The "Dead Water" Phenomenon (Stalling Ships & Swimmers)

[ramonmercado]

17 comments so far at link.

'Evil water' linked to mysterious drownings

by Matt Kaplan
17 December 2008

It may sound like a superstitious excuse for a poor day's swimming, but it is not uncommon for triathletes to complain that the water is behaving badly - even that it is "evil". Now a study suggests what they are feeling is real.

Leo Maas, a fluid dynamicist at the Royal Netherlands Institute for Sea Research, and colleagues found that "dead water" - an obstructive effect encountered by ships at sea - can strike swimmers too.

As ships sail over a layer of warm water sitting over saltier, or colder, layers, waves form in the boundary between the two layers. As these waves grow, they form a gulf beneath the ship, sucking away its speed. This effect can stall boats at sea, reducing their speed by up to 80%.

Maas and his colleagues ran two experiments see if dead water could strike swimmers too.

Deadly layers?

First, to measure any effect on arm power, they asked two subjects to use the front crawl stroke while lying on a carriage supported just above the water's surface. They measured the resulting gain in kinetic energy of the carriage and found that it was far less in water where an upper layer of different density (and of a depth close to arm length) was present than in homogeneous water.

In the second experiment, four subjects were asked to swim a short distance in both homogeneous water and in stratified water. The team found that with the same stroke frequency being used in both conditions, swimming speed in stratified water dropped by 15%, with a 40% loss of propulsive power.

"We've been considering the possibility that the drownings of strong swimmers in fair-weather conditions might be the result of dead water, but until now, we weren't really sure if this phenomenon could strike something as small as a single human," says Maas. "Now it seems that it can."

While the discussion in terms of dead water is compelling, stratification would also affect how fluid moves around a swimmer's hands, explains Ted Johnson at University College London. "It would be great if future work could visualise these three-dimensional flow patterns," he says.

Journal reference: Naturwissenschaften (DOI: 10.1007/s00114-008-0493-6)

newscientist.com/article/dn16290-ev ... nings.html
Link is dead. The MIA New Scientist article (quoted in its entirety above) can be accessed via the Wayback Machine:
https://web.archive.org/web/2016041...90-evil-water-linked-to-mysterious-drownings/

The original published paper from Naturwissenschaften can be accessed as a PDF file at:

https://research.vu.nl/ws/portalfiles/portal/2545720/230223.pdf

 

[EnolaGaia]

Bump ...

The mysterious "dead water" phenomenon can stall or even stop ships as well as swimmers. Researchers have finally put forward an explanation as to what causes this effect which slowed Fridtjof Nansen and may have helped doom Cleopatra and Ptolemaic Egypt.

Behind the Strange Dead-Water Phenomenon: What Makes Ships Mysteriously Slow Down or Even Stop?

What makes ships mysteriously slow down or even stop as they travel, even though their engines are working properly? This was first observed in 1893 and was described experimentally in 1904 without all the secrets of this “dead water” being understood. An interdisciplinary team from the CNRS and the University of Poitiers has explained this phenomenon for the first time: the speed changes in ships trapped in dead water are due to waves that act like an undulating conveyor belt on which the boats move back and forth. This work was published recently in Proceedings of the National Academy of Sciences (PNAS).

In 1893, the Norwegian explorer Fridtjof Nansen experienced a strange phenomenon when he was traveling north of Siberia: his ship was slowed by a mysterious force and he could barely maneuver, let alone pick up normal speed. In 1904, the Swedish physicist and oceanographer Vagn Walfrid Ekman showed in a laboratory that waves formed under the surface at the interface between the saltwater and freshwater layers that form the upper portion of this area of the Arctic Ocean interact with the ship, generating drag.

This phenomenon, called dead water, is seen in all seas and oceans where waters of different densities (because of salinity or temperature) mix. It denotes two drag phenomena observed by scientists. The first, Nansen wave-making drag, causes a constant, abnormally low speed. The second, Ekman wave-making drag, is characterized by speed oscillations in the trapped boat. The cause of this was unknown. Physicists, fluid mechanics experts, and mathematicians at the CNRS’ Institut Pprime and the Laboratoire de Mathématiques et Applications (CNRS/Université de Poitiers) have attempted to solve this mystery. They used a mathematical classification of different internal waves and analysis of experimental images at the sub-pixel scale, a first.

This work showed that these speed variations are due to the generation of specific waves that act as an undulating conveyor belt on which the ship moves back and forth. The scientists have also reconciled the observations of both Nansen and Ekman. They have shown that the Ekman oscillating regime is only temporary: the ship ends up escaping and reaches the constant Nansen speed.

This work is part of a major project[1] investigating why, during the Battle of Actium (31 BC), Cleopatra’s large ships lost when they faced Octavian’s weaker vessels. Might the Bay of Actium, which has all the characteristics of a fjord, have trapped the Queen of Egypt’s fleet in dead water? So now we have another hypothesis to explain this resounding defeat, that in antiquity was attributed to remoras, ‘suckerfish’ attached to their hulls, as the legend goes.

SOURCE: https://scitechdaily.com/behind-the...es-ships-mysteriously-slow-down-or-even-stop/

 

[EnolaGaia]

Here are the bibliographic details and abstract from the newly published dead water research report.

The dual nature of the dead-water phenomenology: Nansen versus Ekman wave-making drags
Johan Fourdrinoy, Julien Dambrine, Madalina Petcu, Morgan Pierre, and Germain Rousseaux
PNAS July 21, 2020 117 (29) 16770-16775; first published July 8, 2020

https://doi.org/10.1073/pnas.1922584117

Abstract
A ship encounters a higher drag in a stratified fluid compared to a homogeneous one. Grouped under the same “dead-water” vocabulary, two wave-making resistance phenomena have been historically reported. The first, the Nansen wave-making drag, generates a stationary internal wake which produces a kinematic drag with a noticeable hysteresis. The second, the Ekman wave-making drag, is characterized by velocity oscillations caused by a dynamical resistance whose origin is still unclear. The latter has been justified previously by a periodic emission of nonlinear internal waves. Here we show that these speed variations are due to the generation of an internal dispersive undulating depression produced during the initial acceleration of the ship within a linear regime. The dispersive undulating depression front and its subsequent whelps act as a bumpy treadmill on which the ship would move back and forth. We provide an analytical description of the coupled dynamics of the ship and the wave, which demonstrates the unsteady motion of the ship. Thanks to dynamic calculations substantiated by laboratory experiments, we prove that this oscillating regime is only temporary: the ship will escape the transient Ekman regime while maintaining its propulsion force, reaching the asymptotic Nansen limit. In addition, we show that the lateral confinement, often imposed by experimental setups or in harbors and locks, exacerbates oscillations and modifies the asymptotic speed.

SOURCE: https://www.pnas.org/content/117/29/16770