Benefit from our tools tailored for cost-optimization!
To support our holistic development approach, we leverage a diverse array of software solutions, with the majority developed in-house.
MOCCA, WICCA, ENCCA, and C2ParkSitingTool serve as our MATLAB and standalone tools for Site Conditions Assessments, Wind Resource- and Energy Yield Assessments.
These are complemented by our suite of software solutions including C2FLEX, C2MONDE, and C2JACK for load effects analysis and design optimization.
- With MOCCA, our capabilities extend to processing measurement and hindcast model time series, enabling us to conduct sophisticated metocean analyses including two-dimensional Wind-Sea and Swell separation, extreme value analysis, metocean validations and other cutting edge analysis intended for Site Conditions Assessment. As experts in the field, C2Wind leverage MOCCA to unlock valuable insights and optimize project outcomes.
- With WICCA, we conduct comprehensive wind- and atmosphere-related Site Conditions analyses, including high-frequency and spectral analysis of wind conditions and Extreme Wind assessments. Leveraging our expertise, we utilize WICCA to ensure precise and thorough analysis, driving optimal and site-specific project decisions.
- ENCCA is the tool C2Wind uses for our Wind Resource and Energy Yield Assessments. This includes analyses of atmospheric stability, wind speed extrapolation, power curve and power performance, wake calculations, yield time series, and more. We utilize ENCCA to deliver accurate and insightful assessments, driving informed decisions for optimal project outcomes.
- C2ParkSitingTool: With C2ParkSitingTool we conduct comprehensive assessments of wind farm-induced turbulence intensity. The analysis considers the presence of all turbine positions and neighboring wind farms, with any turbine type and layout.
- Methodology validated against measurements from numerous meteorological masts and offshore wind farms.
- Certified by DNV and validated within the Offshore Wind Accelerator (OWA) program.
- 10+ years of expertise and experience.
Contact us: Let us know what we can do for your project
Jens Lycke Wind
Senior Specialist
+45 3126 1328
JLW@C2Wind.com
- C2FLEX: Empowering wind energy analysis, the C2FLEX tool by C2Wind offers unparalleled capabilities in turbulent wind- and hydrodynamic load modelling, through Integrated Load Analysis. With C2FLEX, we conduct meticulous analyses of load effects, ensuring precise understanding and optimization of wind turbine structures.
- Meticulously validated against existing top 5 OEM turbine models, guaranteeing accuracy and reliability in every assessment.
- Whether it's assessing wind-induced vibrations, hydrodynamic forces on offshore structures, or integrated load responses, C2FLEX stands as a cornerstone of excellence in wind and hydrodynamic load effect analysis.
- Trust in C2FLEX to deliver comprehensive insights and drive informed decisions for your offshore wind projects.
- C2MONDE stands as C2Wind’s proprietary and DNV-certified design software, meticulously crafted for the analysis, verification, and optimization of monopile substructure and foundations. C2MONDE represents a holistic solution tailored to address the multifaceted challenges of the offshore wind industry. We're proud to offer this cutting-edge software framework, empowering our clients to make informed decisions that drive efficiency, enhance outcomes, and optimize project budgets.
- Comprehensive assessment of monopile, transition piece, and turbine tower designs, ensuring structural integrity and design optimization.
- Designed for project optimization, mitigating risks, expedite time to market, and ensure scalability, security, and transparency.
- This approach streamlines processes, cuts costs, and accelerates project certification, all within a matter of hours.
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C2JACK stands as C2Wind's proprietary jacket substructure design framework, seamlessly integrating multiple software disciplines into a unified toolchain for comprehensive validation of jacket substructure designs. Wind load effects undergo meticulous analysis through C2FLEX, while hydrodynamic loading is accurately captured using cutting-edge Finite Element ocean modeling within the ANSYS framework. Utilizing detailed Finite Element sub-models, we derive the influence matrix for each tubular joint, ensuring confidence in critical design aspects. For extreme and fatigue post-processing of jacket substructure results, we employ MATLAB, presenting findings in a clear and easily understandable format.
