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 Pluspetrol – Camisea Upstream Facility Project (Perú)
AMEC Paragon provided Owner’s Engineer services, including front-end engineering design (FEED), project management, engineering services, EPC bid package preparation and evaluation, procurement and logistics support, inspection, and environmental services for a multi-site gas, NGL, and LPG development in Perú. Components include:
Gas gathering systems in the Amazon rainforest
A cryogenic facility for extracting NGLs from the gas stream (also in the rainforest)
An LPG plant on the Pacific coast
A marine terminal for loading LPG onto tankers, connected to the coastal plant by a subsea cryogenic LPG pipeline
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 Chevron – Takula Gas Processing Platform (Angola)
AMEC Paragon provided front-end engineering (for Chevron) and detailed engineering (for Samsung) for a new platform with gas processing, compression, H2S sweetening, gas dehydration and natural gas liquids (NGL) recovery facilities. With a capacity of 200 million standard cubic feet of gas per day (200 MMscfd), the platform is bridge-connected to an existing complex. |
 Corpus Christi LNG regasification facility (Texas)
AMEC Paragon provided conceptual engineering, FEED, site preparation, US Federal Energy Regulatory Commission (FERC) filing, and offtake pipeline permitting services for a planned 3 billion standard cubic feet per day (Bscfd) LNG receiving terminal and regasification facility with dual tanker berths, three LNG storage tanks, 12 submerged combustion vaporizers (SCVs), and a 42” diameter sendout pipeline. Specific tasks included development of designs and execution plans for jetty platforms, breasting and mooring dolphins, catwalks to dolphins, approach trestle substructures, pipe trestle substructures, sheetpile bulkhead walls, shoreline protection systems, scour protection systems, and a tug dock as well as various aids to navigation.
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 Offshore LNG Receiving Terminal (Gulf of Mexico)
AMEC Paragon provided conceptual design services for a planned offshore LNG receiving terminal in the Gulf of Mexico. The terminal would be located in 100 feet of water and designed to receive LNG at 10,000 m3/hr and send out a nominal 1.5-2.0 Bscf/day into three existing offshore pipelines. Plans called for a cryogenic marine pipeline to transfer LNG from the carrier to the process platform. |
| Marine LNG Regasification Project
AMEC Paragon performed a conceptual study of a marine LNG receiving system and a subsea vaporized LNG pipeline to a remote injection platform. Work included evaluation of fixed-platform options as well as the conversion of a Very Large Crude Carrier (VLCC) vessel into a “floating LNG vaporization platform.” |
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