88 research outputs found
Recommended from our members
Ultra-Deepwater Production Systems
The report herein is a summary of the work performed on three projects to demonstrate hydrocarbon drilling and production methods applicable to deep and ultra deepwater field developments in the Gulf of Mexico and other like applications around the world. This work advances technology that could lead to more economic development and exploitation of reserves in ultra-deep water or remote areas. The first project is Subsea Processing. Its scope includes a review of the ''state of the art'' in subsea components to enable primary production process functions such as first stage liquids and gas separation, flow boosting, chemical treatment, flow metering, etc. These components are then combined to allow for the elimination of costly surface production facilities at the well site. A number of studies were then performed on proposed field development projects to validate the economic potential of this technology. The second project involved the design and testing of a light weight production riser made of composite material. The proposed design was to meet an actual Gulf of Mexico deepwater development project. The various engineering and testing work is reviewed, including test results. The third project described in this report encompasses the development and testing of a close tolerance liner drilling system, a new technology aimed at reducing deepwater drilling costs. The design and prototype testing in a test well are described in detail
Recommended from our members
Ultra-Deepwater Production Systems
The report herein is a summary of the work performed on three projects to demonstrate hydrocarbon drilling and production methods applicable to deep and ultra deepwater field developments in the Gulf of Mexico and other like applications around the world. This work advances technology that could lead to more economic development and exploitation of reserves in ultra-deep water or remote areas. The first project is Subsea Processing. Its scope includes a review of the ''state of the art'' in subsea components to enable primary production process functions such as first stage liquids and gas separation, flow boosting, chemical treatment, flow metering, etc. These components are then combined to allow for the elimination of costly surface production facilities at the well site. A number of studies were then performed on proposed field development projects to validate the economic potential of this technology. The second project involved the design and testing of a light weight production riser made of composite material. The proposed design was to meet an actual Gulf of Mexico deepwater development project. The various engineering and testing work is reviewed, including test results. The third project described in this report encompasses the development and testing of a close tolerance liner drilling system, a new technology aimed at reducing deepwater drilling costs. The design and prototype testing in a test well are described in detail
NUCLEAR FUEL CYCLE OBJECTIVES
The nuclear fuel cycle objectives are drawn from many sources, including the conclusions of major international conferences on different stages and aspects of nuclear fuel cycles, many of which are held in cooperation with the IAEA.
Experts from various Member States provided advice to the IAEA through a number of consultants meetings and Technical Working Groups (TWGs), such as the TWGs on Nuclear Fuel Performance and Technology, on Nuclear Fuel Cycle Options and Spent Fuel Management, and on Research Reactors, and through the OECD/NEA–IAEA Uranium Group. The IAEA’s International Project on Innovative Nuclear Reactors and Fuel Cycles (INPRO) is another important source of guidance.JRC.E-Institute for Transuranium Elements (Karlsruhe
- …