LNG Carrier
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An LNG carrier is a
tank ship A tanker (or tank ship or tankship) is a ship designed to transport or store liquids or gases in bulk. Major types of tankship include the oil tanker, the chemical tanker, and gas carrier. Tankers also carry commodities such as vegetable oils ...
designed for transporting
liquefied natural gas Liquefied natural gas (LNG) is natural gas (predominantly methane, CH4, with some mixture of ethane, C2H6) that has been cooled down to liquid form for ease and safety of non-pressurized storage or transport. It takes up about 1/600th the volu ...
(LNG).


History

The first LNG carrier ''
Methane Pioneer ''Methane Pioneer'' was the first oceangoing liquified natural gas tanker in the world. Built in 1945 as a cargo ship named ''Marline Hitch'', the vessel was renamed ''Don Aurelio'' and ''Nomarti'' before being rebuilt in 1958 for the purpose ...
'' () carrying , classed by Bureau Veritas, left the Calcasieu River on the Louisiana Gulf coast on 25 January 1959. Carrying the world's first ocean cargo of LNG, it sailed to the UK where the cargo was delivered. Subsequent expansion of that trade has brought on a large expansion of the fleet to today where giant LNG ships carrying up to are sailing worldwide. The success of the specially modified C1-M-AV1-type standard ship ''Normarti'', renamed ''Methane Pioneer'', caused the Gas Council and Conch International Methane Ltd. to order two purpose built LNG carriers to be constructed: ''
Methane Princess ''Methane Princess'' and ''Methane Progress'' were the first purpose-built LNG carriers, entering service in 1964 and used to transport natural gas from Algeria to the UK. ''Methane Princess'' was built at the Vickers-Armstrongs, Vickers shipyar ...
'' and ''Methane Progress''. The ships were fitted with Conch independent aluminum cargo tanks and entered the Algerian LNG trade in 1964. These ships had a capacity of . In the late 1960s, opportunity arose to export LNG from
Alaska Alaska ( ; russian: Аляска, Alyaska; ale, Alax̂sxax̂; ; ems, Alas'kaaq; Yup'ik: ''Alaskaq''; tli, Anáaski) is a state located in the Western United States on the northwest extremity of North America. A semi-exclave of the U.S., ...
to
Japan Japan ( ja, 日本, or , and formally , ''Nihonkoku'') is an island country in East Asia. It is situated in the northwest Pacific Ocean, and is bordered on the west by the Sea of Japan, while extending from the Sea of Okhotsk in the north ...
, and in 1969 that trade with
TEPCO , also known as or TEPCO, is a Japanese electric utility holding company servicing Japan's Kantō region, Yamanashi Prefecture, and the eastern portion of Shizuoka Prefecture. This area includes Tokyo. Its headquarters are located in Uchisaiw ...
and
Tokyo Gas , founded in 1885, is the primary provider of natural gas to the main cities of Tokyo, Kanagawa, Saitama, Chiba, Ibaraki, Tochigi, Gunma, Yamanashi, and Nagano. , Tokyo Gas is the largest natural gas utility in Japan. Timeline *October 1, ...
was initiated. Two ships, ''Polar Alaska'' and ''Arctic Tokyo'', each with a capacity of , were built in Sweden. In the early 1970s, the US government encouraged US shipyards to build LNG carriers, and a total of 16 LNG ships were built. The late 1970s and early 1980s brought the prospect of Arctic LNG ships with a number of projects being studied. With the increase in cargo capacity to approximately costing $250 million, new tank designs were developed, from Moss Rosenberg to Technigaz Mark III and Gaztransport No.96. The size and capacity of LNG carriers has increased significantly, to . A vessel could cost $200 million. Since 2005, Qatargas has pioneered the development of two new classes of LNG carriers, referred to as
Q-Flex Q-Flex is a type of ship, specifically a membrane type liquefied natural gas carrier. Technical description Q-Flex vessels are propelled by two slow speed diesel engines, which are claimed to be more efficient and environmentally friendly than t ...
and
Q-Max Q-Max is a type of ship, specifically a membrane type LNG carrier. In the name Q-Max, "Q" stands for Qatar and "Max" for the maximum size of ship able to dock at the Liquefied natural gas (LNG) terminals in Qatar. Ships of this type are the large ...
. Each ship has a cargo capacity of between and is equipped with a re-liquefaction plant. Today we see interest for small scale LNG bunker carriers. Some need to stay below the life rafts of Cruise ships and Ropax vessels. Examples are the Damen LGC 3000 and the Seagas. By 2005 a total of 203 vessels had been built, of which 193 were still in service. At the end of 2016, the global LNG shipping fleet consisted of 439 vessels. In 2017, an estimated 170 vessels are in use at any one time. At the end of 2018, the global fleet was approximately 550 vessels. In 2021—2022, an LNG shipment from USA to Europe could return a profit of $133—200 million. Shipping rates were $100,000 per day even for 5-year contracts, but can vary between $60,000—250,000.


