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Elliott Group introduces new cryogenic expander

Published by , Editorial Assistant
Hydrocarbon Engineering,

Elliott Group is offering an impulse-type, two-phase cryogenic expander that allows for the expansion of liquefied gases into two-phase mixtures. Harnessing the energy of two-phase expansion increases the expander’s generator output, reduces boil-off losses, and improves the overall liquefaction and cooling processes. Each expander is custom-designed and built for use in LNG liquefaction, refrigeration, and separation processes, as well as to improve overall efficiency.

Based on proven impulse turbine blade technology, this cryogenic expander has optimised staging to minimise axial load at the radial ball bearings. Because it tolerates a high content of vapor mass, it is offered for liquefaction and refrigeration processes with relatively high vaporisation capability in cryogenic hydrocarbon applications. The isentropic efficiency of these units is estimated to be at around 60 – 70%, depending on the mass flow rate and unit pressure drop. They do not require a Joule Thomson (JT) valve at the downstream and have generator nameplate ratings ranging from 300 kW to 2.2 MW for a single unit. If the process requires high-flow output, these units can be installed and operated in parallel configuration.

"Elliott’s impulse-type, two-phase cryogenic expander has optimised staging for high efficient operation with vapour mass content up to 35%,” said Enver Karakas, Senior Engineer at Elliott. “This cryogenic expander can increase your liquid production by around 7% compared to a JT expansion in natural gas or hydrogen liquefaction plants."

The new cryogenic expander also features an axial flow impulse design with reduced overhung and stage reaction; a vertically suspended upward flow configuration; a single-shaft compact design with submerged generator; and cooling and balance lines to adjust pressure and flow to efficiently cool the submerged generator and lubricate the ball bearings. In addition, it can be retrofitted to existing LNG liquefaction and cooling applications.

The impulse-type, two-phase cryogenic expander improves the efficiency of the liquefaction process with an estimated LNG production gain of 5 – 7% by reducing boil-off. This, coupled with its other benefits, offers the possibility of investment payback in a number of months.

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