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BackUltrasonic Espresso: A New Way to Brew Coffee Without Heat
Ultrasonic Espresso: A New Way to Brew Coffee Without Heat
In Entwicklung
Wired20.06.2026Technik4 dk okuma

Ultrasonic Espresso: A New Way to Brew Coffee Without Heat

Auf einen Blick

  • Researchers have developed "ultrasonic espresso," a room-temperature brewing process using sound waves to extract flavor, oils, and caffeine from coffee.
  • This method uses 75% less energy than traditional espresso machines and yields comparable chemical and sensory characteristics, with taste tests showing no significant preference between ultrasonic and conventional espresso.

KI-generierte Zusammenfassung

Warum es wichtig ist

Researchers have developed a novel coffee brewing method called "ultrasonic espresso" that uses sound waves instead of heat to extract flavor and compounds from coffee beans.

Schriftgröße

What do you need to make a good espresso? Ground coffee, of course; a machine capable of generating pressure; and hot water, preferably heated to between 195 and 205 degrees Fahrenheit. And that’s it. But could one perhaps do without that last element? No, not the water itself, but the need to heat it.

The Colombian researcher Francisco Trujillo led a team at Australia’s University of New South Wales that claims to have invented what it calls “ultrasonic espresso.” As Trujillo explains, it is “a room-temperature brewing process that uses high-frequency sound waves to extract the flavor, oils, aroma, and caffeine from ground coffee.”

Although the process takes longer than the conventional method (three minutes versus 30 seconds), it consumes 75 percent less energy—a considerable benefit for coffee shops and restaurants, but especially for businesses that produce industrial quantities of coffee, such as those making ready-to-drink products.

Sonic Brew

The experimental system directs ultrasonic waves directly into the filter containing the ground beans in water. Instead of relying on heat, the technology harnesses a phenomenon known as acoustic cavitation. This involves the formation and collapse of tiny bubbles that generate microcurrents which, in this experiment, facilitate the extraction of soluble compounds from the coffee.

To generate those microcurrents, the scientists designed a device capable of transmitting ultrasonic vibrations throughout the entire filter basket, transforming it into a sort of acoustic reactor. This design allows the waves to hit multiple points simultaneously and accelerate the movement of liquids around the coffee particles. “Ultrasound helps us replace heat with mechanical energy,” explains Trujillo.

The goal of this entire process, described in greater detail in this month’s issue of the Journal of Food Engineering, is to achieve a concentration comparable to that of an espresso. To do so, the researchers adjusted variables such as grind size, ultrasound power, and brewing time. Using a fine grind and 100 watts of power, they obtained beverages with levels of dissolved solids and extraction yields equivalent to those considered ideal by the Specialty Coffee Association.

When the experiments were repeated under the same conditions but without ultrasound, it was not possible to achieve these values. The ultrasonic system made it possible to produce coffee with an intensity similar to that of espresso in just a few minutes—the researchers found the optimal time to be between two and a half and three minutes—using water at room temperature.

The team also analyzed various chemical parameters. The concentrations of caffeine and chlorogenic acid were similar to those obtained by conventional methods. No significant differences were observed in pH or in the overall composition of the volatile compounds responsible for the aroma.

Taste Test

A group of 100 people participated in sensory tests in which they compared ultrasonic espresso with conventional espresso. Ultimately, the participants showed no notable preference for either method. The scores for aroma, flavor, bitterness, and overall acceptance were virtually equivalent.

They also compared filtered coffee prepared using the conventional method and with ultrasound. “In the case of filtered coffee, the ultrasonically processed version was generally preferred, and participants rated its bitterness as more pleasant,” noted Trujillo.

In addition to replicating the sensory characteristics of espresso, the new technique could offer environmental benefits. Measurements taken by the researchers indicate that, to produce beverages of the same intensity, the ultrasonic system used just 24 percent of the energy consumed by a typical espresso machine.

The authors emphasize that coffee produced using ultrasound is not identical to traditional espresso. However, the results suggest that it is possible to produce beverages with comparable chemical and sensory characteristics without heating the water.

The research opens up the possibility of developing new coffee makers capable of preparing everything from espresso to filtered coffee and cold brew using the same technology. If these systems are ever brought to market, the characteristic sound of an espresso machine could be replaced by the inaudible vibrations of ultrasound.

This story was originally published by WIRED en Español and has been translated from Spanish.

Worauf zu achten ist

KI-Ausblick — Möglichkeiten, keine Fakten

  • Development of new coffee makers utilizing ultrasonic technology.

    Wahrscheinlich · Mittelfristig

Offene Fragen

  • Scalability of the technology for commercial use?
  • Long-term effects on coffee bean quality?
  • Consumer acceptance beyond taste tests?

Verwandte Themen

This article was originally published by Wired.

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