Noise Mitigation System Installation Analysis

“De-risking installation of next-generation noise mitigation technology for offshore wind.”

Project Summary

TADEK was approached to model and simulate the overboarding and installation of a 2500t Noise Mitigation System (NMS-T-10000), designed to reduce waterborne noise by approximately 15 dB during monopile installation.

The Challenge

Installation required proving controlled behaviour of a 2500t coupled offshore system under defined environmental limits, with uncertainty in hydrodynamic response and structural interaction.

  • Crane operability constrained by wire angle limits up to Hs 3m
  • Splash-zone and overboarding dynamics driving peak responses
  • Uncertain contact loads between NMS and template structures
  • Tight tolerances for monopile positioning
  • Requirement for independent verification by Heerema

TADEK‘s Role

TADEK owned the hydrodynamic modelling and installation assessment required to define system behaviour, loads, and operational limits.

  • Developed full-system hydrodynamic model and RAOs
  • Performed time-domain motion and installation analysis
  • Assessed crane wire angles and operability limits
  • Defined contact loads for fendering and structural interfaces
  • Calculated rigging loads and Dynamic Amplification Factors (DAFs)
  • Delivered verified inputs to support design and installation decisions

Our Approach

A validated modelling approach was used to reduce uncertainty and define governing system behaviour under installation conditions.

  • Built a fully coupled OrcaFlex model including hydrodynamic and contact effects
  • Calibrated numerical response against Heerema tank test data
  • Identified governing environmental conditions and response drivers
  • Quantified extreme and operational load cases for design input
  • Incorporated design updates, including mud mat optimisation, into analysis

Outcomes

The work established verified installation limits and design loads, enabling confident execution and progression to fabrication.

  • Installation feasibility demonstrated within crane limits up to Hs 3m
  • Numerical model validated against physical tank testing
  • Governing load cases defined for fendering and structural design
  • Hydrodynamic loading reduced through informed design refinement
  • Results accepted by Heerema and IQIP for design use
  • Installation risk reduced through quantified and validated analysis
Thialf Panama Hareema

YEAR

2023

MARKET

Renewables

TADEK TEAM

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