White Wormwood CO2 Extract (Artemisia Absinthium) CO2 extraction, also known as supercritical carbon dioxide extraction, is a process for extracting useful substances from plants or other raw materials using supercritical (critical point) carbon dioxide as a solvent. When carbon dioxide is heated and pressurized to a specific point, it becomes supercritical, meaning it is in both the liquid and gas phases at the same time. In this supercritical state, CO2 can use its unique properties to extract various compounds from plants. The CO2 extraction process is widely used in the food, cosmetic, pharmaceutical and other industries. It is the preferred method for extracting active ingredients, such as essential oils, flavonoids, terpenes and other beneficial substances from plants, because it does not leave solvent residues and does not lead to degradation of the ingredients due to high temperature or chemical processes.
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White Wormwood Absolute (Artemisia Absinthium) Artemisia Absinthe is a plant, also known as white wormwood, that is used to make the alcoholic drink absinthe. This drink has a characteristic anise flavor and is often associated with symbols of art and literature. The plant contains substances such as thujan, which can have psychoactive effects if consumed in large quantities. Wormwood absolute (Artemisia absinthium) is a concentrated extract obtained from the wormwood plant. This extract has a unique, spicy and grassy aroma with bitter, fresh and camphor notes. It is used in perfumes, cosmetics and aromatherapy, and also has some medicinal uses. Production process of Artemisia Absolute - Absolute from White Wormwood Plant collection: Wormwood leaves and flowers are collected during the period of greatest concentration of essential oils. Extraction: The collected plant material is extracted using a solvent, usually ethanol.
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Devesil CO2 extract (Levisticum officinale) CO2 extraction, also known as supercritical carbon dioxide extraction, is a process for extracting useful substances from plants or other raw materials using supercritical (critical point) carbon dioxide as a solvent. When carbon dioxide is heated and pressurized to a specific point, it becomes supercritical, meaning it is in both the liquid and gas phases at the same time. In this supercritical state, CO2 can use its unique properties to extract various compounds from plants. Devesila, also known as parsley root or garden lamb, is an herb with numerous health benefits. Here are some of the main benefits of lovage: Diuretic properties: Devesil is traditionally used as a diuretic, i.e. stimulates the urinary system and helps to cleanse the kidneys and urinary tract. This can help remove excess fluids and toxins from the body.
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Grape Seed CO2 Extract (Vitis Vinifera) CO2 extraction, also known as supercritical carbon dioxide extraction, is a process for extracting useful substances from plants or other raw materials using supercritical (critical point) carbon dioxide as a solvent. When carbon dioxide is heated and pressurized to a specific point, it becomes supercritical, meaning it is in both the liquid and gas phases at the same time. In this supercritical state, CO2 can use its unique CO2 extract of Grape Seeds is obtained by the process of CO2 extraction (supercritical extraction with carbon dioxide). This process is technological and completely harmless to the environment and human health, making it a popular method for extracting various ingredients from plants. Grape seeds are rich in polyphenolic compounds, especially proanthocyanidins and flavonoids, which are powerful antioxidants. These ingredients help the body fight free radicals and protect cells from damage.
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Dandelion CO2 Extract (Taraxacum officinale) CO2 extraction, also known as supercritical carbon dioxide extraction, is a process for extracting useful substances from plants or other raw materials using supercritical (critical point) carbon dioxide as a solvent. When carbon dioxide is heated and pressurized to a specific point, it becomes supercritical, meaning it is in both the liquid and gas phases at the same time. In this supercritical state, CO2 can use its unique properties to extract various compounds from plants. The CO2 extraction process is widely used in the food, cosmetic, pharmaceutical and other industries. It is the preferred method for extracting active ingredients, such as essential oils, flavonoids, terpenes and other beneficial substances from plants, because it does not leave solvent residues and does not lead to degradation of the ingredients due to high temperature or chemical processes.
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