National Strategic Crude Oil Storage in the Weeks Island Dome Salt Mine—Part I: Geotechnical Evaluation

This paper, the first in a series of two, presents the results of a geotechnical evaluation of the Weeks Island dome salt mine. The purpose of the evaluation was to confirm the suitability of the underground facility for the long-term storage of crude oil under the Federal Energy Administration’s Strategic Petroleum Reserve Program. The Weeks Island mine, currently operated by the Morton Salt Company, is located in a salt dome on the Gulf Coast south of New Iberia, Louisiana. The mine has two levels of workings, at depths of approximately 185 and 245 m (600 and 800 ft) with development by the room-and-pillar mining technique. Geologic features of interest within the mine include zones of vertical banding and folding, shear zones, and blowouts. Field testing indicated that the salt mass is, for all intents and purposes, impermeable. Brine and oil leaks and gas seeps were examined and thought to be localized phenomena that did not affect mine stability and should not affect crude oil containment. The 23-m- (75-ft-) high pillars are generally intact with minor to severe spalling, generally in older areas of the mine. The mine roof exhibits no signs of distress or failure. Based on the overall results of the geotechnical and rock mechanics evaluations, the existing salt mine facility at Weeks Island was certified as suitable for the long-term storage of crude oil.

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Survival of wood-inhabiting fungi stored for 10 years in water and under oil

Canadian Journal of Microbiology ◽

10.1139/m92-140 ◽

1992 ◽

Vol 38 (8) ◽

pp. 861-864 ◽

Cited By ~ 14

Author(s):

Gary C. Johnson ◽

Andrew K. Martin

Keyword(s):

Key Words ◽

Water Storage ◽

Mineral Oil ◽

Sterile Water ◽

Long Term Storage ◽

Oil Storage ◽

Term Storage ◽

Water Survival

Subcultures of 1064 isolates of 393 species of wood-inhabiting fungi were stored both under sterile mineral oil and in sterile water for 10 years. A high proportion (98%) of the Basidiomycotina isolates survived storage under oil, whereas only 26% survived in sterile water. Survival of most isolates of Ascomycotina (91% under oil, 72% in water) and Deuteromycotina (96% under oil, 92% in water) was somewhat less in water than under oil. Key words: fungal storage, long-term storage, oil storage, water storage, Basidiomycotina.

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Hardisty Contract Tankage Project: Design of a System for Long-Term Storage, Heating and Transporting Heavy Crude Oil in Cold Climates

2010 8th International Pipeline Conference, Volume 3 ◽

10.1115/ipc2010-31654 ◽

2010 ◽

Author(s):

Jamie Bagan ◽

Susan Larson ◽

Gilles Orieux ◽

Dean Thieson ◽

Greg Wengreniuk

Keyword(s):

Crude Oil ◽

Project Design ◽

Fee For Service ◽

Detailed Design ◽

Long Term Storage ◽

Integrity Management ◽

Heavy Crude ◽

Service Basis ◽

Term Storage

In response to strong customer demand, Enbridge Midstream Inc. (Enbridge) expanded its’ crude oil contract terminal facilities which included a new terminal near Hardisty, Alberta. Commissioned in 2009, the new Hardisty Contract Tankage (HCT) terminal provides services to accumulate medium- and long-term liquid crude volumes on a fee-for-service basis. Stantec Consulting Ltd. (Stantec) was selected to perform the conceptual and detailed design based on their terminal experience and working relationship with Enbridge. Given the inherent intermittent operation of this facility it was deemed critical to design integrity management into the facility. The conceptual and detailed design project team included members from Enbridge’s Integrity Management team to enhance the design.

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National Strategic Crude Oil Storage in the Weeks Island Dome Salt Mine—Part II: Rock Mechanics Evaluation

Journal of Energy Resources Technology ◽

10.1115/1.3446908 ◽

1979 ◽

Vol 101 (2) ◽

pp. 87-92

Author(s):

L. L. Van Sambeek ◽

F. D. Hansen ◽

P. F. Gnirk ◽

M. Ashraf Mahtab

Keyword(s):

Crude Oil ◽

Rock Mechanics ◽

Salt Mine ◽

Noticeable Effect ◽

Long Term Storage ◽

Oil Storage ◽

Deformation Properties ◽

Strategic Petroleum Reserve ◽

Strength And Deformation ◽

Mine Workings

This paper, the second in a series of two, presents the results of a rock mechanics evaluation of the Weeks Island dome salt mine. The purpose of the evaluation was to assess the structural stability of the old mine workings in conjunction with a proposed new deeper mine level during the use of the facility for the long-term storage of crude oil under the Federal Energy Administration’s Strategic Petroleum Reserve Program. The scope of the work involved laboratory testing of the strength and deformational characteristics of the rock salt; determination of a minimum web (or sill) thickness between the old workings (within which crude oil would be stored) and a proposed new mine level development below; and assessment of the effects of crude oil emplacement and withdrawal on the mine stability, as related to both the old workings and the proposed new mine level development. The finite element results, wherein use was made of the strength and deformation properties of the salt from the laboratory tests, indicated that a minimum sill thickness of 90 m (300 ft) should be maintained between the old mine workings and the new level development. Furthermore, the emplacement and withdrawl of crude oil from the old workings will have little influence on pillar and sill stabilities for the entire mine, including the proposed lower level development. The only noticeable effect could, perhaps, be obtained in the creep rate due to changing stress conditions.

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Modelling of Moisture Movement in Wood during Outdoor Storage

Nonlinear Analysis Modelling and Control ◽

10.15388/na.2001.6.1.15210 ◽

2001 ◽

Vol 6 (2) ◽

pp. 3-14 ◽

Cited By ~ 23

Author(s):

R. Baronas ◽

F. Ivanauskas ◽

I. Juodeikienė ◽

A. Kajalavičius

Keyword(s):

Experimental Data ◽

Finite Difference ◽

Climatic Conditions ◽

Two Dimensional ◽

Moisture Movement ◽

Finite Difference Technique ◽

Long Term Storage ◽

Space Formulation ◽

Term Storage

A model of moisture movement in wood is presented in this paper in a two-dimensional-in-space formulation. The finite-difference technique has been used in order to obtain the solution of the problem. The model was applied to predict the moisture content in sawn boards from pine during long term storage under outdoor climatic conditions. The satisfactory agreement between the numerical solution and experimental data was obtained.

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