Development of Generic Guidance for Sediment Transport Monitoring Programmes in Response to Construction of Offshore Wind farms
Project AE0262
Abstract
This research will assess the magnitude and significance of
changes to the nearshore sediment transport and sediment transport
pathways as a result of the construction of an offshore wind farm
on Scroby Sands. Using field measurements of coastal processes, the
work will contribute to the formation of generic guidance to
Defra as part of the FEPA (1985) licensing process,
and thereby maintain the sustainable development of offshore wind
energy.
Government is presently promoting energy production from
renewable sources, with a target to increase production from this
source to 10% by the year 2010. The development of offshore wind
farms has consequently received significant attention, and indeed,
the decision to grant FEPA license to developers of an offshore
wind farm within coastal waters on Scroby Sands was recently made
(March 2002). However, during this licensing process, two issues of
potentially major importance to the development of the adjacent
inshore region became apparent: those of wave focusing on the
adjacent coastline (see additional proposal submitted in mini-CSG7
form as an additional study), and the change to regional sediment
transport and its consequent effect on large-scale geomorphic
features. This proposal details research to resolve the latter
issue. The magnitude and significance of its anticipated impact
remained without consensus and hence a study was made as a
condition of the FEPA license. The issue has potentially
significant consequences for coastline management, particularly for
dynamic and vulnerable coastlines that may be susceptible to
coastal erosion. Through theoretical calculations and modelling,
the confidence with which it is presently possible to predict the
magnitude of this sediment transport is low, and, more importantly,
is such that under the specification imminent for the next
generation of wind farms, the potential changes to geomorphic
features may take on a yet greater significance. Consequently,
through observation and subsequent validation of theoretical
calculations, there is an urgent requirement to improve scientific
understanding on this issue in time to provide informed advice to
the FEPA licensing process, which may be relevant to generic wind
farm development.
The project will primarily aid licensing decisions and UK policy
and advice on offshore wind farm development (FEPA 1985), thereby
supporting Defra's remit for responsibility for the sustainable
development of the marine and coastal environment. Researchers and
consultants may also use these unique field measurements, and the
enhanced scientific understanding gained from the provision of the
generic information, in order to confirm the validity of sediment
transport models.
Scientific Context
There are insufficient funds within this project and AE1227 to
monitor sediment and wave conditions at even a short list of the
proposed OWFs. Therefore, a single site has been chosen in which to
concentrate resources and effort. The selection of the Scroby OWF
site is also supported by the findings of the ABPmer/ETSU report
identifying Scroby as the worst case scenario in the first round of
developments, in terms of potential impacts on coastal processes.
This project and AE1227 will hopefully act in a "pump-priming"
manner and help increase confidence in numerical models which are
severely lacking in terms of calibration in these shallow water,
high energy environments where many large scale OWFs schemes are
proposed eg. Outer Wash and Thames estuaries. Industry through
their consultants can use these datasets to help increase the
confidence in numerical models and thus make the information flow
from this site more generic.
The calibration of current numerical sediment transport models
rely on a small set of observations in relatively deep water
(>20m) and moderate tides. In this proposal we aim to extend the
range of conditions under which these numerical models have been
validated. Specially, we aim to collect wave, current and suspended
sediment data pre and post construction of a wind farm in winter
and summer seasons from the "top" of Scroby Sand bank, offshore at
a control site and inshore in the deeper channel. Additional
sidescan and bathymetric surveys will be undertaken during the five
field campaigns. These data sets will be of high quality with
adequate water, sediment and depth records for calibration and
validation of the appropriate datasets. For instance, the platforms
for measuring current and suspended sediment will have roll, pitch
and compass sensors to check for movement of the frame as well as
suspended sediment traps (Bonner tubes) for post deployment
calibration of OBS sensors in a turbidity tank (as well as
in-situ water samples taken at the beginning and end of
each deployment).
If take up of these potentially unique datasets in this and
AE1227 projects is low, we will be looking for further resources to
fund an intercomparison exercise of sediment and wave numerical
models.
