 metres (27,159 ft) of depth of the third hole. Drilling was stopped in August 1994 at 8,578 metres (28,143 ft) of depth due to lack of funds and the well itself was mothballed.

During the drilling process, unexpectedly no basaltic layers were found at seven kilometers down or at any depth in the borehole. Prior to that, geological information about the Earth's crust was mostly based on analyzing seismic waves that indicated discontinuity. Scientific models had previously suggested basalt should be seen. Instead, the actual geological evidence from the borehole revealed there were more granites, and at much greater depths than scientists had considered. It was then thought by scientists that seismic discontinuity was caused by granite metamorphosis instead of basalts. In addition to this, water was unexpectedly found at three to six kilometers deep. Water was not naturally vaporizing at any depth in the borehole. Instead, water was found at these greater depths. Scientific models previously had not predicted water to be found at such great depths. It was discovered that deep granites can be fractured and receive water this deep. As a result of these findings, many scientists now theorize that aquifers of water can be found at much greater depths than older scientific models had previously thought possible.

Research

The Kola Superdeep Borehole penetrated about a third of the way through the Baltic Shield continental crust, estimated to be around 35 kilometres (22 mi) deep, reaching Archean rocks at the bottom. The project has been a site of extensive geophysical examinations. The stated areas of study were the deep structure of the Baltic Shield, seismic discontinuities and the thermal regime in the Earth's crust, the physical and chemical composition of the deep crust and the transition from upper to lower crust, lithospheric geophysics, and to create and develop technologies for deep geophysical study.

To scientists, one of the more fascinating findings to emerge from this well is that no transition from granite to basalt was found at the depth of about seven kilometres (4.3 mi), where the velocity of seismic waves has a discontinuity. Instead, the change in the seismic wave velocity is caused by a metamorphic transition in the granite rock. In addition, the rock at that depth had been thoroughly fractured and was saturated with water, which was surprising. This water, unlike surface water, must have come from deep-crust minerals and had been unable to reach the surface because of a layer of impermeable rock.

Microscopic plankton fossils were found six kilometres (3.7 mi) below the surface.

Another unexpected discovery was a large quantity of hydrogen gas. The drilling mud that flowed out of the hole was described as "boiling" with hydrogen.

In 1992, an international geophysical experiment obtained a reflection seismic crustal cross-section through the well. The Kola-92 working group consisted of researchers from the universities of Glasgow and Edinburgh in the United Kingdom, the University of Wyoming in the United States, and the University of Bergen in Norway, as well as several Russian earth science research institutions. The experiment was documented in a video recorded by Professor David Smythe, which shows the drilling deck in action during an attempt to recover a tool dropped down the hole.

Status

The borehole site in 2012
The borehole (welded shut), August 2012

The drilling terminated in 1995 due to a lack of funds. The scientific team was transferred to the federal state unitary subsidiary enterprise "Kola Superdeep", reduced and reoriented to a thorough study of the exposed section. In 2007, the scientific team was dissolved and the equipment was transferred to a private company and partially liquidated.

In 2008, the company was liquidated due to unprofitability, and the site was abandoned. The site is still visited by curious sightseers, who have reported that the structure over the borehole has been partially destroyed or removed.

Similar projects

Records

The Kola Superdeep Borehole was both the longest and deepest borehole in the world from 1989 to 2008. In May 2008, the Kola Superdeep Borehole's record length (but not record depth) was surpassed by a curved borehole of the extended reach drilling well BD-04A in the Al Shaheen Oil Field in Qatar, with a total length of 12,289 metres (40,318 ft) and a horizontal reach of 10,902 metres (35,768 ft). In terms of depth below the surface, the Kola Superdeep Borehole SG-3 retains the world record at 12,262 metres (40,230 ft) reached in 1989 and is still the deepest artificial point on Earth.

See also


This page was last updated at 2024-02-29 09:51 UTC. Update now. View original page.

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