Methane clathrate
Methane clathrate, also called methane hydrate or methane ice, is a solid clathrate compound (more specifically, a clathrate hydrate) in which a large amount of methane is trapped within the crystal structure of water ice. Originally thought to occur only in the outer regions of the Solar System where temperatures are low and water ice is common, significant deposits of methane clathrate have been found under sediments on the ocean floors of Earth.
Methane clathrates are common constituents of the shallow marine geosphere, and they occur both in deep sedimentary structures, and as outcrops on the ocean floor. Methane hydrates are believed to form by migration of gas from depth along geological faults, followed by precipitation, or crystallization, on contact of the rising gas stream with cold sea water. Methane clathrates are also present in deep Antarctic ice cores, and store a record of atmospheric methane concentrations, dating to 800,000 years ago.The ice-core methane clathrate record is a primary source of data for global warming research, along with oxygen and carbon dioxide.
While it is stable at a temperature of up to around 0°C, at higher pressures methane clathrates remain stable up to 18 °C. The average methane clathrate hydrate composition is 1 mole of methane for every 5.75 moles of water, though this is dependent on how many methane molecules "fit" into the various cage structures of the water lattice. The observed density is around 0.9 g/cm³. One liter of methane clathrate solid would therefore contain, on average, 168 liters of methane gas (at STP).
Methane forms a structure I hydrate with two dodecahedral (20 vertices, thus 20 water molecules) and six tetradecahedral (24 water molecules) water cages per unit cell. The hydration value of 20 can be determined experimentally by MAS NMR. A methane clathrate spectrum recorded at 275 K and 3.1 MPa shows a peak for each cage type and a separate peak for gas phase methane. Recently, a clay-methane hydrate intercalate was synthesized in which a methane hydrate complex was introduced at the interlayer of a sodium-rich montmorillonite clay. The upper temperature stability of this phase is similar to that of structure I hydrate
Natural deposits
Methane clathrates are restricted to the shallow lithosphere (i.e. < class="__mozilla-findbar-search" style="padding: 0pt; background- display: inline; "> Continental deposits have been located in Siberia and Alaska in sandstone and siltstone beds at less than 800 m depth. Oceanic deposits seem to be widespread in the continental shelf (see Fig.) and can occur within the sediments at depth or close to the sediment-water interface. They may cap even larger deposits of gaseous methane. Oceanic There are two distinct types of oceanic deposit. The most common is dominated (> 99%) by methane contained in a structure I clathrate and generally found at depth in the sediment. Here, the methane is isotopically light (δ13C < -60‰) which indicates that it is derived from the microbial reduction of CO2. The clathrates in these deep deposits are thought to have formed in-situ from the microbially-produced methane, as the δ13C values of clathrate and surrounding dissolved methane are similar. These deposits are located within a mid-depth zone around 300-500 m thick in the sediments (the Gas Hydrate Stability Zone, or GHSZ) where they coexist with methane dissolved in the pore-waters. Above this zone methane is only present in its dissolved form at concentrations that decrease towards the sediment surface. Below it, methane is gaseous. At Blake Ridge on the Atlantic continental rise, the GHSZ started at 190 m depth and continued to 450 m, where it reached equilibrium with the gaseous phase. Measurements indicated that methane occupied 0-9% by volume in the GHSZ, and ~12% in the gaseous zone. In the less common second type found near the sediment surface some samples have a higher proportion of longer-chain hydrocarbons (<99%>1 cm/kyr), the organic carbon content is low (>1% ), and oxygen is abundant, aerobic bacteria use up all the organic matter in the sediments. But where sedimentation rates and the organic carbon content are high, the pore waters in the sediments are anoxic at depths of only a few cm, and methane is produced by anaerobic bacteria. This production of methane is a rather complicated process, requires the activity of several varieties of bacteria, a reducing environment (Eh -350 to -450 mV), and a pH between 6 and 8. In some regions (e.g., Gulf of Mexico) methane in clathrates may be at least partially derived from thermal degradation of organic matter, dominantly in petroleum. The methane in clathrates typically has a bacterial isotopic signature and highly variable δ13C (-40 to -100‰), with an approximate average of about -65 ‰ . Below the zone of solid clathrates, large volumes of methane may occur as bubbles of free gas in the sediments.
