NEW Welcome to Aquafarer
Sign In
← Back to R&D Center

Lab 04

Hydrodynamic Test Tank

Validating performance before the first full-scale prototype

Aquafarer hydrodynamic test tank performance testing

Why tank-test a small boat?

It is a common misconception that hydrodynamic testing is reserved for ocean-going ships. In reality, the performance of a small planing hull —such as a 4— m RIB —is just as dependent on its underwater shape as a tanker is on its bulbous bow. Trim angle, wetted surface area, spray generation, and ventilation all have a dramatic effect on speed, fuel consumption, and ride comfort. At Aquafarer, we operate a dedicated hydrodynamic test tank that allows us to quantify these effects at model scale —before committing metal and fabric to a full-size prototype.

Testing at model scale (typically 1:3 to 1:5) gives us the ability to iterate hull shapes rapidly and cost-effectively. A week in the tank can generate the same performance data that would require months of full-scale trial-and-error —and at a fraction of the cost.

Facility specifications

ParameterSpecification
Tank dimensions35 m (L) × 3.5 m (W) × 1.8 m (D)
Towing carriageElectric servo-driven, max speed 12 m/s (23 kn), speed accuracy ± 0.5 %
Wave generatorFlap-type, programmable regular & irregular sea states, Hs up to 0.3 m at model scale
Instrumentation6-component dynamometer (resistance, side force, yaw moment), accelerometers, inclinometers, wave probes
Data acquisitionSampling at 1000 Hz per channel, real-time display + post-processing suite
Model fabricationIn-house CNC milling and 3D printing for model hulls up to 1.8 m LOA

Our test programme

A standard hull development programme in our tank follows this sequence:

  1. Model build —A 1:3.5 scale model is CNC-machined from high-density foam and glassed for rigidity. Weight and CG are adjusted to match Froude-scaled full-load condition.
  2. Resistance runs —The model is towed at 8-10 speeds spanning the operating range. Total resistance is measured and decomposed into frictional and residuary components using the ITTC-1957 method.
  3. Trim & sinkage measurement —Running trim and sinkage are recorded at each speed. An optimal trim angle of 4-6° for planing hulls is the target.
  4. Wake survey —Transverse wave cuts are measured at two speeds to assess wave-making resistance and identify transverse wave interactions that could cause stern interference.
  5. Seakeeping (optional) —Head-sea and following-sea runs in regular waves to measure added resistance, vertical acceleration, and slamming probability.
  6. Data analysis & recommendations —A full report is delivered with comparative charts, speed/power curves, and specific design recommendations for the full-scale hull.

Typical Tank Test Results —Resistance vs Speed (RIB 450 hull, 1:3.5 scale)

5 kn (1:1)
42 N
10 kn (1:1)
81 N
15 kn (1:1)
121 N
20 kn (1:1)
158 N
25 kn (1:1)
197 N
30 kn (1:1)
232 N

Model-scale resistance (N) at Froude-scaled speeds. Full-scale power prediction follows the ITTC-1978 performance-prediction method.

Expert team

Our tank is operated by a hydrodynamicist with a PhD in naval architecture and 8 years of towing-tank experience at a major European maritime research institute. He is supported by a technician who prepares all models and instrumentation. The team follows the ITTC (International Towing Tank Conference) Recommended Procedures to ensure that every test is repeatable, traceable, and internationally defensible.

Tank-testing for custom hull development

Our tank is not only used for house-designed hulls —we regularly run test programmes for clients who want to validate a custom hull shape or investigate a performance issue:

Why test with us?

We do not just give you a set of raw numbers. Our reports translate tank data into actionable engineering recommendations: "Raise the spray-rail by 8 mm to reduce wetted surface at cruise speed", "Increase deadrise at the transom by 3° to reduce slamming acceleration", or "Move the longitudinal centre of gravity 150 mm aft for improved planing attitude". You leave with a clear understanding of what to change and why.

Our tank is also available for independent third-party testing on a fee-for-service basis. If you are developing a hull and want an unbiased, professionally executed hydrodynamic assessment, we welcome your enquiry.

Book a tank test session

Whether you need a full development programme or a single comparative test, we can accommodate your schedule.

Contact our hydrodynamics team