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Diverter system test tool and method  

Energy Technology Data Exchange (ETDEWEB)

A method is described for testing a diverter system on an offshore drilling rig of a type having a marine riser assembly extending to a subsea well, the diverter system having a packer element and at least one port located below the packer element for the passage of drilling fluid flowing upward from the marine riser assembly during drilling. The method consists of connecting a tubular member to the upper end of a packer having an elastomeric expansive seal element; placing the packer in an upper portion of the marine riser assembly below the diverter system and expanding the seal element against the interior of the upper portion; closing the packer element of the diverter system around the tubular member; and finally applying fluid pressure in the space between the packer element of the diverter system and the seal element of the packer to ...

1989-04-04

2

The use of foam to improve liquid lifting from low-pressure gas wells  

Energy Technology Data Exchange (ETDEWEB)

Gas well load up is the loss of available reservoir energy due to the accumulation of liquids in the wellbore over time, and these liquids arise from liquids (hydrocarbons and water) condensed from the gas. Accumulation of these liquids near the wellbore can cause severe reduction to complete loss of available transport energy. A systematic experimental approach was undertaken to evaluate the performance of foam in removing liquids from the bottom of wells. The objectives of the research were: (1) to determine the efficiency of liquid lifting with foam; and (2) to compare the effects of surfactant type and concentration on liquid lifting. A flowloop successfully simulated the effects of completions with and without packer for low-pressure gas well with liquid production. In the base-case runs (air and water flow), the two phase flow regime was mostly annular. Liquid lifting is improved in general when a surfactant is used. For data analysis, two new parameters, ...

1999-07-01

3

Hydrologic Tests at Characterization Wells R-9i, R-13, R-19, R-22, and R-31  

Energy Technology Data Exchange (ETDEWEB)

Hydrologic information is essential for environmental efforts at Los Alamos National Laboratory. Testing at new characterization wells being drilled to the regional aquifer (''R wells'') to improve the conceptual hydrogeologic model of the Pajarito Plateau is providing such information. Drilling has been by air-rotary casing-advance or open-hole methods. Most wells are completed with multiple screens. After their construction, wells were rigorously developed by wire-brushing, bailing, followed by surging, swabbing, or jetting, and finally by pumping. These methods are effective based on field-parameter measurements and comparison of results of hydrologic testing at well R-31 before and after complete well development. We conducted field tests on various zones of saturation penetrated by the R wells to collect data needed for determining hydraulic properties. This document provides details of the design and execution of testing as well as an analysis ...

2003-03-01

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Aespoe Task Force on modelling of groundwater flow and transport of solutes. Review of Task 6C  

Energy Technology Data Exchange (ETDEWEB)

This report forms part of an independent review of the specifications, execution and results of Task 6 of the Aespoe Task Force on Modelling of Groundwater Flow and Transport of Solutes, which is seeking to provide a bridge between site characterization (SC) and performance assessment (PA) approaches to solute transport in fractured rock. The present report is concerned solely with Task 6C, which relates to the construction and parametrisation of a block-scale hydrostructural model of the TRUE Block Scale region of the Aespoe Hard Rock laboratory. The task objectives, specifications and outcome are summarised and reviewed. Also, consideration is given to how the hydrostructural model might affect the outcomes of Task 6D and 6E. The main conclusions of this review are summarised below: The Task 6C hydrostructural model is a more comprehensive approach to quantitatively describing a volume of fractured rock than has been achieved hitherto. The idea of including solute retention ...

2005-03-01