New building

In 2021, 90 new LNG carriers were ordered. By 2022, high demand had shifted deliveries of new orders to 2027. In November 2018, South Korean ship builders locked in 3 years worth of large-scale LNG carrier contracts - more than 50 orders - with a value of $9 billion. South Korean builders captured 78% of LNG-related ship building contracts in 2018, with 14% going to Japanese builders and 8% going to Chinese builders. The new contracts would boost the global LNG fleet by 10%. Of the global fleet, historically, about two-thirds of the ships have been built by South Koreans, 22% by Japanese, 7% by Chinese, and the rest built by a combination of France, Spain, and the United States. South Korea's success stems from innovation and price point; South Korean builders introduced the first ice-breaker type LNG vessels and South Korean builders have been successful in catering to increased customer preference for Q-max vessels over Moss type. In 2018, South Korea's Hyundai Mipo Dockyard (HMD) delivered the world's first LNG-fueled bulk carrier. It has the world's largest capacity at 50,000 dwt. According to SIGTTO data, in 2019 there were 154 LNG carriers on order, and 584 operating LNG carriers. In 2017,
Daewoo Shipbuilding & Marine Engineering Daewoo Shipbuilding & Marine Engineering Co., Ltd ( ko, 대우조선해양; abbreviated DSME) is one of the "Big Three" shipbuilders of South Korea, along with Hyundai and Samsung. History On 21 February 2011, the A. P. Moller-Maersk Group (M ...
delivered the '' Christophe de Margerie'', an icebreaking LNG tanker of 80,200 deadweight tons. Her capacity of is the consumption of Sweden for a month. She completed her first revenue voyage from Norway via the
Northern Sea Route The Northern Sea Route (NSR) (russian: Се́верный морско́й путь, ''Severnyy morskoy put'', shortened to Севморпуть, ''Sevmorput'') is a shipping route officially defined by Russian legislation as lying east of Nov ...
in the Arctic Ocean to South Korea. The shipyard has fourteen more on order. In the case of small scale LNG carriers (LNG carriers below ), the optimal size of a ship is determined by the project for which it is built, taking into consideration volume, destination and vessel characteristics. List of small scale LNG carrier builders: *
Hanjin Heavy Industries and Construction HJ Shipbuilding & Construction Company, Ltd. (Korean: 주식회사 HJ중공업, Hanja: 株式會社HJ重工業), formerly Korea Shipbuilding & Engineering Corporation (Korean: 대한조선공사, Hanja: 大韓造船公社) and Hanjin Heavy Ind ...
* STX Offshore & Shipbuilding * Damen Shipyards Group


Cargo handling

A typical LNG carrier has four to six tanks located along the center-line of the vessel. Surrounding the tanks is a combination of
ballast tank A ballast tank is a compartment within a boat, ship or other floating structure that holds water, which is used as ballast to provide hydrostatic stability for a vessel, to reduce or control buoyancy, as in a submarine, to correct trim or list, ...
s,
cofferdams A cofferdam is an enclosure built within a body of water to allow the enclosed area to be pumped out. This pumping creates a dry working environment so that the work can be carried out safely. Cofferdams are commonly used for construction or re ...
and voids; in effect, this gives the vessel a double-hull type design. Inside each tank there are typically three submerged pumps. There are two main cargo pumps which are used in cargo discharge operations and a much smaller pump which is referred to as the spray pump. The spray pump is used for either pumping out liquid LNG to be used as fuel (via a vaporizer), or for cooling down cargo tanks. It can also be used for "stripping" out the last of the cargo in discharge operations. All of these pumps are contained within what is known as the pump tower which hangs from the top of the tank and runs the entire depth of the tank. The pump tower also contains the tank gauging system and the tank filling line, all of which are located near the bottom of the tank. In membrane-type vessels there is also an empty pipe with a spring-loaded foot valve that can be opened by weight or pressure. This is the emergency pump tower. In the event both main cargo pumps fail the top can be removed from this pipe and an emergency cargo pump lowered down to the bottom of the pipe. The top is replaced on the column and then the pump is allowed to push down on the foot valve and open it. The cargo can then be pumped out. All cargo pumps discharge into a common pipe which runs along the deck of the vessel; it branches off to either side of the vessel to the cargo manifolds, which are used for loading or discharging. All cargo tank vapour spaces are linked via a vapour header which runs parallel to the cargo header. This also has connections to the sides of the ship next to the loading and discharging manifolds.


