We have a dedicated team at Haugom Technologies with one clear focus: Lower the costs to solve engineering challenges.

We are able to lower costs for our customers by using software to automate repeated mathematical tasks to analyze forces on structures. Why have high-priced engineers repeat the same tasks manually when software is faster?

Our trusted team delivers full solutions. We bring together engineering best-practices, simulation software packages, and deep expertise within structural analysis, CFD, hydrodynamics, and mathematical modelling.

  • Problem

    Want to work with us? We start by fully understanding the size and scope of the problem you need solved.

  • Mathematics

    Next, there is typically a mathematical component required to make a solution. Our team handles that part as well.

  • Software

    Once the math is understood, we apply the right simulation tool to automate repeated mathematical calculations.

  • Results

    In the end, we deliver complete results more quickly and at a lower cost than traditional simulation methods.

Our expertise

Structural analysis

structural analysis

    • Non-linear materials, contacts and boundary conditions
    • Transient dynamic analysis
    • Transient thermal analysis
    • Modal analysis
    • Frequency response analysis
    • Harmonic analysis
    • Structural optimization
    • Fatigue calculations
    • Explicit and implicit analysis
    • Structural verification analysis with respect to DNV, NORSOK, etc
CFD analysis

cfd analysis

    • Steady state flow
    • Transient analysis with moving mesh
    • Thermal flow
    • Free surface simulations
    • Multiphase simulations
    • Rotating geometry
Fluid – Structure interaction
    • Coupled dynamics: Hydrodynamic-Structure, CFD – structure, Thermal-structure, Thermal-fluid-structure
    • Potential flow analysis
Hydrodynamic and hydrostatic analyses
    • Tailor made software and scripts for analysis of floating bodies or structures submerged in sea water subject to waves and currentsAgucadoura_WindFloat_Prototype
    • Dynamic simulations of floating bodies (mono-hulls, semi submersibles and buoys) with riser and mooring lines attached.
    • Computation of airgap (with countour plots showing variation of airgap under box bottom)
    • Computation of motion, velocity and accelerations in operation and survival conditions for use in strength calculations of topside  equipment, etc.
    • Drift and drive off simulations
    • Hydrostatic and stability calculations (IMO-MODU rules)
Riser analysis
    • Simulation of marine riser dynamics and evaluation of maximum stresses according to relevant design codes (ISO, API, DNV).
    • Computation of riser fatigue life by use of non-linear time domain simulations, rainflow counting of stress cycles and fatigue damage summation (Miner Palmgren or other).
    • Evaluations of ultimate strength of riser components (couplers, flanges, etc)
    • Evaluations of fatigue properties of riser components (computation of stress as a function of bending moment and tension, etc.)

Signal processing, mathematical modeling and control systems 

      • Mathematical modeling
      • High-precision computations
      • Image compression
      • Filter design (1-2D)
      • Software optimization
      • Fortran to C++ conversion
      • Digital signal processing
      • Sensor fusion algorithms

Signals from a variety of distributed sensors are combined and alternatively merged with a mathematical model that represents the system in a way that states of the system at points in time and space are enhanced or even made accessible when no direct measurement of the requested state exists.

      • Quick development of technical simulation and optimization software for specific client needs.

This can range from simple scripts accessing result databases of off-the-shelf software for further post processing to complete simulation software for specific customer needs.

      • A variety of statistical analyses

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