Wind-induced drift of objects at sea: the leeway field method

TL;DR

This paper introduces a standardized leeway field method for measuring the drift properties of small objects at sea, aiding search and rescue operations by providing reliable drift coefficients for trajectory forecasting.

Contribution

It proposes a clear operational definition of leeway, categorizes objects by size for measurement methods, and demonstrates the method with real-world experiments on various objects.

Findings

Leeway can be unambiguously defined using 10 m wind speed.

Direct measurement is recommended for larger objects.

Field experiments successfully characterized drift of different objects.

Abstract

A method for conducting leeway field experiments to establish the drift properties of small objects (0.1-25 m) is described. The objective is to define a standardized and unambiguous procedure for condensing the drift properties down to a set of coefficients that may be incorporated into existing stochastic trajectory forecast models for drifting objects of concern to search and rescue operations and other activities involving vessels lost at sea such as containers with hazardous material. An operational definition of the slip or wind and wave-induced motion of a drifting object relative to the ambient current is proposed. This definition taken together with a strict adherence to 10 m wind speed allows us to refer unambiguously to the leeway of a drifting object. We recommend that all objects if possible be studied using what we term the direct method, where the object's leeway is studied directly using an attached current meter. We divide drifting objects into four categories, depending on their size. For the smaller objects (less than 0.5 m), an indirect method of measuring the object's motion relative to the ambient current must be used. For larger objects, direct measurement of the motion through the near-surface water masses is strongly recommended. Larger objects are categorized according to the ability to attach current meters and wind monitoring systems to them. The leeway field method proposed here is illustrated with results from field work where three objects were studied in their distress configuration; a 1:3.3 sized model of a 40-ft Shipping container, a World War II mine and a 220 l (55-gallon) oil drum.