Typical cargo cycle

A typical cargo cycle starts with the tanks in a "gas free" condition, meaning the tanks are full of air, which allows maintenance on the tank and pumps. Cargo cannot be loaded directly into the tank, as the presence of oxygen would create an explosive atmospheric condition within the tank, and the rapid temperature change caused by loading LNG at could damage the tanks. First, the tank must be 'inerted' to eliminate the risk of explosion. An inert gas plant burns diesel in air to produce a mixture of gases (typically less than 5% O2 and about 13% CO2 plus N2). This is blown into the tanks until the oxygen level is below 4%. Next, the vessel goes into port to "gas-up" and "cool-down", as one still cannot load directly into the tank: The CO2 will freeze and damage the pumps and the cold shock could damage the tank's pump column. LNG is brought onto the vessel and taken along the spray line to the main vaporiser, which boils off the liquid into gas. This is then warmed up to roughly in the gas heaters and then blown into the tanks to displace the "inert gas". This continues until all the CO2 is removed from the tanks. Initially, the IG (inert gas) is vented to atmosphere. Once the hydrocarbon content reaches 5% (lower flammability range of methane) the inert gas is redirected to shore via a pipeline and manifold connection by the HD (high duty) compressors. The shore terminal then burns this vapour to avoid the dangers of having large amounts of hydrocarbons present which may explode. Now the vessel is gassed up and warm. The tanks are still at ambient temperature and are full of methane. The next stage is cool-down. LNG is sprayed into the tanks via spray heads, which vaporises and starts to cool the tank. The excess gas is again blown ashore to be re-liquified or burned at a
flare stack A gas flare, alternatively known as a flare stack, flare boom, ground flare, or flare pit is a gas combustion device used in places such as petroleum refineries, chemical plants and natural gas processing plants, oil or gas extraction sites havi ...
. Once the tanks reach about the tanks are ready to bulk load. Bulk loading starts and liquid LNG is pumped from the storage tanks ashore into the vessel tanks. Displaced gas is blown ashore by the HD compressors. Loading continues until typically 98.5% full is reached (to allow for thermal expansion/contraction of cargo). The vessel can now proceed to the discharge port. During passage various boil-off management strategies can be used. Boil-off gas can be burned in boilers to provide propulsion, or it can be re-liquefied and returned to the cargo tanks, depending on the design of the vessel. Once in the discharge port, the cargo is pumped ashore using the cargo pumps. As the tank empties, the vapour space is filled by either gas from ashore or by vaporising some cargo in the cargo vaporiser. Either the vessel can be pumped out as far as possible, with the last being pumped out with spray pumps, or some cargo can be retained on board as a "heel". It is normal practice to keep onboard 5% to 10% of the cargo after discharge in one tank. This is referred to as the heel and this is used to cool down the remaining tanks that have no heel before loading. This must be done gradually otherwise the tanks will be cold shocked if loaded directly into warm tanks. Cool-down can take roughly 20 hours on a Moss vessel (and 10–12 hours on a membrane type vessel), so carrying a heel allows cool-down to be done before the vessel reaches port giving a significant time saving. If all the cargo is pumped ashore, then on the ballast passage the tanks will warm up to ambient temperature, returning the vessel to a gassed up and warm state. The vessel can then be cooled again for loading. If the vessel is to return to a gas free state, the tanks must be warmed up by using the gas heaters to circulate warm gas. Once the tanks are warmed up, the inert gas plant is used to remove the methane from the tanks. Once the tanks are methane free, the inert gas plant is switched to dry air production, which is used to remove all the inert gas from the tanks until they have a safe working atmosphere. Transportation of natural gas both in the form of LNG and by pipeline causes greenhouse gas emissions, but in different ways. With pipelines, most of the emissions stem from the production of steel pipe; with LNG most of the emissions stem from liquefaction. For both pipelines and LNG, propulsion causes additional emissions (pressurization of the pipeline, propulsion of the LNG tanker).


