ts03f 01 lui ng kwong ppt 1286 - figplacing of surcharge and wait for consolidation to complete 12...
TRANSCRIPT
Vincent LUI, Jacky NG (Leica Geosystems Ltd)Alan K.L. KWONG (Department of Civil Engineering, The University of Hong Kong)
Reclamation Ground Settlement Monitoring by using GPS and other Technologies at Shenzhen AirportFIG Working Week 2007, Hong Kong
2
Background
Current reclamation practices
Dredging – environmentally unfriendly
Surcharging with Prefabricated Vertical Drains – time consumingWe need to strengthen soft marine clay in a friendly way,
howeverCompaction, deep compaction, blasting – environmentally
unfriendlyDeep cement and lime mixing, grouting and thermal
modification – costlyElectro-osmosis – ineffective
3
Background
Objectives of this research
To study technical feasibility of offshore vacuum preloading(under water for at least 2 – 3m), to see possibility of adopting existing approaches from onshore vacuum preloading (shallow water, usually 1m or less) to offshore vacuum preloading
To study consolidation mechanism and representative stress path in vacuum preloaded clay
Investigate new techniques for achieving the objectives above and using GPS & other technologies in monitoring ground settlement in this approach
4
Hong Kong has a Long History in Reclaiming Land
5
Example of a Reclamation Project in Hong Kong
October 1995 December 1995
April 1996 October 1996
6
Major Factor to be Considered in Reclamation:Settlement of Soft Marine Mud (Clay)
7
Two Conventional Methods in dealing with Settlement, by:
1. Removing the Soft Marine Mud (Clay) by Dredging and replacing it by Sand Fill
2. Expelling water in the Soft Marine Mud (Clay) by Installing Vertical Wick Drains and Pre-compressing it with heavy load (Pre-consolidation Process or Surcharging)
8
Disadvantages of Dredging
Adverse environmental impact to the marine ecology during the dredging process
Adverse environment impact to the nearby residents
Disposal of large volumes of marine mud (Diminishing of dumping ground)
Unnecessary large consume natural resources – The more is dredged, the more is the volume of sand required for filling. The more is the sand required for filling, the more dredging is required for sand borrowing.
9
Mud plumes from dredging
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Pre-consolidation Process or Surcharging
Cross-section of reclamation
Wick drainMarine Mud
Desired Formation Level
11
Placing of Surcharge and wait for Consolidation to complete
12
Disadvantages of Pre-consolidation Process
Cost of Wick Drains is highConstruction and removal time of surcharge is more than 2 yearsLarge volume of sand is required to be moved on and off sitePossible failure if surcharge is constructed too fastQuality of wick drains is difficult to control
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Set up a Project – and its principle objectives
To investigate a practical “offshore” vacuum suction techniquethat could replace conventional dredging such that environmental problems related to reclamation could be completely eliminated
To establish rational design and construction guidelines for improving the strength of soft marine clay in Hong Kong
To demonstrate the feasibility of the technique in Hong Kong waters by conducting and monitoring large-scale field tests
Introduce GPS in the monitoring task and compare the result against conventional manual leveling & geotechnical sensor measuring method.
14
Previous “Onshore” Vacuum Preloading Technique applied in Tianjin (�� ) and Qiandao (��) Harbor Area (shallow water)
Site visits with Tianjin University (����) and Ocean University of China (������) in August 2003
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Test Site – an area close to Shenzhen Airport
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Setup vacuum preloading
ClaySoftPermeableLow
Sand Cushion Geomembrane Vacuum PumpDrainpipe
Vertical Drains
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Test Site – apply vacuum suction and installed instruments
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Test Site – Apply vacuum suction over water
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Installation of instruments: Monitoring Program
Settlement Plate
GPS Antenna
Inclinometer
ExtensometerPiezometerVacuum Sensor
LEGEND
23m 22m 2.5m
A A
Area Covered WithGeomembrane
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Vertical section of instrumentation installation
0
1m
2m
3m
4m
5m
6m
7m
8m 8m
7m
6m
5m
4m
3m
2m
1m
0
Vacuum SensorPiezometerExtensometer
Inclinometer
GPS Antenna
Settlement Plate
Geomembrane
Firm Stratum
Sand Cushion
LEGEND
Water Surface
Water
A - A Section
LowPermeable
SoftClayLayer
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Settlement monitoring by conventional manual leveling
Settlement Plate
gradienter(level instrument)
Sopwith StaffSopwith Staff
Steady Point(reference point)
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Settlement Monitoring by GPS – WHY ?
