Timo Claßen scite author profile

The dissociation of CO2 gas hydrates (GH) with amino acid kinetic promoters and without promoters was studied at a high temperature of 90 °C for a period of 20 min to understand the percentage of CO2 gas and to select the best promoter that aids CO2 gas entrapment along with stability at a high temperature. The possibility of using four hydrophobic food grade amino acids, namely cysteine, valine, leucine, and methionine, and one surfactant, lecithin, as kinetic promoters for CO2 GH has been studied. The amino acids were added 0.5 g (wt%), and lecithin was added 5 g for the GH production. Furthermore, the amino acids leucine and methionine gave some positive results, therefore, these amino acids were carried further for the experimentation purpose in the production of CO2 GH. Also, a combinational use of these amino acids was studied to investigate the effect on % CO2 retention in comparison to the normal GH. From the results, it was observed that the stability of GH decreases with an increase in temperature, but the addition of promoters, especially leucine + methionine + lecithin increased the CO2 uptake during GH formation.

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Review on the food technological potentials of gas hydrate technology

Claßen

Seidl

Loekman³

et al. 2019

Current Opinion in Food Science

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An Innovative Approach in the Baking of Bread with CO2 Gas Hydrates as Leavening Agents

Srivastava

Kollemparembil

Zettel

et al. 2022

Foods

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Gas (guest) molecules are trapped in hydrogen-bonded water molecules to form gas hydrates (GH), non-stoichiometric solids that resemble ice. High pressure and low temperature are typical conditions for their development, with van der Waals forces joining the host and guest molecules. This article study investigates the application of CO2 gas hydrates (CO2 GH) as a leavening agent in baking, with particular reference to the production of wheat bread. The main intention of this study is to better understand the complex bread dough formed by CO2 GH and its impact on product quality. This may enable the adaptation of CO2 GH in baking applications, such as those that can specifically influence wheat bread properties, and so the final bread quality. The present research further examines the comparative evaluation of yeast bread with the GH bread’s impact on bread quality parameters. The amount of GH was varied from 10 to 60%/amount of flour for the GH breads. The GH breads were compared with the standard yeast bread for different quality parameters such as volume, texture, and pore analysis. The results show that the bread with 20% and 40% GH obtained the best results in terms of volume and pore size. Moreover, this article also sheds some light on the future applications of the use of CO2 GH as leavening agents in foods. This knowledge could help to create new procedures and criteria for improved GH selection for applications in bread making and other bakery or food products.

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Timo Claßen

Food technological potentials of CO₂ gas hydrate technology for the concentration of selected juices

Concentration of apple juice using CO2 gas hydrate technology to higher sugar contents

Experimental investigation of CO2 uptake in CO2 hydrates formation with amino acids as kinetic promoters and its dissociation at high temperature

Review on the food technological potentials of gas hydrate technology

An Innovative Approach in the Baking of Bread with CO2 Gas Hydrates as Leavening Agents

Contact Info

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About

Timo Claßen

Food technological potentials of CO2 gas hydrate technology for the concentration of selected juices

Concentration of apple juice using CO2 gas hydrate technology to higher sugar contents

Experimental investigation of CO2 uptake in CO2 hydrates formation with amino acids as kinetic promoters and its dissociation at high temperature

Review on the food technological potentials of gas hydrate technology

An Innovative Approach in the Baking of Bread with CO2 Gas Hydrates as Leavening Agents

Contact Info

Product

Resources

About

Food technological potentials of CO₂ gas hydrate technology for the concentration of selected juices