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Natural gas processing plants

Natural gas is valuable both as a clean source of energy and as a chemical feedstock. Before reaching the customer, it has to pass several processing steps. These steps are partly necessary to be able to transport the gas over long distances and partly necessary for the recovery of valuable components contained in the gas.

Linde AG´s Engineering Division has world-class experience specialized and tailor made cryogenic equipment manufactured in Linde workshops such as plate-fin and coil-wound heat exchangers. in the entire natural gas processing chain. Linde offers engineering as well as technical and commercial services, including feasibility studies, pre-FEED, FEED, detail engineering and turnkey plant construction. Plant design and scope of supply typically includes Linde´s competence in project development, planning, execution and construction of turn-key plants is clearly demonstrated by the fact that it has built more than 3,800 plants world-wide.

Other Literature

Modular air separation plants

Meeting today’s gas supply challenges in air separation. Companies considering investing in air separation units need to balance a number of factors. A reliable design offering minimal technical risk and maximum operational flexibility is essential to ensure process continuity and meet stringent ...


Cryogenic air separation

Design and construction of air separation plants is part of Linde’s traditional scope of activities, which led to the establishment of Linde’s Engineering Division at the turn of the 19th century. In 1902, the start-up of the world’s first air separation plant initiated the development ...


Coil-wound heat exchangers

Coil-wound heat exchangers (CWHE) have been used in the industry since the early days, when Carl von Linde liquefied air on an industrial scale for the first time in May 1895. Until today, more than thousand coil-wound heat exchangers have been manufac-tured in Linde’s fabrication facilities. Coil-wound ...


LNG import terminals

LNG (Liquefied Natural Gas) is becoming the preferred method of transport and storage of natural gas. In the LNG value chain, LNG-receiving terminals play an important role, allowing for the sourcing of LNG from all over the world and creating a new dynamic in the local natural gas market. Installations ...


Passion for engineering

Partnering with our customers. Industrial process plants are among the most complex structures that people have ever built. Worldwide, there are only a handful of companies with the detailed know-how needed to successfully deliver turnkey industrial plants. Linde Engineering is a pioneer in the development ...


Baseload LNG production in Stavanger

One of our most recent references for LNG base-load production with an annual capacity of 300,000 tons of LNG is a plant built at the Norwegian west cost near the city of Starvanger, started-up for commercial production in 2010. Thanks to Linde’s proprietary, most energy-efficient liquefaction ...


Customised air separation plants

The design, procurement, construction and operation of customised, multi-train air separation projects can present a number of challenges, particularly in remote locations. Having successfully engineered and executed most of the largest air separation complexes in the world, Linde Engineering has the ...


Aluminium plate fin heat exchangers

Vacuum brazed plate-fin heat exchangers are key components in many process plants. They can be advantageously used instead of other heat exchanger types, like tubular heat ex-changers. Especially with regard to compactness the plate-fin heat exchangers are one of the most favourable possibilities to ...


UN portable tank for helium (Helicon)

Cryogenic excellence for the efficient and secure transport of helium. One of the world’s most valuable rare gases, helium supplies are both limited and finite. As demand for this gas rises to support new electronics and medical applications, efforts to conserve it are becoming more urgent. Transport ...


State of the art nitrogen rejection technology

Around 30% less carbon dioxide (CO₂) than mineral oil products, and almost 45% less CO₂ than coal. It also releases around 90% less sulfur oxide and 80% less nitrogen (N₂) oxide than fossil fuels. In addition, advanced extraction technologies are unlocking new fossil hydrocarbon deposits all the ...