A floating liquefied natural gas ( FLNG) facility is a floating production storage and offloading unit that conducts liquefied natural gas (LNG) operations for developing offshore natural gas resources. Floating above an offshore natural gas field, the FLNG facility produces liquefied stores and transfers LNG (and potentially LPG and condensate) at sea before carriers ship it to markets.
Recent developments in the liquefied natural gas (LNG) industry require relocation of conventional LNG processing units (or trains) into the sea to unlock remote, smaller gas fields that would not be economical to develop otherwise. Using these new types of FLNG facilities reduces capital expenses and environmental impacts. Unlike floating production storage and offloading units (FPSOs), FLNGs will also allow full scale deep processing, as an onshore LNG plant does but will reduce its footprint to 25%t. The first 3 FLNG's were constructed in 2016: Prelude FLNG (Shell plc), PFLNG1 and PFLNG2 (Petronas).
History
In 1997, Mobil developed an FLNG production concept based on a large, square structure with a moonpool in the center,
commonly known as "The Doughnut".
The Mobil proposal was sized to produce LNG per year produced from per year of feed gas, with storage provided on the structure for of LNG and of condensate.
In 1999, a major study was commissioned as a joint project by Chevron Corporation and several other oil and gas companies. This was closely followed by the so-called 'Azure' research project, conducted by the EU and several oil and gas companies. Both projects contributed to steel and concrete hull design, a new development with LNG transfer systems.
Royal Dutch Shell announced a 12 billion AUD (8.71 billion USD) investment on 20 May 2011 to build Prelude FLNG. Construction began in October 2012. Prelude became the world's first FLNG facility, anchored off the shore of Western Australia.
In April 2010, Shell announced that it had been selected to develop the Greater Sunrise gas fields in the Timor Sea, making it Shell's second FLNG facility after Prelude. The project was scheduled to begin processing gas in 2016.
, Japan's Inpex planned to use FLNGs to develop the Abadi gas field in the Masela block of the Timor Sea, with a final investment decision expected by the end of 2013. Late in 2010, Inpex deferred start-up by two years to 2018 and reduce its "first phase" capacity to 2.5 million tons per year (from a previously proposed capacity of 4.5 million tonnes).
, Chevron Corporation was considering an FLNG facility to develop offshore discoveries in the Exmouth Plateau of Western Australia, while in 2011, ExxonMobil was waiting for an appropriate project to launch its FLNG development.
According to a presentation given by their engineers at GASTECH 2011, ConocoPhillips aimed to implement a facility by 2016–19, and had completed the quantitative risk analysis of a design that would undergo pre-FEED study during the remainder of 2011.
GDF Suez Bonaparte – a joint venture undertaken by the Australian oil and gas exploration company Santos Limited (40%) and the French multi-international energy company GDF Suez (60%) – initially awarded a pre-FEED contract for the Bonaparte FLNG project offshore Northern Australia. The first phase of the project calls for a floating LNG production facility with a capacity of 2 million mt/year, with a final investment decision is expected in 2014 and startup planned for 2018. However, in June 2014, GDF Suez and Santos Limited made a decision to halt development. A part of the decision included the perception that long-term capabilities of North American gas fields due to hydraulic fracturing technologies and increasing export capabilities would adversely affect the profitability of the venture due to competition.
In October 2016, Exmar NV performance tested a facility designed by Black & Veatch. The facility has a single liquefaction train that can produce 72 million cubic feet a day of LNG.
On 4 June 2018, Golar LNG announced that their FLNG Hilli Episeyo had got a customer acceptance after successfully being tested in 16 days commissioning. FLNG Hilli Episeyo will serve Parenco Cameroon SA in Cameroon's water. FLNG Hilli Episeyo is designed by Black & Veatch and was built in Keppel Shipyard in Singapore.
Fortuna FLNG, to be commissioned in 2020, is owned by a joint venture between Ophir Energy and Golar LNG is under development in Equatorial Guinea. When operational, it is expected to produce around 2.2 million per year of gas and to be the first FLNG to operate in Africa.
Once a facility is in operation, ocean waves will present another challenge. LNG containment systems need to be capable of withstanding the damage that can occur when the sea's wave and current motions cause sloshing in the partly filled tanks. Product transfers also need to deal with the effects of winds, waves and currents in the open seas.
Solutions to reduce the effect of motion and weather are addressed in the design, which must be capable of withstanding – and even reducing – the impact of waves. In this area, technological development has been mainly evolutionary rather than revolutionary, leveraging and adapting technologies that are currently applied to offshore oil production or onshore liquefaction. For example, traditional LNG loading arms have been adapted to enable LNG transfers in open water, and hose-based solutions for both side-by-side transfers in calmer seas and tandem transfers in rougher conditions are nearing fruition.
Projects in 2010-2020
Royal Dutch Shell
Petronas
Planned projects
Challenges
Advantages
Operation
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