Establishment and Instrumentation of a Full Scale Laboratory for Thermal and Hygroscopic Investigations of Soil Behavior in Cold Climates

Svein Erik Sveen; Bjørn R Sørensen

doi:10.4028/www.scientific.net/AMM.239-240.827

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 239-240Establishment and Instrumentation of a Full Scale...

Establishment and Instrumentation of a Full Scale Laboratory for Thermal and Hygroscopic Investigations of Soil Behavior in Cold Climates

Abstract:

This study presents the establishment and instrumentation of a laboratory for investigating how different soils behave under controlled conditions in cold climates. Ground conditions are extremely important in regards to the building sector. Establishing new infrastructure and buildings require high competence about the ground/soils in order to build robust and long lasting foundations and constructions. In cold climates, soils are frequently exposed to freezing and thawing cycles, and building projects often require additional resources compared to similar projects further south. During 2009-2010, a new laboratory was established in Narvik, Norway. The laboratory consists of 4 different 6x6m bins containing different homogenous soils down to a depth of 3m. A special designed measurement frame has been placed inside each bin, which facilitates instrumentation for thermal and hygroscopic measurements. The laboratory has many applications which may lead to advances within knowledge about thermal response of soils, artificial thawing for more efficient building in cold climates, faster dehydration and curing of concrete during winter, improved road foundations and preventing frost heaves and so on. This study describes the laboratory setup and presents test measurements on thermal responses of sand, silty sand and gravel during artificial thawing using a hydronic thawing system.

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Periodical:

Applied Mechanics and Materials (Volumes 239-240)

Pages:

827-835

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.239-240.827

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Online since:

December 2012

Authors:

Svein Erik Sveen, Bjørn R Sørensen

Keywords:

Artificial Thawing of Soil, Hygroscopic, Instrumentation, Soil Laboratory, Thermal

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References

[1] Bates, R. E. and M. A. Bilello. Defining the Cold Regions of the Northern Hemisphere. U.S. Army Cold Regions Research and Engineering Laboratory, Techn. Rep. 178, (1966).

Google Scholar

[2] Andersland O. B. and Ladanyi B. Frozen Ground Engineering. John Wiley & Sons, New Jersey, 2nd edition, 2004, pp.1-6, pp.240-244.

Google Scholar

[3] Esch, D. C. Thawing techniques for frozen ground. Section 6 in Thermal Design Considerations in Frozen Ground Engineering, ed. T. G. Krzewinski and R. G. Tart, Jr. New-York: Technical Council on Cold Regions Engineering, ASCE, (1985).

Google Scholar

[4] Esch, D. C. Thawing techniques for frozen ground. Section 7 in Thermal Analysis, Construction, and Monitoring Methods for Frozen Ground. ed. D. C. Esch, Technical Council on Cold Regions Engineering, ASCE, (2004).

DOI: 10.1061/9780784407202.ch07

Google Scholar

[5] United States Patent and Trademark Office, Patent No. 567085 Method for thawing frozen ground for laying concrete, Filed July 20, 1995, Issued October 22, (1996).

Google Scholar

[6] United States Patent and Trademark Office, Patent No. 5820301 Method for thawing frozen ground, Filed July 17, 1996, Issued October 13, (1998).

Google Scholar

[7] Heaters thaw frost fast. Article in Construction Equipment. August 1, (1996).

Google Scholar

[8] Hydronic heater warms frozen construction sites. Article in Air Conditioning, Heating & Refrigeration News. September 9, (1996).

Google Scholar

[9] Sveen, S. E. Relokalisering av Frost i Jord lab, prosjektplan (del 1), Narvik, juni (2009).

Google Scholar

[10] Søraas, Ø., Sørensen, B. R., Kunstig tining av jordsmonn for fundamentering av bygg og anlegg, 2005-2007, sluttrapport, Narvik, desember (2007).

Google Scholar

[11] Ground Heaters/Wacker-Neuson, Thawing concepts, brochure 20M0508HL, (2008).

Google Scholar