Trending Content on OGF
The standalone FPSO destined for Senegal’s first offshore oil development is on its way to a Singapore yard for topsides integration and commissioning.
Cassia C is BP Trinidad and Tobago's first offshore compression platform.
A network of more than 1,600 offshore facilities produces a significant portion of US domestic oil and gas. The facilities, which rely on technology to remotely monitor and control equipment, face a growing risk of cyberattacks.
Pemex and New Fortress Energy partner up to develop the Lakach gas field.
Louisiana-based Commonwealth LNG gets the green light, while Delfin LNG gets more time on the development clock.
Initial facilities along the Sabine River in Texas will be capable of producing up to 13.5 mtpa of LNG.
Italian contractor will provide a pair of offshore gas compression complexes destined for the giant North Field.
The new 42-in. ADCC pipeline will tie the Whistler Pipeline to Cheniere’s Corpus Christi liquefaction facility.
The floating terminal at Eemshaven will be capable of making 8 Bcm of gas per year.
Tracking the Energy Transition: US Clean Energy Hub, South Korean Wind, Jet Fuel From the Sun, and ... Plasmalysis?Unique partnerships forward both conventional renewables and new technologies to close the gap for a carbon-free future across the globe.
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Technical Papers for Facilities Professionals
This paper describes development of an adjustable cone meter that can adapt to flow conditions automatically and provide a turndown of as much as a 54:1 under dry-gas conditions and as much as 20:1 under wet-gas conditions.
This paper highlights solids-management technologies that are currently available and still in use topside (some of which are potentially outdated).
A system that could help turn stranded-gas fields into producing projects has moved closer to reality, aided by the growing focus on reductions in carbon emissions.
The paper presents a system for separation of water in downhole horizontal wells in which the water produced from the well is not lifted to the surface but reinjected into the reservoir.
An experimental study of a shroud-type downhole separator for a pumped horizontal or deviated well is presented in this study.
A Reassessment of the Role of Colloidal Iron in Produced Water From Shale Operations—A Review of Field Data and Literature (Part B)
This paper is the second of a two-part series. It covers facilities problems caused by iron, injectivity problems caused by iron, and the mitigation of colloidal iron-related problems.
A Reassessment of the Role of Colloidal Iron in Produced Water From Shale Operations—A Review of Field Data and Literature (Part A)
A review of the properties of iron compounds and their impact in shale produced water treatment with an emphasis on their colloidal forms. A wide range of problems is associated with these compounds in produced water including emulsion stabilization, oil-coated solids, pad formation in separators, pipeline solids, and plugging of water disposal formations.
The Savvy Separator: Oil/Water Separation and Gas Processing Facilities—Impact of Process Flow Conditions on Level Measurements
This 17th article in the Savvy Separator Series addresses how process flow conditions can lead to incorrect or misinterpreted level readings. Poor process vessel design is often exacerbated by miscalibrated instrumentation, leading to suboptimal operation and poor efficiency of the separator. In some cases, the location of the instrumentation can also lead to erroneou…