Absolute 3D coordinates measurement including height
All weather operation
high measurement rate – up to 20Hz is possible
Real-time result presentation
synchronized measurement –provide timing for other sensors
Good for area that is difficult to access regularly
can measure over long baselines
low maintenance and a long service life
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Advanced GPS Monitoring Principle Real-time / Post-processing is possible
Double check of the positioning results
ReferenceStation 1.
Reference station 2.
Monitoring point
Monitoring point
The baseline between the reference stations can also be monitored to check
their long term stability.
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Selecting the ideal GPS monitoring receiver GMX901 vs GMX902 vs GRX1200 GG ProSelect the GMX901 when you need:
Lowest cost, single frequency12 channels L11Hz data ratePost processing, short baselines (<10km)
Select the GMX902 when you need:Low cost, dual frequency, PPS12 channels L1 + L2High speed (20Hz)Real time, long baselines
Select the GRX1200 GG Pro when you need:72 channels GPS + GLONASSHigh speed (20Hz)Onboard logging, web interface
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GPS Monitoring SolutionsGPS Management and Processing Software
Leica GPS Spider v2.0 Positioning is the most flexible application software for managing GPS receivers and centrally processing all combination of baselines at high rates (up to 20Hz) with the highest accuracy in both real time and post-processing.
The results are streamed out through serial ports, TCP-IP ports, files or to an SQL database in various formats like the well known NMEA format for interfacing with analysis software.
RINEX files can be generated from the real time data stream or by periodical downloading for post processing, archive or in-depth studies of multi-path effects and other investigations.
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GPS Monitoring Result Analysis
High Speed AnalysisData input from NMEA GGA , GGQ and LLQ data stream, files and Spider Post Processing database
High speed (20Hz) data and graphing of data from serial and TCP/IP
Limit Checks and MessagingThree levels of absolute limit checks for each of longitudinal, transverse, height, 2D and 3D displacement
Messaging (email, SMS, external applications)
Site AssessmentQuality check of raw GPS observations
Multipath and SNR analysis
The Plot View tab showing a real time graph of height displacement for three NMEA data streams output by
Leica GPS Spider Positioning Products
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Advanced GPS Processing with GPS Spider
Direct power supply (220v)
Reference Station(s)
GPS Spider
LANNMEAX,Y,Z
Monitoring Point Monitoring Point
Power Supply / Solar panel
Radio Modem, GSMWireless LAN
Cable (RS232, RS485)
Real time, permanent connection
orPeriodic downloading for
post processing (using GRX receiver)
GMX901 or GMX902 or GRX1200 receiver
GMX901/GMX902 GMX901/GMX902
-Profiling
-Limit checks
-Messaging
-Analysis
-GPS computation
-Raw data archiving
-Sensor configuration
GNSS QC
Other Sensors
GeoMoS
Power Supply / Solar panel
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GPS receivers operation – overcame problem of manual leveling in inaccessible areas
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Data Collection and Remote Data TransferSolar Panel
Battery
Datalogger
Modem
Antenna
Sensor Cables
Equipment Shed
Wireless
Modem link
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Results: vacuum pumps
Vacuum Pump
- 100
- 80
- 60
- 40
- 20
0
20
40
10- 26- 06 11- 10- 06 11- 25- 06 12- 10- 06 12- 25- 06 1- 9- 07 1- 24- 07
Dat e
Vacu
um P
ress
ure(
kPa)
57372
57373
57374
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Results: Surface Settlement
WaterSand CushionGeomembrane
0
100
200
300
400
500
600
700
800
-30 -20 -10 0 10 20 30
Set
telm
ent(m
m)
2006-11-22006-11-172006-12-22006-12-172007-1-22007-1-19
Distance(m)
CenterLift Right
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Results: Leveling vs GPS measurement
-1.18
-1.15
-1.12
-1.09
-1.06
-1.03
-11-16-07 1-21-07 1-26-07 1-31-07 2-5-07
Date
Hei
ght(m
)
-1.1
-1-0.9
-0.8
-0.7-0.6
-0.510-30-06 11-22-06 12-15-06 1-7-07 1-30-07
Date
Hei
ght(m
)
GPS
Settlement Plateat center
0
150
300
450
600
750
10-10-06 11-9-06 12-9-06 1-8-07 2-7-07
Date
Sette
lmen
t(mm
)
100 mm
100 mm
Manual Leveling
GPS Leveling
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Summary
Full-scale fully instrumented field test has shown that offshore vacuum preloading is feasible.
GPS monitoring result agreed very well with the conventional leveling measurement.
GPS proves to be operating in all weather condition and suitable in operating in difficult access location.
Remote wireless instrumentation and GPS provided movement measurements in inaccessible areas.
Many Thanks for Your Attention.