Follow Make an Enquiry. Follow this company Follow the company to be always up to date with this company. WhitePapers Regional Offices. Message company. Meccanica Gervasoni Meccanica Gervasoni supplies high-technology engineering services to the hydrocarbons sector.
Meccanica Gervasoni. About Meccanica Gervasoni supplies high-technology engineering services to the hydrocarbons sector. GIW Minerals. About GIW manufactures reliable and robust slurry pumps, while also delivering transport solutions to the oil sands industry. Recommended article. We use cookies to ensure that we give you the best experience on our website. In addition, anytime water is a component in the process fluid hydrates can form and plug piping and vessels.
This insight allows for more stable operation, reduced energy expenditure and associated emissions, and greater facility throughput. Case studies will include controlling methanol injection, managing heaters, virtual sensors for sulfur recovery units and more. LNG Canada. It is anticipated that the transaction will achieve completion in the next few months.
Throughput optimization for pipelines and gas plants Register Now Many processes within oil and gas pipelines and processing plants depend on maintaining specific temperatures and pressures at which the process fluids are liquids or gases.
Shell has been a pioneer in liquefied natural gas LNG for more than 50 years. We have continued to innovate and improve the technology behind LNG, and have worked hard to find ways to make more LNG available where it is needed around the world. The cooling process shrinks the volume of the gas times, making it easier and safer to store and ship.
In its liquid state, LNG will not ignite. When LNG reaches its destination, it is turned back into a gas at regasification plants. It is then piped to homes, businesses and industries where it is burnt for heat or to generate electricity. LNG is now also emerging as a cost-competitive and cleaner transport fuel, especially for shipping and heavy-duty road transport.
The methodology and benefits of the liquefaction of natural gas for transportation in order to meet the global energy demand. Pull back to wide view of 3D simulation of a city skyline rising out of the gridlined background. Pan and pull back to aerial view of the skyline, which levels out to two 3D yellow blocks, labelled Population and Demand, still surrounded by a white background with grey gridlines, the blocks casting a shadow in front of them.
Pull back to wide front view of the blocks as four more appear frame-right of the first two. The blocks are labelled , , , , and , and rise incrementally in height from left to right. The blocks cast a slight grey shadow just in front of them against a white background. As a result, global energy demand is expected to double by when compared to Aerial view of gridlined surface as a simulation of a rotating globe of the earth emerges from the surface, continents visible in a mustard colour and the oceans between in pale blue, the globe casting a faint grey shadow in a south-easterly direction.
But some natural gas resources are in remote locations: transporting the gas long distances by pipeline can be costly and impractical. The solution? The simulation of the globe morphs into a teardrop of blue liquid against the white, gridlined background.
The drop of liquid rolls downwards and disappears. We liquefy the gas by cooling it, which shrinks its volume for easier, economical and safe transportation by ship. Zoom in on a vertical cylindrical shape, a simulated pipeline, as it emerges out of the white, gridlined background. Pan down to oblique, horizontal angle of the pipeline as coloured particles flow frame left to frame right, all still against the white background with grey gridlines and shadows.
Pull back to an aerial view of a network of pipes along which particles are flowing, all stemming from one pipe, similar to the shape of a fork, but with many tines. So, how is liquefied natural gas produced? Natural gas extracted from the ground contains impurities, water and other associated liquids. First it is processed to clean it. It goes through a series of pipes and vessels where gravity helps separate the gas from some of the heavier liquids. Pull back and pan to an aerial view of the whole plant, one of the large towers displaying the Shell logo.
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