The presence of clathrates at a given site can often be determined by observation of a "Bottom Simulating Reflector" (BSR), which is a seismic reflection at the sediment to clathrate stability zone interface caused by the unequal densities of normal sediments and those laced with clathrates.
Reservoir size
The size of the oceanic methane clathrate reservoir is poorly known, and estimates of its size decreased by roughly an order of magnitude per decade since it was first recognized that clathrates could exist in the oceans during the 1960s and 70s. The highest estimates (e.g. 3 × 1018 m³) were based on the assumption that fully dense clathrates could litter the entire floor of the deep ocean. However, improvements in our understanding of clathrate chemistry and sedimentology have revealed that hydrates only form in a narrow range of depths (continental shelves), only at some locations in the range of depths where they could occur (10-30% of the GHSZ), and typically are found at low concentrations (0.9-1.5% by volume) at sites where they do occur. Recent estimates constrained by direct sampling suggest the global inventory lies between 1 × 1015 and 5 × 1015 cubic metres (1 quadrillion to 5 quadrillion). This estimate, corresponding to 500-2500 gigatonnes carbon (Gt C), is smaller than the 5000 Gt C estimated for all other fossil fuel reserves but substantially larger than the ~230 Gt C estimated for other natural gas sources. The permafrost reservoir has been estimated at about 400 Gt C in the Arctic, but no estimates have been made of possible Antarctic reservoirs. These are large amounts. For comparison the total carbon in the atmosphere is around 700 gigatons.
These modern estimates are notably smaller than the 10,000 to 11,000 Gt C (2 × 1016 m³) proposed by previous workers as a motivation considering clathrates as a fossil fuel resource (MacDonald 1990, Kvenvolden 1998). Lower abundances of clathrates do not rule out their economic potential, but a lower total volume and apparently low concentration at most sites does suggests that only a limited percentage of clathrates deposits may provide an economically viable resource.
Continental
Methane clathrates in continental rocks are trapped in beds of sandstone or siltstone at depths of less than 800 m. Sampling indicates they are formed from a mix of thermally and microbially derived gas from which the heavier hydrocarbons were later selectively removed. These occur in Alaska, Siberia as well as Northern Canada.
In 2008, Canadian and Japanese researchers extracted a constant stream of natural gas from a test project at the Mallik gas hydrate field in the Mackenzie River delta. This was the second such drilling at Mallik: the first took place in 2002 and used heat to release methane. In the 2008 experiment, researchers were able to extract gas by lowering the pressure, without heating, requiring significantly less energy. The Mallik gas hydrate field was first discovered by Imperial Oil in 1971-1972.
Commercial use
The sedimentary methane hydrate reservoir probably contains 2–10× the currently known reserves of conventional natural gas. This represents a potentially important future source of hydrocarbon fuel. However, in the majority of sites deposits are likely to be too dispersed for economic extraction. Other problems facing commercial exploitation are detection of viable reserves; and development of the technology for extracting methane gas from the hydrate deposits. To date, there has only been one field commercially produced where some of the gas is thought to have been from methane clathrates, Messoyakha Gas Field, supplying the nearby Russian city of Norilsk.
A research and development project in Japan is aiming for commercial-scale extraction by 2016. In August 2006, China announced plans to spend 800 million yuan (US$100 million) over the next 10 years to study natural gas hydrates. A potentially economic reserve in the Gulf of Mexico may contain ~1010 m3 of gas. Bjørn Kvamme and Arne Graue at the Institute for Physics and technology at the University of Bergen have developed a method for injecting CO2 into hydrates and reversing the process; thereby extracting CH4 by direct exchange.
Hydrates in natural gas processing
Methane clathrates (hydrates) are also commonly formed during natural gas production operations, when liquid water is condensed in the presence of methane at high pressure. It is known that larger hydrocarbon molecules such as ethane and propane can also form hydrates, although as the molecule length increases (butanes, pentanes), they cannot fit into the water cage structure and tend to destabilise the formation of hydrates.
Once formed, hydrates can block pipeline and processing equipment. They are generally then removed by reducing the pressure, heating them, or dissolving them by chemical means (methanol is commonly used). Care must be taken to ensure that the removal of the hydrates is carefully controlled, because of the risk of massive increases in pressure as the methane is released, and the potential for the hydrate to let go with high velocity as it is exposed to a high pressure differential.
