Geotechnical Study and Foundation Structural Design, Next Generation Ionosonde (NEXION) Installation, Thule Air Base, Greenland

This report presents the results of our geotechnical and structural design for the transmitter antenna of the Next Generation Ionosonde (NEXION) at Thule Air Base, Greenland, for the Space and Missile Systems Center, Remote Sensing Space Environmental Branch, and Air Force Weather. NEXION is a comme...

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Bibliographic Details
Main Author: Bjella, Kevin
Other Authors: COLD REGIONS RESEARCH AND ENGINEERING LAB FORT WAINWRIGHT AK
Format: Text
Language:English
Published: 2015
Subjects:
Atmospheric Physics
Snow
Ice and Permafrost
Electrical and Electronic Equipment
Structural Engineering and Building Technology
*ANTENNAS
*FOUNDATIONS(STRUCTURES)
*IONOSONDES
*PERMAFROST
AIR FORCE FACILITIES
ARCTIC REGIONS
CLIMATE
DRAINAGE
ELECTRON DENSITY
EXCAVATION
GEOLOGY
GREENLAND
INSULATION
PLASMAS(PHYSICS)
SOILS
FOUNDATION STRUCTURAL DESIGN
FRICTIONAL RESISTANCE
GEOTECHNICAL STUDIES
GLACIOLOGY
GROUND ICE
IONOSPHERIC PLASMA
LATERAL EARTH PRESSURES
*NEXION TOWER
*NEXION(NEXT GENERATION IONOSONDE)
SHALLOW FOUNDATIONS
SUBSURFACE SOILS
THERMAL REGIME
THULE AIR BASE
UPLIFT RESISTANCE
Arctic
Greenland
Thule Air Base
Climate change
Ice
permafrost
Thule Air
Thule
Online Access:http://www.dtic.mil/docs/citations/ADA622109
http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA622109
Description
Summary:This report presents the results of our geotechnical and structural design for the transmitter antenna of the Next Generation Ionosonde (NEXION) at Thule Air Base, Greenland, for the Space and Missile Systems Center, Remote Sensing Space Environmental Branch, and Air Force Weather. NEXION is a commercial-off-the-shelf ionospheric sounder used to measure the electron density of ionospheric plasma. The design required special considerations for installation, construction, and shipment due to the ice-rich permafrost soil conditions at Thule Air Base s remote and logistically difficult location. In particular, anchored tension ground connections could not withstand viscoelastic creep of ground ice under extreme wind-loading events. In addition, predicted future climate change required additional considerations to protect the thermal regime of the thaw-unstable sediments. Recommendations include excavation into permafrost soils, non-frost-susceptible structural replacement fill, and extruded polystyrene boardtype insulation to facilitate maintaining and improving the subsurface thermal regime and to provide favorable foundation performance for the NEXION tower system. Furthermore, given the remote site location and limited availability of on-site concreting capabilities, foundations require pre-casting and shipping via ocean transport vessel to Greenland. As such, we designed an alternative foundation detail, including anchor rods, to mitigate the potential for irreparable damage that may occur during shipping and transporting. The original document contains color images.

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