Containment systems

Today there are four containment systems in use for new build vessels. Two of the designs are of the self-supporting type, while the other two are of the membrane type and today the patents are owned by
Gaztransport & Technigaz Gaztransport & Technigaz SA is a French multinational naval engineering company with headquarters in Saint-Rémy-lès-Chevreuse, France. Trading as the GTT Group, the company is an engineering organization specializing in membrane containment sy ...
(GTT). There is a trend towards the use of the two different membrane types instead of the self-supporting storage systems. This is most likely because prismatic membrane tanks utilize the hull shape more efficiently and thus have less void space between the cargo-tanks and ballast tanks. As a result of this, Moss-type design compared to a membrane design of equal capacity will be far more expensive to transit the
Suez Canal The Suez Canal ( arz, قَنَاةُ ٱلسُّوَيْسِ, ') is an artificial sea-level waterway in Egypt, connecting the Mediterranean Sea to the Red Sea through the Isthmus of Suez and dividing Africa and Asia. The long canal is a popular ...
. However, self-supporting tanks are more robust and have greater resistance to sloshing forces, and will possibly be considered in the future for offshore storage where bad weather will be a significant factor.


Moss tanks (Spherical IMO type B LNG tanks)

Named after the company that designed them, the Norwegian company Moss Maritime, the Spherical IMO type B LNG tanks are spherical in shape. Most Moss type vessels have four or five tanks. The outside of the tanks have a thick layer of foam insulation that is either fitted in panels or in more modern designs wound round the tank. Over this insulation is a thin layer of "tinfoil" which allows the insulation to be kept dry with a nitrogen atmosphere. This atmosphere is constantly checked for any methane that would indicate a leak of the tank. Also the outside of the tank is checked at three-month intervals for any cold spots that would indicate breakdown in the insulation. The tank is supported around its circumference by the equatorial ring, which is supported by a large circular skirt, known as a data-couple that is a unique combination of aluminum and steel, which takes the weight of the tank down to the ship's structure. This skirt allows the tank to expand and contract during cool-down and warm-up operations. During cool-down or warm-up the tank can expand or contract about . Because of this expansion and contraction all piping into the tank comes in the top and is connected to the ship's lines via flexible bellows. Inside each tank there is a set of spray heads. These heads are mounted around the equatorial ring and are used to spray LNG onto the tank walls to reduce the temperature. Tanks normally have a working pressure of up to (0.22 bar), but this can be raised for an emergency discharge. If both main pumps fail then to remove the cargo, the tank's safety valves are adjusted to lift at 100 kPa (1 bar). Then the filling line which goes to the bottom of the tank is opened along with the filling lines of the other tanks on board. The pressure is then raised in the tank with the defective pumps which pushes the cargo into the other tanks where it can be pumped out.


IHI (Prismatic IMO type B LNG tanks)

Designed by Ishikawajima-Harima Heavy Industries, the ''self-supporting prismatic type B (SPB)'' tank is currently employed in only two vessels. Type B tanks limit sloshing problems, an improvement over Membrane LNG carrier tanks which may break due to sloshing impact, therefore destroying the ship's hull. This is also of prime relevance for
FPSO A floating production storage and offloading (FPSO) unit is a floating vessel used by the offshore oil and gas industry for the production and processing of hydrocarbons, and for the storage of oil. An FPSO vessel is designed to receive h ...
LNG (or FLNG). In addition, IMO type B LNG tanks can sustain internal accidental damage due for example to internal equipment releases. This was incorporated into the design following several incidents that occurred inside membrane LNG tanks.


TGZ Mark III

Designed by Technigaz, these tanks are of the membrane type. The membrane consists of stainless steel with 'waffles' to absorb the thermal contraction when the tank is cooled down. The primary barrier, made of corrugated stainless steel of about thickness is the one in direct contact with the cargo liquid (or vapour in empty tank condition). This is followed by a primary insulation which in turn is covered by a secondary barrier made of a material called "triplex" which is basically a metal foil sandwiched between glass wool sheets and compressed together. This is again covered by a secondary insulation which in turn is supported by the ship's hull structure from the outside. From the inside of the tank outwards, the layers are: * LNG * Primary barrier of 1.2 mm thick corrugated/waffled 304L stainless steel * Primary insulation (also called the interbarrier space) * Secondary barrier within triplex membrane * Secondary insulation (also called the insulation space) * Ship's hull structure.


