R 75.0 90°

PREPARING ENGINEERING WORKSPACE

Resistance
Calculators

Hydrodynamic resistance prediction and propulsion sizing tools for displacement, semi-displacement and high-speed vessels.

Catamarans
v1.1.0 🟢 Operational

Insel & Molland Catamaran Calculator

Industry-standard empirical resistance prediction for displacement catamarans. Viscous, wave-making, and interference factors estimation.

Vessel Type Catamarans
Speed Range Fn 0.2 – 1.2
Accuracy High (Empirical)
Planing Hull
v1.1.0 🟢 Operational

Savitsky Planing Hull Calculator

Industry standard for hard-chine planing craft. Predicts trim angle, lift coefficient, wetted area, and total hydrodynamic resistance.

Vessel Type Planing Boats
Speed Range High Speed
Accuracy High (Empirical)
Displacement Hull
v1.1.0 🟢 Operational

Holtrop & Mennen Resistance Calculator

Most widely used empirical method for displacement vessels. Covers friction, appendages, wave-making, bulb, and transom stern.

Vessel Type Merchant Ships
Speed Range Fn 0.0 – 0.45
Accuracy High (Regression)
General Displacement
v1.0.0 Coming Soon

William Froude Method

Foundation of resistance decomposition into frictional and residuary drag components for general hulls.

Vessel Type Displacement Ships
Speed Range All speeds
Accuracy Theoretical Baseline
Slender Ships
v1.0.0 Coming Soon

John H. Michell Theory

Theoretical wave resistance calculations based on thin-ship theory, integrated with empirical friction coefficients.

Vessel Type Slender Ships
Speed Range Low–Moderate
Accuracy Analytical
Slender Hulls
v1.0.0 Coming Soon

Leo Lazauskas / Michell-based

Advanced numerical wave resistance and trim evaluation tailored for slender monohulls and catamaran designs.

Vessel Type Slender Hulls
Speed Range Moderate–High
Accuracy Numerical High-Fi
High-Speed Craft
v1.0.0 Coming Soon

Odd M. Faltinsen Methods

Semi-empirical and analytical drag prediction formulations designed for high-speed displacement and planing hulls.

Vessel Type High-Speed Craft
Speed Range High speed
Accuracy Semi-empirical
Catamarans
v1.0.0 Coming Soon

D. Fung Method

Alternative catamaran resistance formulation based on regression curves from systematic experimental series.

Vessel Type Catamarans
Speed Range Moderate–High
Accuracy Regression-based
Fishing Vessels
v1.0.0 Coming Soon

H. Y. Kwon Method

Empirical resistance estimation formulas derived specifically from model database regressions of fishing boats.

Vessel Type Fishing Vessels
Speed Range Moderate speed
Accuracy Class specific
Small Boats
v1.0.0 Coming Soon

John H. Gerr Method

Simple and fast preliminary design resistance and power sizing method for recreational small craft.

Vessel Type Small Boats
Speed Range Low–Moderate
Accuracy Preliminary Sizing
Cargo Ships
v1.0.0 Coming Soon

Daniel H. Harvald Method

Classic empirical approach using charts and diagrams for preliminary resistance estimates of cargo hulls.

Vessel Type Cargo Ships
Speed Range Low–Moderate
Accuracy Classic Empirical
Cargo Vessels
v1.0.0 Coming Soon

J. Hollenbach Method

Modern regression-based resistance prediction method tailored for single-screw cargo ships and tankers.

Vessel Type Cargo Vessels
Speed Range Low–Moderate
Accuracy Modern Regression
Small Displacement
v1.0.0 Coming Soon

J. Compton Method

Empirical drag estimation method suitable for preliminary hull design of small displacement craft.

Vessel Type Small Boats
Speed Range Moderate speed
Accuracy Preliminary Sizing
Sailing Yachts
v1.0.0 Coming Soon

A. Clement Method

Yacht-specific empirical resistance prediction model tailored for sailing hull forms.

Vessel Type Sailing Yachts
Speed Range Low–Moderate
Accuracy Yacht-class Specific
Sailing Yachts
v1.0.0 Coming Soon

Douglas Phillips-Birt Method

Traditional yacht design empirical approach for estimating sailing yacht drag characteristics.

Vessel Type Sailing Yachts
Speed Range Low–Moderate
Accuracy Traditional Empirical