Job Summary
We are seeking a highly motivated and technically advanced
Iterative Looping Analysis Expert
to lead the development and implementation of high-fidelity, multi-physics simulation frameworks for
floating offshore wind turbines (FOWT)
. This critical role focuses on enabling accurate, converged system-level performance predictions through the integration of aerodynamic, hydrodynamic, structural, control, and mooring system models in
closed-loop, iterative co-simulation environments
.
The ideal candidate will have deep expertise in numerical convergence strategies, coupled simulation methodologies, and the dynamic behavior of floating platforms. You will work at the forefront of floating wind technology, driving innovation in design optimization, load prediction, and system integration for next-generation offshore wind farms.
Key Responsibilities
* Design, develop, and maintain
iterative co-simulation workflows
that tightly couple aeroelastic (e.g., OpenFAST, Bladed, HAWC2), hydrodynamic (e.g., WAMIT, AQWA, HydroDyn), structural (FEA), and control system (Simulink) models to simulate floating wind turbine dynamics.
* Implement and optimize
iterative looping strategies
to achieve convergence in key parameters such as platform motion, mooring line tensions, tower/base loads, and controller response under turbulent wind and irregular wave conditions.
* Automate and parallelize simulation campaigns using
Python or MATLAB
to perform large-scale design space exploration, sensitivity studies, and IEC-compliant load cases.
* Lead the development of
convergence criteria and stability monitoring tools
within iterative solvers to ensure robust and reliable results.
* Collaborate with cross-functional teams (offshore structures, moorings, controls, aerodynamics) to integrate domain-specific models into unified, physics-consistent simulation environments.
* Validate iterative models against
model test data (wave tank experiments)
, field measurements from pilot projects, and industry benchmarks.
* Support
design verification, certification (IEC, IEC, DNV-SE-0074, IECREOD-501)
, and technology scaling by providing high-confidence load and response predictions.
* Contribute to R&D initiatives on novel floating platform concepts (e.g., spar, semi-submersible, TLP) and advanced control strategies (e.g., wind-wave misalignment mitigation, platform pitch damping).
Qualifications
* Education:
Master's or Ph.D. in Ocean/Marine Engineering, Mechanical/Aerospace Engineering, Civil/Structural Engineering, Renewable Energy, or related field with focus on offshore systems. Bachelor degree with hands-on project experience may also be considered.
* Experience:
Minimum of 5 years in offshore wind or marine renewable energy simulation, with at least 3 years dedicated to
coupled dynamic analysis of floating wind systems
.
* Technical Skills:
* Expertise in
floating wind simulation tools
: OpenFAST, Bladed, HAWC2, Wamit, or AQWA.
* Strong programming skills in
Python or MATLAB
for workflow automation, data analysis, and custom solver integration.
* Experience with
hydrodynamic modeling
(potential flow, Morison elements),
mooring dynamics
.
* Familiarity with
control system integration
(pitch, torque, platform stabilization).
* Analytical Skills:
Deep understanding of
numerical convergence
, time-stepping stability, damping effects, and error propagation in multi-loop simulations.
* Knowledge of Standards:
IEC /-3-2, DNV-RP-C205, DNV-ST-0437, GL Offshore Wind Guidelines.
* Communication:
Strong technical documentation and presentation skills; ability to translate complex simulation outcomes for engineers, certification bodies, and project stakeholders.