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Want better kimchi? Make it like the ancients did

Date:
April 12, 2023
Source:
Georgia Institute of Technology
Summary:
In a combined experimental and theoretical study, researchers measured carbon dioxide levels in onggi during kimchi fermentation and developed a mathematical model to show how the gas was generated and moved through the onggi's porous walls. By bringing the study of fluid mechanics to bear on an ancient technology, their research highlights the work of artisans and provides the missing link for how the traditional earthenware allows for high quality kimchi.
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Fermented foods like kimchi have been an integral part of Korean cuisine for thousands of years. Since ancient times, Korean chefs have used onggi -- traditional handmade clay jars -- to ferment kimchi. Today, most kimchi is made through mass fermentation in glass, steel, or plastic containers, but it has long been claimed that the highest quality kimchi is fermented in onggi.

Kimchi purists now have scientific validation, thanks to recent research from David Hu, professor in the George W. Woodruff School of Mechanical Engineering at Georgia Tech, and Soohwan Kim, a second-year Ph.D. student in Hu's lab.

In a combined experimental and theoretical study, Hu and Kim measured carbon dioxide levels in onggi during kimchi fermentation and developed a mathematical model to show how the gas was generated and moved through the onggi's porous walls. By bringing the study of fluid mechanics to bear on an ancient technology, their research highlights the work of artisans and provides the missing link for how the traditional earthenware allows for high quality kimchi.

Their research was published in the Journal of the Royal Society Interface.

"We wanted to find the 'secret sauce' for how onggi make kimchi taste so good," Hu said. "So, we measured how the gases evolved while kimchi fermented inside the onggi -- something no one had done before."

The porous structure of these earthenware vessels mimics the loose soil where lactic acid bacteria -- known for their healthy probiotic nature -- are found. While previous studies have shown that kimchi fermented in onggi has more lactic acid bacteria, no one knew exactly how the phenomenon is connected to the unique material properties of the container.

First, Kim obtained a traditional, handmade onggi jar from an artisan in his hometown in Jeju, South Korea, a region famous for onggi. Back at Georgia Tech, Hu and Kim first tested the permeability of the onggi by observing how water evaporated through the container over time.

Next, they installed carbon dioxide and pressure sensors into both the onggi and a typical, hermetically sealed glass jar. They prepared their own salted cabbage and placed it in both containers. They then used the sensors to measure and compare the change in carbon dioxide -- a signature of fermentation.

Hu and Kim also developed a mathematical model based on the porosity of the onggi. The model allowed them to infer the generation rate of carbon dioxide, since the onggi lets carbon dioxide out gradually.

They concluded that the onggi's porous walls permitted the carbon dioxide to escape the container, which accelerated the speed of fermentation. The onggi's porosity also functioned as a "safety valve," resulting in a slower increase in carbon dioxide levels than the glass jar while blocking the entry of external particles. Their data revealed that the carbon dioxide level in onggi was less than half of that in glass containers.

They also found that the beneficial bacteria in the onggi-made kimchi proliferated 26% more than in the glass counterpart. In the glass jar, the lactic acid bacteria became suffocated by their own carbon dioxide in the closed glass container. It turns out that, because the onggi releases carbon dioxide in small rates, the lactic acid bacteria are happier and reproduce more.

"Onggi were designed without modern knowledge of chemistry, microbiology, or fluid mechanics, but they work remarkably well," Kim said. "It's very interesting to get these new insights into ancient technology through the lens of fluid dynamics."

Onggi's semiporous nature is unique compared to other forms of earthenware. A clay container that leaks, but only slightly, is not easy to make. Terra cotta containers, for example, quickly leak water.

"It's amazing that, for thousands of years, people have been building these special containers out of dirt, but in many ways, they are very high tech," Hu said. "We discovered that the right amount of porosity enables kimchi to ferment faster, and these onggi provide that."

Kim said that some artisans still use ancient methods when making onggi, but their numbers are decreasing. Now, the market is flooded with inauthentic versions of the vessels.

"We hope this study draws attention to this traditional artisan work and inspires energy-efficient methods for fermenting and storing foods," he said. "Also, the onggi are quite beautiful."


Story Source:

Materials provided by Georgia Institute of Technology. Original written by Catherine Barzler. Note: Content may be edited for style and length.


Journal Reference:

  1. Soohwan Kim, David L. Hu. Onggi’s permeability to carbon dioxide accelerates kimchi fermentation. Journal of The Royal Society Interface, 2023; 20 (201) DOI: 10.1098/rsif.2023.0034

Cite This Page:

Georgia Institute of Technology. "Want better kimchi? Make it like the ancients did." ScienceDaily. ScienceDaily, 12 April 2023. <www.sciencedaily.com/releases/2023/04/230412153126.htm>.
Georgia Institute of Technology. (2023, April 12). Want better kimchi? Make it like the ancients did. ScienceDaily. Retrieved December 17, 2024 from www.sciencedaily.com/releases/2023/04/230412153126.htm
Georgia Institute of Technology. "Want better kimchi? Make it like the ancients did." ScienceDaily. www.sciencedaily.com/releases/2023/04/230412153126.htm (accessed December 17, 2024).

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