How Sideshore Technology Can Optimise The Layout Of Your Offshore Wind Farm By Applying State-Of-The-Art Algorithms
The title of this post, is the same as that of this article on offshoreWIND.biz.
This is the sub-heading.
Smarter offshore wind farm layouts will accelerate the energy transition
These paragraphs outline the problem.
Wind farm layout optimisation is the art of defining the optimal locations of wind turbines, infield cables and substation structures. It presents a golden opportunity to increase project value.
The academic community has done extensive research into numerical wind farm layout optimization, however, in real projects, it is hardly ever applied. Wind farm layout optimisation is complex because it is multidisciplinary. A wind farm development is typically split into work packages (turbine, foundations, cables, substation). The location of each turbine influences the project cost across the various work packages. While wake effects are important, other aspects need to be considered as well. For example, water depth affects the foundation size. Turbulence levels need to be restricted. And cables, seabed preparation, and soil conditions are often neglected, while they too can have a substantial impact on costs. Fully optimising the turbine positions requires not only insight into wake interactions and the cost drivers across all work packages but also a way of linking everything together.
My project management software writing experience would take a system like this further and use the output pf their system to create the project network for a project management system.
The possibilities then are endless.
Entrion Wind Wins ScotWind Feasibility Deal For Its 100-Metre Depth Foundation Tech
The title of this post, is the same as that of this article on offshoreWIND.biz.
This is the sub-heading.
Entrion Wind has been awarded a project to evaluate the feasibility of its patent-pending fully restrained platform (FRP) offshore wind foundation technology by a Scotwind developer.
Having worked on similar structures for reusable oil platforms in the 1970s, I reckon these FRP monopoles can be made to work.
The structures, I mathematically-modelled were for a company called Balaena Structures, that had been started by two Cambridge University engineering professors. The structures were about a hundred metres high and perhaps thirty metres in diameter.
They would have been built horizontally in the sort of dock, where you would build a supertanker and would have been floated into position horizontally. Water would then be let in to the cylinder and they would turn to the vertical. From that position, they would be lowered to the sea-bed by adjusting the water in the cylinder. They had a method of holding the Balaena to the seabed, which relied mainly on the weight of the structure and what they called the gum-boot principle.
Sadly, they never sold any platforms and the company folded.
Until recently, you could find the expired patents on the Internet.
There’s more on Entrion Wind’s technology on this page on their web site.
The Anonymous Widower 