GT96

Designed by Gaztransport, the tanks consists of a primary and secondary thin membrane made of the material
Invar Invar, also known generically as FeNi36 (64FeNi in the US), is a nickel–iron alloy notable for its uniquely low coefficient of thermal expansion (CTE or α). The name ''Invar'' comes from the word ''invariable'', referring to its relative lac ...
which has almost no thermal contraction. The insulation is made out of plywood boxes filled with perlite and continuously flushed with nitrogen gas. The integrity of both membranes is permanently monitored by detection of hydrocarbon in the nitrogen. An evolution is proposed b
NG2
with the replacement of nitrogen by argon as the flushed inert and insulation gas. Argon has a better insulation power than nitrogen, which could save 10% of boil-off gas.


CS1

CS1 stands for Combined System Number One. It was designed by the now merged
Gaztransport & Technigaz Gaztransport & Technigaz SA is a French multinational naval engineering company with headquarters in Saint-Rémy-lès-Chevreuse, France. Trading as the GTT Group, the company is an engineering organization specializing in membrane containment sy ...
companies and consists of the best components of both MkIII and No96 systems. The primary barrier is made of invar , and secondary from Triplex. The primary and secondary insulation consists of polyurethane foam panels. Three vessels with CS1 technology were built by one shipyard, but established shipyards have decided to maintain production of the MKIII and NO96.


Reliquefaction and boil-off

In order to facilitate transport,
natural gas Natural gas (also called fossil gas or simply gas) is a naturally occurring mixture of gaseous hydrocarbons consisting primarily of methane in addition to various smaller amounts of other higher alkanes. Low levels of trace gases like carbo ...
is cooled down to approximately at atmospheric pressure, at which point the gas condenses to a liquid. The tanks on board an LNG carrier effectively function as giant
thermos A vacuum flask (also known as a Dewar flask, Dewar bottle or thermos) is an insulating storage vessel that greatly lengthens the time over which its contents remain hotter or cooler than the flask's surroundings. Invented by Sir James Dewa ...
es to keep the liquid gas cold during storage. No insulation is perfect, however, and so the liquid is constantly boiling during the voyage. According to WGI, on a typical voyage an estimated 0.1–0.25% of the cargo converts to gas each day, depending on the efficiency of the insulation and the roughness of the voyage.World Gas Intelligence, 30 July 2008 In a typical 20-day voyage, anywhere from 2–6% of the total volume of LNG originally loaded may be lost. Normally an LNG tanker is powered by steam turbines with boilers. These boilers are dual fuel and can run on either methane or oil or a combination of both. The gas produced in boil off is traditionally diverted to the boilers and used as a fuel for the vessel. Before this gas is used in the boilers, it must be warmed up to roughly 20 °C by using the gas heaters. The gas is either fed into the boiler by tank pressure or it is increased in pressure by the Low Duty compressors. What fuel the vessel runs on is dependent on many factors which include the length of the voyage, desire to carry a heel for cooldown, price of oil versus price of LNG, and port demands for cleaner exhaust. There are three basic modes available: Minimum boil-off/maximum oil:- In this mode tank pressures are kept high to reduce boil off to a minimum and the majority of energy comes from the fuel oil. This maximises the amount of LNG delivered but does allow tank temps to rise due to lack of evaporation. The high cargo temps can cause storage problems and offloading problems. Maximum boil-off/minimum oil:- In this mode the tank pressures are kept low and there is greater boil-off but a large amount of fuel oil is still used. This decreases the amount of LNG delivered but the cargo will be delivered cold which many ports prefer. 100% gas:- Tank pressures are kept at a similar level to maximum boil off but as this may not be enough to supply all the boilers needs, additional LNG must be "forced" to vaporize. A small pump in one tank supplies LNG to the forcing vaporizer, where it is warmed and vaporized back into a gas that is usable in the boilers. In this mode no fuel oil is used. Recent advances in technology reliquefication plants to be fitted to vessels, allowing the boil off to be reliquefied and returned to the tanks. Because of this, the vessels' operators and builders have been able to contemplate the use of more efficient slow-speed
diesel engine The diesel engine, named after Rudolf Diesel, is an internal combustion engine in which ignition of the fuel is caused by the elevated temperature of the air in the cylinder due to mechanical compression; thus, the diesel engine is a so-call ...
s (previously most LNG carriers have been
steam turbine A steam turbine is a machine that extracts thermal energy from pressurized steam and uses it to do mechanical work on a rotating output shaft. Its modern manifestation was invented by Charles Parsons in 1884. Fabrication of a modern steam turbin ...
-powered). Exceptions are the LNG carrier ''Havfru'' (built as ''Venator'' in 1973), which originally had dual fuel diesel engines, and its sister-ship ''Century'' (built as ''Lucian'' in 1974), also built with dual fuel gas turbines before being converted to a diesel engine system in 1982. Vessels using Dual or Tri-Fuel Diesel Electric, respectively DFDE/TFDE, propulsion systems are now in service. Recently, there has been interest in a return to propulsion by boil-off gas. This is a result of the IMO 2020 anti-pollution regulation that bans the use of marine fuel oil with a sulfur content greater than 0.5% on ships not fitted with flue-gas scrubbing plant. Space constraints and safety issues typically prevent the installation of such equipment on LNG carriers, forcing them to abandon the use of the lower-cost, high-sulfur fuel oil and switch to low-sulfur fuels that cost more and are in shorter supply. In these circumstances, boil-off gas may become a more attractive option.