It is generally preferable to prevent hydrates from forming or blocking equipment. This is commonly achieved by removing water, or by the addition of ethylene glycol (MEG) or methanol, which act to depress the temperature at which hydrates will form (i.e. common antifreeze). In recent years, development of other forms of hydrate inhibitors have been developed, such as Kinetic Hydrate Inhibitors (which dramatically slow the rate of hydrate formation) and anti-agglomerates, which do not prevent hydrates forming, but do prevent them sticking together to block equipment.
Methane clathrates and climate change
Methane is a powerful greenhouse gas. Despite its short atmospheric half life of 7 years, methane has a global warming potential of 62 over 20 years and 21 over 100 years (IPCC, 1996; Berner and Berner, 1996; vanLoon and Duffy, 2000). The sudden release of large amounts of natural gas from methane clathrate deposits has been hypothesized as a cause of past and possibly future climate changes. Events possibly linked in this way are the Permian-Triassic extinction event, the Paleocene-Eocene Thermal Maximum.
Climate scientists such as James Hansen expect that methane clathrates in the permafrost regions will be released as a result of global warming, unleashing powerful feedback forces which may cause runaway climate change that cannot be controlled.
Recent research carried out in 2008 in the Siberian Arctic has shown millions of tons of methane being released with concentrations in some regions reaching up to 100 times above normal.
Natural gas hydrates (NGH) vs. liquified natural gas (LNG) in transportation
Since methane clathrates are stable at a higher temperature (−20 vs −162 °C) than LNG, there is some interest in converting natural gas into clathrates rather than liquifying it when transporting it by seagoing vessels. Accordingly, the production of NGH from NG at the terminal would require a smaller plant than LNG would.
Methane clathrates in popular fiction
The book Mother of Storms by John Barnes offers a fictional example of catastrophic climate change caused by methane clathrate release.
Another book is The Life Lottery by Ian Irvine, in which unprecedented seismic activity triggers a release of methane hydrate, reversing global cooling.
Clive Cussler's Fire Ice also mentions methane hydrate. It tells of how a Russian mining industrialist wants to detonate a bomb in three pockets off of the American coast creating large tsunamis. The intent was to swamp Boston, Charleston, and Miami.
In the anime Ergo Proxy, "the cascading release of methane hydrate" wipes out 85% of life on Earth. This suggests either an explosive event or the release of large quantities of methane from clathrates due to global warming.
In the German bestseller The Swarm (Der Schwarm), an undersea intelligence known as the Yrr heats methane hydrate deposits to cause tsunamis in the North Sea.
In the movie Stealth, high-end fighter planes use Pulse detonation engines which use methane hydrate as the fuel.
In The Great Sea Battle, an episode of Zoids: Guardian Force, the Ultrasaurus was able to fend off an attack from the Death Stinger by using depth charges to ignite an undersea pocket of methane hydrate.
In Detective Conan: Jolly Roger in the Deep Azure, an island by the name of Yorioyajima was said to have sunk to the bottom of the sea 300 years ago following an earthquake, which had separated the methane and water molecules of the methane hydrate holding the island up, forming the sea ruin which the story revolves around.
In the anime Code Geass R2, the protagonist uses a methane hydrate deposit to fend off a naval attack by the Empire of Brittania, capsizing the entire fleet.
The novel The Far Shore of Time by Frederik Pohl features an alien race attempting to destroy humanity by bombing the methane clathrate reserves, thus releasing the gas into the atmosphere.
The Namco PS2 video game Death By Degrees revolves around an underground organization called KOMETA. Their intended super weapon was a satellite that could heat up the Methane Hydrate in the ocean (particularly in the Bermuda Triangle). The result is bubbling which causes ships to lose their buoyancy. The weapon thus has the power to destroy naval vehicles from afar, sinking them to the bottom of the sea.
In Stephen Baxter's novel Transcendent, part of the plot revolves around attempts to prevent a massive methane clathrate burst that would cause mass extinctions via a subsurface refrigeration system.
In Charles Stross's novel The Jennifer Morgue, the Bermuda Triangle is caused by Deep Ones releasing methane clathrate to prevent human ships from intruding over their settlements.
From http://en.wikipedia.org/
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