The following conclusions and recommendations concerning future RTD-activities in most cases imply the construction of offshore farms, as monitoring programs and Before-After-Impact-Studies carried out at specific sites often represent the only possible way to achieve exact knowledge or at least an improved understanding of the impacts from offshore wind energy, particularly on the environment.
Furthermore, the offshore wind farms already constructed or planned may yield important information concerning issues like social acceptance and conflicts of interest if research projects dealing with these issues are carried out.
Therefore the recommendations below (Section 7.2) should not be regarded as barriers for the future development of offshore wind energy – on the contrary, it is necessary that offshore construction projects are carried out, and in many cases it is necessary that some large-scale projects are carried out in order to achieve more information and knowledge regarding especially environmental issues.
These projects must however be subjects of intensive national and EU-funded research in order to reach conclusions about the impacts from offshore wind energy in relation to environmental questions, social acceptance and conflicts of interest: It is highly recommended that the present uncertainties and knowledge gaps are replaced by knowledge and certainty before real large-scale development of offshore wind energy is initiated.
Potential negative environmental impacts:
· collisions with turbine
· turbines acting as barriers for migrating birds
· ousting of feeding/breeding areas due to
o noise emission from turbines in operation and vessels during construction, maintenance and dismantling
o movements of blades
o serious changes in food chain, e.g. due to new sediment structure and “unnatural” reef effect
accidents (collisions with e.g. oil tanker
not only causing ousting of birds due to oil spill, but also killing birds)
· loss of habitat due to
o noise emissions
o movements of blades
o food chain changes
o electromagnetic fields and vibrations, e.g. affecting the sonar system
· impacts on fish and fish larvae fromsedimetation/turbidity, underwater nelectro
· effects from unnatural reef
· effects of accidents
· changes in sediment structure
· direct loss from foundation and cable footprints
· impact on biotope from foundations/hard substrates and electromagnetic fields
· disturbance/destruction of benthos due to accidents with ships/aircrafts
· impact on coastline due to current/sediment changes arising from cables
· impact on coastline due to accidents
· man-made obstacles in an otherwise structureless landscape
· increased blade tip speed and the ability of sound to propagate more efficiently on sea surface may lead to noise impacts
· impact on birds, sea mammals and fish from underwater noise
Conflicts of interest:
· with ships (including maintenance vessels), helicopters and low-flying aircrafts
· disturbance of radar and radio signals
· reduced acceptance due to unsolved environmental impact questions, lack of public influence on project (e.g. farm layout) and lack of public financial involvement in/ownership of offshore farms
· insecure/insufficient support mechanisms will block future large-scale development of offshore wind energy
I: are (also suggested in [xxxvii]) Conclusions from local projects should be translated and all relevant existing material placed on a publicly accessible web site.
As studies regarding the impact of offshore wind farms on birds and general studies on migration patterns are sparse, and as the effects depend on many different parameters, more knowledge is needed, both as general studies concerning bird migration and as site-specific studies: Ecological monitoring programmes/ Before-After-Impact-Studies are highly desirable in order to judge the effect on birds
· /SPA and proximity to offshore farms
· Define flight paths
· Investigate how to minimize impacts from different farm and turbine layout (incl. marking requirements)
· generic are called for
· (e.g. from placement of monopiles) Sare necessary e.g. the consequences hereof(with net)
· and benthos . How will the foundations/hard substrates and cable footprints/electromagnetic fields influence base-line biotope? Investigations should seek to enhance habitat, e.g. by use of appropriate foundation design.
· Research of cpossibilities seen from different angels, levels and at different weather conditions in order to make visualisations comparable to real-life conditions.
· Clearer definitions of marking requirements.
Conflicts of interest:
· Risk collision and air
· Radar and radio disturbanceUK and Swedish
· iesthe effects of fin relation to
Fish, birds and other groups:
Identification and avoidance of sensitive areas
Avoidance of site works during sensitive time periods
design to accommodate flight paths, where these are defined.
of noise levels during construction, operation and dismantling
effect of structures and cabling on stocks
sedimentations and turbidity
Hydrography, currents and water quality:
Use of appropriate foundation design
use of pollutant chemicals when foundation, tower and turbine are protected
against marine environment
Early assessment taking account of distance from shore, marking lights and nature of viewpoints
marking lights taking into account safety issues (most important) and visual
impact on man and animal
Ongoing PR work to counter poor publicity
good standards of noise emission despite increases in turbine size and tip
of openness and local involvement
Develop risk management methods and emergency procedures in order to reduce risks of ship collision and to minimize consequences of collisions
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