Floating Production Storage and Offloading vessels or FPSOs, are offshore production facilities that house both processing equipment and storage for produced hydrocarbons. The basic design of most FPSOs encompasses a ship-shaped vessel with processing equipment or topsides aboard the vessel’s deck and hydrocarbon storage below in the double hull. After processing, an FPSO stores oil or gas before offloading periodically to shuttle tankers or transmitting processed petroleum via pipelines.
The processing equipment aboard the FPSO is similar to what would be found atop a production platform. Usually built-in modules, FPSO production equipment can consist of water separation, gas treatment, oil processing, water injection and gas compression among others. Hydrocarbons are then transferred to the vessel’s double-hull for storage.
Crude oil that is stored onboard is frequently transferred to shuttle tankers or ocean barges going ashore, via a loading hose. Loading oil from the stern of the FPSO to the bow of the shuttle tanker is known as tandem loading. While gas is many times transferred to shore via pipeline or re-injected into the field to boost production
When an equipment in the manufacturing line fails, production is down. It may take days or even weeks for repair and replacement to be completed. Workflows are interrupted, there is a loss in output capacity and revenue.
Only 2% of the shipping industry has fully adopted condition-based monitoring despite the significant benefits of implementing it.
Systems breakdown due to a number or combination of factors, rarely just one. This results in devestating loss of equipment and life in the Marine Industry.
Lacking or irregular maintenance procedures also increase the likelihood of equipment failure or human error. Combine this with inconsistent processing situations, the result can be costly with unplanned downtime.
Unplanned downtime negatively affect production capacity and increase operating expenses. The damaged equipment must be inspected properly and repaired fast before beginning operation again.
Preventive maintenance increases the reliability of equipment which is critical to achieve long-term profitable operations and tackle rising materials costs. This entails having detailed site-specific maintenance schedules, procedures, and training.
Maintenance procedures should include five phases:
Heat Exchangers, separators, scrubbers, compressors, and other equipment are critical for the processing plant to operate properly.
The hydrocarbon stream received at the first production separator is a mixed stream comprising of oil, water, and gas. This mixed stream is processed by separating the oil, water, and gas from each other.
Insufficient cooling of the gas stream reduces the compressor efficiency, while insufficient heating results in lesser quantities of gas bubbling out in the three phase separators. Also, there is lesser condensate extraction from scrubber units and during the upstream of the compressor units.
Three main areas for improvement to minimise future in-service tube failures are:
Technologies for inspecting Heat Exchanger tubes are constantly changing and improving rapidly. With increased sophistication and complexity of today’s Non-Destructive Examination (NDE) techniques, the operator’s skill level is becoming more vital.
To correctly identify the flaws and tube failures, a reliable technology and technician is needed.
APRIS is a smart tube inspection device that doesn’t compromise the ease-of-use with higher complexity and sophistication.
A typical tube inspection tool would require a user to have years of experience. But with APRIS, any technician can accurately find flaws with little training.
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