Consequences of spillage

Compared to oil, there is less public concern over spillage of Liquid Natural Gas (LNG) carrying vessels as the gas would quickly vaporize and become
atmospheric methane Atmospheric methane is the methane present in Earth's atmosphere. Atmospheric methane concentrations are of interest because it is one of the most potent greenhouse gases in Earth's atmosphere. Atmospheric methane is rising. The 20-year globa ...
. The LNG sector is known to have a good safety record regarding
cargo Cargo consists of bulk goods conveyed by water, air, or land. In economics, freight is cargo that is transported at a freight rate for commercial gain. ''Cargo'' was originally a shipload but now covers all types of freight, including trans ...
loss. By 2004, there had been close to 80,000 loaded port transits of LNG carriers with no loss of containment failure. An analysis of several spherical carriers showed that the vessels can withstand a 90-degree side-on collision with another similar LNG carrier at 6.6 kn (50% of normal port speed) with no loss of
LNG Liquefied natural gas (LNG) is natural gas (predominantly methane, CH4, with some mixture of ethane, C2H6) that has been cooled down to liquid form for ease and safety of non-pressurized storage or transport. It takes up about 1/600th the volu ...
cargo integrity. This drops to 1.7 kn for a fully loaded 300,000 dwt oil tanker collision into an LNG carrier. The report also notes that such collisions are rare.
HAZID A hazard analysis is used as the first step in a process used to assess risk. The result of a hazard analysis is the identification of different types of hazards. A hazard is a potential condition and exists or not (probability is 1 or 0). It may, ...
performed a risk assessment of an LNG spill. Taking into account precautions, training, regulations and technology changes over time HAZID calculates that the likelihood of an LNG spill as approximately 1 in 100,000 trips. In the event that the tank integrity of a LNG transport is compromised, there is a risk that the natural gas contained within could ignite, causing either an explosion or fire.


See also

*
Compressed natural gas Compressed natural gas (CNG) is a fuel gas mainly composed of methane (CH4), compressed to less than 1% of the volume it occupies at standard atmospheric pressure. It is stored and distributed in hard containers at a pressure of , usually in cy ...
(CNG) *
Gas carrier A gas carrier, gas tanker, LPG carrier, or LPG tanker is a ship designed to transport LPG, LNG, CNG, or liquefied chemical gases in bulk. Types Fully pressurized gas carrier The seaborne transport of liquefied gases began in 1934 when a maj ...
*
CNG carrier Compressed natural gas (CNG) carrier ships are those designed for transportation of natural gas under high pressure. CNG carrier technology relies on high pressure, typically over 250 bar (2900  psi), to increase the density of the gas, but ...
*
List of gas carriers This list of gas carrier ships includes LPG carriers and LNG carriers. Ships with multiple names may be listed under each name. A * Al Barrah * Al Dafna * Al Jabirah * Al Oraic * Al Rayyan * Al Thakhira * Ayame * Almarona * Artemis Gas * Alrar ...
*
List of tankers This is a list of tankers. The list includes merchant tankers as well as naval tankers that do not fall into more specialized lists such as List of replenishment ships of the Royal Fleet Auxiliary and List of Type T2 Tanker names. *Former ...
*''
Mozah ''Mozah'' is a Q-Max LNG carrier operated by Qatargas II. The vessel was built in 2008 by Samsung Heavy Industries and is the largest LNG carrier in the world together with her sister ships. The vessel is part of a contract for 14 same-size shi ...
'' * ''Prelude'' FLNG


References

{{ModernMerchantShipTypes Ship types Tankers de:Tanker#Flüssiggastanker