Sideshore Technology
Boosts the business case of your offshore wind farm
At Sideshore Technology, we believe data science and optimisation methods will play a key role in the transition to a more sustainable world. We optimise the layout of offshore wind turbines, substations, and cables holistically, applying smart algorithms rather than engineering assessments. This ensures that our clients save millions and accelerate the energy transition to a more sustainable world.
Our approach
Sideshore Technology brings together the worlds of offshore wind project development and high-performance numerical optimisation to create optimal wind farm layouts
Wind farm layouts are often designed using a simplistic iterative process, where the turbines are arranged in regular grids with a fixed orientation relative to the prevailing wind direction. The array is designed based on engineering judgement by yield specialists. The interaction between the wakes of each turbine and the impact on other cost drivers are not taken into consideration accurately, or not at all.
Indeed, the dominant cost driver is the wake generated by the turbine rotors, but water depth and soil conditions can have a significant impact on the foundation and cable costs as well. Full optimisation of the turbine positions requires not only insight into the cost drivers across all the relevant wind farm elements, but also a model which links all these elements together. And this is exactly what Sideshore Technology does.
The Layout Doctor
With our clients, we define the cost drivers and boundary conditions across all packages, bring them together in a single model, and optimise the wind farm layout automatically using our proprietary optimisation techniques and software tool, the Layout Doctor. The optimisation applies parallel computing methods run on GPUs and multicore CPUs. Our cost models are tailored to project specifics and include wake interaction, foundation cost, and seabed preparation costs. The optimisation also accounts for project boundary conditions such as minimum distances, exclusion zones, and avoiding excessive turbulence. Our software is developed in-house, allowing new requirements or project-specific cost models to be added swiftly.
The resulting designs typically outperform “old fashioned” layouts with tens to hundreds of millions of Euros saved over the lifetime of a wind farm, providing a firm improvement of the project business case.
List of highlighted news articles
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New Research Project to Study Offshore Wind Energy Yield in UK
Categories:- Business development
Posted: 16 days ago -
G-TEC Completes Seabed Survey in Dutch Doordewind Zone
Categories:- Project Updates
Posted: 1 day ago -
Cerulean Adds Ocean Installer to Aspen Floating Wind Team
Categories:- Business & Finance
Posted: 18 days ago -
OEEC: Extending OWF Construction Window Will Cut Costs
Categories:- Contracts & Tenders
Posted: about 1 month ago