Liquified natural gas is projected to become a key source of energy in the coming decades. Propelled by its undeniable advantages (its the cleanest fossil fuel, abundant and complements renewable energy sources), LNG is redefining the market as it helps provide energy during demand peaks for a global scenario.
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Find out what LNG gas is exactly, what uses does this liquified gas present, and what type of LNG tank is the best to store it.
Liquefied natural gas (also known as LNG) is natural gas cooled to a liquid state for the purpose of easier storage and transportation.
When natural gas reaches about -260° Fahrenheit, through a liquefaction process using cryogenic heat exchangers, it becomes 600 times smaller than natural gas. This facilitates its management and has become its main advantage.
While its liquefaction process was developed in the 19th century, its todays uses of liquefied natural gas that have boosted this element. Thanks to this process, its easier to transport LNG through long distances (for instance, from the U.S.A to South Korea) without using gas pipelines, which are not feasible in such cases.
Demand for LNG has grown over the past years and is expected to continue growing. For instance, U.S. exports of liquefied natural gas continued to grow in the first six months of , at an average that marks an increase of 42%, or 2.8 Bcf/d, compared with the same period in (following figures by the U.S. Department of Energys LNG Monthly).
The main advantages of liquefied natural gas include:
The main use of liquified natural gas consists of its power as an energy supply.
energy supply for the following scenarios:
LNG is a clear and non-corrosive liquid which weighs less than water and is made up of at least 85% methane. It presents several characteristics that must be taken into account when looking for storage alternatives.
In order to store it, the right LNG tank is needed, using cryogenic technology to guarantee its optimal and safe storage until LNG is needed.
These systems usually include above-ground, low-pressure tanks (less than 10 kilopascals), with double walls for enhanced protection and a vacuum that provides thermal insulation and thus maintains the cold temperatures needed. All in all, small amounts of heat enter the system and must be safely removed periodically.
Typically, an LNG tank can have a capacity ranging from 1,000 to 30,000 m³. The bigger tanks present a cylindrical shape with a domed roof, while smaller versions may be stored in both horizontal or vertical pressure vessels, where pressure may range from less than 50 to over 1,700 kPa (7.3246.6 psi).
Today, an additional high-nickel steel wall or an outer tank made of concrete are often added to provide extra containment.
Cryospain provides the expertise and technical knowledge to design and implement flat bottom cryogenic tanks for LNG storage.
We design our gas storage tanks with double-wall steel structures using high tech insulating materials (cellular glass, expanded perlite, rockwool, etc.).
All the cryogenic storage equipment we produce complies with the most recognized quality and safety certificates on an international level. Our standards include:
Regarding liquefied natural gas, a recent success story in Santa Cruz de la Sierra, (Bolivia) highlights our role as trusted partners.
This project was both extremely challenging on many levels and hugely gratifying in terms of the benefits it has brought to the area.
This Flat-Bottom Cryogenic Tank is for the storage of Liquid Natural Gas (LNG). This type of installation is known as a virtual pipeline. It consists of liquefying natural gas for liquid distribution in areas where it is difficult to install a pipeline network.
The main issue that made our task more daunting was the location itself: deep in the jungle, high in the mountains, far from any urban centres and difficult to access. It was also challenging to find qualified workers in the area. Added to that was the task of building a base camp in the jungle, where heat and rain were constant obstacles.
Transport was also a huge logistical challenge. Parts could not be sent gradually so over 25 containers from all over Spain had to be put on one ship. Not only that, Bolivia has no port, meaning two customs processes, one in Bolivia, but prior to that another upon entry into neighbouring Chile. Getting the trucks to the site wasnt easy either, given the nature of the terrain.
The project was a success, however, both for our clients and for the environment, allowing access to natural gas to many citizens who have opted to make the switch from heavy hydrocarbons (fuel oil, diesel) to natural gas.
All in all, a challenging project that became a success that benefited both our satisfied customer as well as the local environment.
Want to learn more about LNG and its storage possibilities? Discover our Reference list for cryogenic tanks.
For more information, please visit LNG cryogenic tanks.
Cryogenic tanks are an optimal solution in cases where large quantities of gas need to be stored in liquid form, such as Liquid Oxygen, Liquid Nitrogen, Argon, C02, LNG, LPG, Liquid Hydrogen, etc.
Cryogenic tanks are a type of industrial storage tank boasting a range of strengths, related to aspects such as internal distribution, loading and safety.
Cryogenic tanks are very versatile, allowing for the installation of a centralised network for the optimal distribution of the different cryogenic gases used. An important advantage of this type of tank is that there is no gas return to the plant, as is the case with other systems such as cylinders. It goes without saying that this translates into resources saved.
The loading of the gases into the cryogenic tanks is done using vaporisers. The major benefit of this system is that the liquid gas passes directly from the production plant to the user, avoiding sudden movements and improving stability and safety.
The gas stored in cryogenic tanks maintains a higher level of purity than in other storage systems, as it always remains isolated in a hermetically sealed tank meaning that no possibility exists of contamination with any external agents.
Risks are kept to a minimum, as the gas remains isolated in hermetically sealed, stable tanks with no contact with the outside world. Cylinder transfer within the facilities is avoided, avoiding unnecessary hazards.
A cryogenic tank is composed of a structure divided into two fundamental parts:
The two vessels are insulated from each other by a combination of insulating materials.
In addition to these two containers separated by insulating material, cryogenic tanks are equipped with another vital component: a pressure regulation system. This system is specifically designed to ensure that the cryogenic tank always operates at a constant pressure that is set with the users needs in mind.
Tanks for storing cryogenic gases follow very strict safety requirements and protocols, in order to avoid any type of accident that may cause leaks, material damage and, above all, personal injury. Here are some of the main safety measures:
A huge variety of cryogenic tanks exists, each perfectly adapted to the cryogenic liquid they have to hold, as well as to where they are going to be located: size, place, terrain, etc.
Cryogenic tanks will therefore have different shape and design characteristics depending on whether they contain:
Some examples of this type of projects that we have carried out are:
At Cryospain, were very proud of our team of experts, who boast a wealth of experience in the design, manufacture, assembly and commissioning of low-pressure liquefied gas storage tanks. Add to this the advanced technical resources at our disposal and the result is cryogenic tank supply and design 100% tailored to the needs of each of our clients.
If your project needs gas storage solutions designed and built by true experts, why not contact us today?
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