Discover our complete solutions portfolio covering Cathodic Protection and Corrosion management - PCB design and plating - Functional and decorative plating - Electrocoating - Acoustics
Elsyca V-PIMS
A revolution in digital PIMS combining Pipeline Corrosion Integrity Management System (PIMS) and computational modeling capabilities
Elsyca IRIS
Deep analysis of AC threats supporting efficient mitigation systems computer-aided design
Elsyca CatPro
Graphical simulation platform for cathodic protection and DC stray current analysis of pipeline networks
Elsyca CPManager
3D CAD-based software simulation platform for the computer-aided design and analysis of cathodic protection installations
Elsyca ACTA
Unique solution offering accurate, disambiguated, and tailored risk ranking report of pipeline networks
Elsyca PlatingManager
Leverage a digital twin of your plating line to predict plating performance and increase manufacturing capacity
Elsyca PCBBalance
The world’s only PCB DFM software that applies automated and optimized copper balancing to your PCB design and panel layout.
Elsyca PCBPlate
State-of-the-art graphical simulation platform for enhancing the plating performance of your PCB panel and pattern plating processes.
Elsyca ECoatMaster
CAD independent software platform for the simulation of the automotive electrocoating process of a body-in-white (BIW).
Elsyca EPOS
Simulate the performances of electropolishing processes based on a virtual mock-up of the electropolishing cell.
Elsyca AnodizingManager
State-of-the-art graphical simulation platform for analyzing the production performance and quality of anodizing processes.
Elsyca CorrosionMaster
CorrosionMaster identifies corrosion hot spots and predicts corrosion rates, enabling engineers to look at alternative material combinations and/or coating systems, or investigate corrosion-mitigating measures.
Elsyca LeakageMaster
Improve vehicles interior acoustic comfort by performing upfront virtual smoke tests.
Elsyca MeshingMaster
Automatically creates meshes for a variety of applications such as acoustics, CFD, thermal analysis, etc
Elsyca XPlorer
Interactive simulation results viewer for Finite Elements results
Elsyca XPlorer3D
Analyze, Understand and Get Immersed in your results

Offshore Wind Farms

Prevent external and internal corrosion of wind turbines structures

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Supporting the renewable energy market

Computer-aided designs of cost-effective corrosion protection systems

The support structures and foundations are vital parts for offshore wind turbines to ensure the continuity of operations. Following regulation requirements asking for computed based modeling of cathodic protection systems, Elsyca's solutions support the offshore wind farms industry to:

  • Quickly and accurately analyze internal and external corrosion phenomena;
  • Develop, by mean of computer-aided design solutions, effective corrosion protection systems including Sacrificial Anode Cathodic Protection (SACP) or Impressed Current Cathodic Protection (ICCP);
  • Ensure compliance with regulations.

Our expertise and solutions are currently protecting more than 1700 wind turbines worldwide

Covering all aspects of corrosion protection

External Corrosion

Whatever the corrosion protection method (ICCP or SACP), quickly assess the protection level and the local current density on the structures. Corrosion prevention and maintenance teams can: 

  • optimize anode configurations and coating coverage;
  • evaluate time-dependent effects like coating degradation and calcareous deposit formation;
  • predict the service life of sacrificial anodes;
  • plan and budget retrofit programs;
  • evaluate ROV inspections more accurately;

Internal Corrosion

Corrosion can also appear in internal closed compartments. Elsyca's solutions for cathodic protection computer-aided design and analysis allow considering all internal conditions parameters affecting corrosion growth rate including:

  • dissolved oxygen and chlorine;
  • temperature;
  • salinity;
  • pH-values and potentials.

Follow recommended practice

International guidances on the development of CP systems recommend the use of computer-based modeling solutions to:

  • demonstrate the number and location of electrodes is adequate;
  • demonstrate the protection of the structure;
  • assess the adequate potential distribution;
  • consider the time-dependent relation between cathodic current demand and protection potential.

Whatever the structure type, we bring visibility and understanding on corrosion status and protection efficiency

Elsyca's solution optimizes the Sacrificial Anode Cathodic Protection (SACP) or Impressed Current Cathodic Protection (ICCP) systems of submerged structures considering:

  • structure geometry ;
  • seawater velocities and resistivity;
  • water refreshment and retention time;
  • gas venting rate (H2, O2, and Cl2);
  • change in water chemistry (pH, conductivity, bicarbonate, and carbonate).

Curious to know more about our solutions? 

Get in touch with our team of experts