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January 23, 2024

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The physics behind 300-year-old firefighting methods could inform
knowledge of how our hearts work

by American Institute of Physics

Discovering the physics behind 300-year-old firefighting methods The
1725 Newsham fire engine inspired the authors to examine the
Windkessel effect and capture the physics behind the enduring
technology of a steady stream of water under pressure. Credit: The
Colonial Williamsburg Foundation. Museum Purchase.

Today, water pressure technology is ubiquitous, and any person who
showers, waters a garden, or fights fires is benefiting from the
technology devised to harness it. In the 17th and 18th centuries,
though, a steady stream of water not punctuated by pressure drops was
a major breakthrough.

In 1666, when bucket brigades were the best line of defense, the
Great Fire of London burned almost all of the city's tightly packed,
wooden structures. The disaster destroyed hundreds of thousands of
homes and dozens of churches, demonstrating the need for better
firefighting methods and equipment.

One landmark advancement was the invention of "sucking worms,"
leather hoses attached to manually operated pumps. Then came the
Windkessel, a chamber in the bottom of a wooden wagon that compressed
air to pump water continuously through a hose, creating a steady
stream.

Inspired by a 1725 fire engine that pumped water at larger distances
and higher speeds than previously possible, authors publishing in the
American Journal of Physics analyzed the pressure chamber's
Windkessel effect to capture the physics behind this widely used,
enduring technology.

"There are many fascinating physics problems hiding in plain sight
within books and papers written centuries ago," author Trevor
Lipscombe said. "Recently we've been working on applying elementary
fluid mechanics to biological systems, and came across a common
description in medical journals: that the heart acts as a Windkessel.
That begs the question of what, precisely, is a Windkessel? Following
the trail, we found descriptions of Lofting's 'sucking worm' device,
and in Newsham's fire engine, a lifesaving application."

[INS::INS]

To pinpoint what factors are most influential in the Windkessel
effect, the authors compared the initial state of the chamber, the
rate at which bucket brigades could pour water in (volumetric
inflow), the length of time pressure builds, and the effects on
output flow rate.

"When faced with Lofting's design, or the Newsham fire engine, a
physicist wants to sort out the basic science involved--simply because
it's there," Lipscombe said. "It's the joy of doing physics. But
also, there's a pedagogical aspect. Our article builds a simple model
that shows how a Newsham fire engine works. We're partly answering
the 'when will I ever use this stuff?' question."

Next, the authors plan to examine the physiological Windkessel
involved in the heart-aorta system.

"Knowledge of Bernoulli's law, the ideal gas law, and isothermal
expansion are the three ingredients we baked into a model to explore
how this device worked," Lipscombe said. "But if we understand this
system better, we could look at the parameters that are important and
see how changing them might improve the device."

More information: From sucking worms to Windkessels: The physics of
an early eighteenth-century firefighting device, American Journal of
Physics (2024). DOI: 10.1119/5.0147573

Journal information: American Journal of Physics  

Provided by American Institute of Physics  

Citation: The physics behind 300-year-old firefighting methods could
inform knowledge of how our hearts work (2024, January 23) retrieved
24 January 2024 from https://phys.org/news/
2024-01-physics-year-firefighting-methods-knowledge.html
This document is subject to copyright. Apart from any fair dealing
for the purpose of private study or research, no part may be
reproduced without the written permission. The content is provided
for information purposes only.
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