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Winds (what I know and what I don

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Anemometer height may be too low. Buoy heave, pitch, and roll may affect measurements. ... Anemometers. on masts. The End. Design Points when Winds and Waves ... – PowerPoint PPT presentation

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Title: Winds (what I know and what I don


1
Winds(what I know and what I dont know)John
HeidemanExxonMobil Upstream Research Co.OGP
WorkshopApril 2001
2
Presentation Outline
  • Importance of winds to floaters
  • Wind data sources and uncertainties
  • Wind models for large-scale storms
  • Wind models for squalls

3
Importance of Winds to Floaters
4
Idealized Wind Record
5
Turbulent Wind Fluctuations May Be More Important
than Waves for Some Floater Responses
6
Wind Data Sources andUncertainties
7
Platform Measurements
Structure interferes with flow.
Measure sustained wind and gusts at top of
derrick and measure air and sea temperature.
Adjust winds to reference level, accounting for
platform interference.
8
Buoy Measurements
9
Satellite Winds
  • Altimeter and Scatterometer
  • Agree well with ground truth up to about 20 m/s
  • Biased low (5-15??) for speeds above 20 m/s due
    to calibration with biased buoy winds and
    saturation
  • Algorithms are being improved may be good to 35
    m/s eventually

10
Visual Observations
  • Estimated from the appearance of the sea
    (Beaufort scale)
  • Subjective
  • Require correction for systematic bias (Cardone,
    for example)
  • U19.5m 2.16 (UBeaufort )7/9

11
Hindcast Winds
  • Represent one-hour average speed at 10 m (or 20
    m)
  • Accuracy depends on quantity and quality of
    available wind and pressure data and assimilation
    methods
  • Do not account for subgrid-scale features such as
    jet streaks

12
We lack an absolute standard 1 hr, 10 m reference
wind database over the whole dynamic range up to
40 m/s!
13
Wind Models for Large-Scale Storms
14
Froya Wind Measurements
Statoil-sponsored JIP on west coast of Norway
Froya
15
Wind Tower at Sletringen
  • Wind speed at 5, 10, 20, 42, 46 m above land
    surface (4 m)
  • Wind direction at 45 m
  • Air temperature at 5 45 m
  • Sea temperature at 5 m below sea surface

16
Wind Towers at Skipheia
  • Wind speed at 10, 20, 40, 45, 70, 100 m above
    land surface (20 m)
  • Wind direction at 41, 45, 100 m
  • Air temperature at 2, 10, 40, 70, 100 m

17
Sletringen Wind Database
Primary input to NPD wind description
  • 40-min records _at_ 0.85 Hz
  • 1726 complete records

18
Data Analysis Considered Wind Speed and Stability
19
NPD Wind Relationships (Neutral)
Based on Froya wind database and analysis
20
Profiles of Wind Speed
21
Profile of RMS Turbulence
22
NPD Wind Relationships (Neutral)
23
Spectra
24
NPD Wind Relationships (Neutral)
25
Coherence Length(squared coherence e-1)
26
Uncertainty in Wind Relationships for Large-Scale
Storms
  • Applicability to wind speeds above 25 m/s, beyond
    the range of the science quality calibration
    data
  • thought to be applicable, since
    parameterizations are consistent with recognized
    principles of atmospheric boundary layer theory,
    and high quality, near-neutral data
    representative of very high wind speeds were used
    to derive the parameterizations
  • Applicability to tropical storms
  • thought to be applicable except in regions of
    strong convection near the eye
  • Applicability to frontal passages and squalls
  • not applicable

27
Wind Models for Squalls
28
West Africa Wind Measurements
  • Data collected between December 1996 and July
    1998
  • 1 Hz measurements at top of derrick, 83 m above
    mean water level
  • 10 squalls with 1-second gusts above 20 m/s

29
Squall Winds are Not Stationary
30
Suite of Scaled Squall Time Series
31
Broadside Squall Winds on Tandem Moored Vessels
32
Squall Wind Unknowns
  • Vertical, transverse, and longitudinal coherence
    of gusts
  • Proper averaging time for sustained speed in
    wind load and response calculations
  • Vertical profile of speed
  • Statistics of speed buildup and decay rates
  • Statistics of direction change rates
  • Extreme (100-year) speed

33
Potential Squall Wind Measurement Program
  • Squall winds affect floating structures offshore
    West Africa, but little is known of their spatial
    structure.
  • Measure spatial and temporal variation of wind
    fields in squalls using state-of-the-art
    instruments.
  • Mount instruments on bridge between platforms
    offshore Nigeria for a couple of years.

34
The End
35
Design Points when Winds and WavesAre Both
Important
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