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Are you looking for software for design and certification of onshore and offshore wind turbines? DNV’s Bladed is the industry leading wind turbine design software.
Openwind is a wind farm design and optimization software used throughout a wind project’s development to create optimal turbine layouts that maximize energy production, minimize energy losses, account for plant development costs and generate overall project efficiencies.
Ansys offers comprehensive wind turbine simulation, from embedded software to siting, predictive maintenance and digital twins.
Bladed software is the leading solution for designing and certifying wind turbines for onshore and offshore applications. It enables you to build realistic and sophisticated simulations of wind turbines and their operational environment.
Ashes is a design and analysis software for onshore and offshore wind turbines—giving you a rich user interface, and a fully capable and optimized aeroelastic simulation core. We hold the following to be true: User experience (UX) is as important as getting the numbers right. Even for engineers.
windPRO is the industry leading software suite for design and planning of wind farm projects. Successfully used by both large corporations and small entrepreneurs, windPRO is recognized and accepted by banks and authorities worldwide.
In the early stages of a floating wind project, different system configurations need to be evaluated quickly for an efficient design optimisation. Bladed simplifies this process with comprehensive models for floating wind coupled analysis, capturing all the relevant physics in one tool.
Bladed Next Gen is a new version of Bladed under development, aiming to bring greater flexibility and efficiency to meet the challenges of modern wind turbine design. 1. Project upgrader. 2. JSON inputs. 3. Calculations. 4. Turbine model. 5. Python inputs API. 6. JSON support.
Wind energy industry leaders choose WindSim. Meet the family. How does it help? Our customers optimize park layouts by identifying turbine locations with the highest wind speeds—but with low turbulence—to maximize production. They minimize loads on turbines to prevent potential problems.
As wind turbines continue to increase in size, turbine designers need modeling tools that can provide accurate representations of the forces acting on larger turbine blades that cause them to flex and bend as they rotate.