Objectives
- To collect a dataset of waves and currents over a spring/neap
cycle on sandbanks for use in calibration and validation of
numerical models for potential impacts of wind farms
- To assess gross changes in sediment transport during winter and
summer seasons pre- and post- construction to compare any effects
due to wind farm construction
- To undertake suspended sediment monitoring during windfarm
construction using a combination of OBS profiles and water samples
(with "in-kind" help from the developers - e.g. access to piling
vessels during construction), to monitor potential effects of
piling and ship movements
- To liaise with numerical modellers on the implementation of the
validation and to help develop further models if results indicate
poor performance. There is no specific modelling effort in this
proposal. Developers and users of numerical models (HR, ABPMer,
Posfords, Halcrow amongst others) will be invited to test their own
models against these new datasets. These datasets will help
"benchmark" the models and identify strengths and weaknesses
inherent in each modelling approach. This will provide "in-kind"
support from industry through their consultants.
- To produce a GIS showing the sedimentological and hydrographic
distributions for use in interpretation and licensing procedures.
Maps of individual bedforms (megaripples, sandwaves etc) will be
created from the interpreted side-scan sonar records as in the
Southern North Sea Sediment Transport Study (see www.sns2.org for
full details). Five snap-shots of the bedforms should enable
detection of any gross changes of sediment transport regime and
make a comparison with natural seasonal and interannual variations.
This information may also help in zone management of OWFs in
relation to monitoring and assessing the impact of scour protection
around each monopile.
- To interpret the significance of findings for the management of
windfarm licensing.
Approaches
Five fieldwork campaigns are proposed:
- Pre Construction - Winter 02/03
- Pre Construction - Summer 03
- Pre Construction - Winter 03/04
- Post Construction - Summer 04
- Post Construction - Winter 04/05
(each survey is planned to be in the same month as the previous
equivalent campaign)
During each fieldwork campaign the following will be
undertaken:
- Two instrument mooring sites with directional wave gauge,
Optical Backscatter Sensor (OBS) and current meter (except Summer
03).
- At offshore site, a directional wave gauge if sufficient
resource available.
- One bathymetric (line) and side scan surveys over "near-field"
(turbine grid -100 % coverage) and "far-field" (one tidal ellipse
either side of the grid).
- Water samples for suspended sediment concentration to enable
calibration of OBS. These to be taken at both sites, once an hour,
over a tidal cycle. This will be combined with suspended sediment
samples collected from a sediment trap mounted on the lander. These
samples will be used in a turbidity tank to calibrate the OBS
sensors over a wide range of concentrations. The lithology of
sediment layers within the sediment traps will be analysed for
tidal rhytmites and storms events.
Within each campaign rigorous quality control procedures will be
applied to each data set to check for internal consistency in each
deployment and between deployments.
Milestones
| Action |
Date |
Description |
| 01/01 |
July 2003 |
Complete 1st Fieldwork
programme(Winter) and report to board |
| 01/02 |
Oct 2003 |
Complete 2nd Fieldwork programme
(Summer) and report to board |
| 02/01 |
July 2004 |
Complete 3rd Fieldwork programme
(Winter) and report to board (subject to Wind farm being installed
spring/summer 2004) |
| 02/02 |
Sept 2004 |
Complete ad hoc sampling during construction phase
and report to board (subject to Wind farm being installed
spring/summer 2004) |
| 02/03 |
Oct 2004 |
Complete 4th Fieldwork programme
(summer) and report to board (subject to Wind farm being installed
spring/summer 2004 |
| 02/04 |
Feb 2005 |
Complete 5th Fieldwork programme
(winter) and report to board (subject to Wind farm being installed
spring/summer 2004) |
| 02/05 |
Jan 2005 |
Complete GIS (updates posted at regular intervals
on web) |
| 02/06 |
March 2005 |
Delivery of final report and recommendations |
Secondary Milestones
| Action |
Date |
Description |
|
01/01
|
March 2003
|
Setup Management board
|
|
01/02
|
Jun 2003
|
Setup GIS and Publish on Web
|
|
01/03
|
Feb 2004
|
Update GIS on website
|
Results
Scroby Windfarm MiniLander deployments
(Ae0262)
1) Scroby deployment 1
2) Scroby deployment 2
3) Scroby deployment 3
Final Report for the
Department of Trade and Industry (PDF, 3.2 MB)