Steam distiller
Steam distillers are used for the gentle separation of water-insoluble substances by steam distillation. They are essential instruments for laboratory applications in purification and extraction.
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Steam distiller
Steam distillers are used for the gentle separation of water-insoluble substances by steam distillation. They are essential instruments for laboratory applications in purification and extraction.
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Guide and selection support
Steam distillers are used in laboratories to separate or purify high-boiling and water-insoluble substances, such as oils or aromatic compounds, via carrier steam distillation. The method uses steam as a carrier for the distillation process.
When selecting an appropriate steam distiller, important factors include capacity, material resistance, handling ease, and area of application. Compatibility with the intended sample type and the required operating effort are also relevant.
LabFinder assists in navigating the product range by providing access to differentiated technical details and variants of steam distillers. This supports targeted searches for laboratory needs in separation processes and cleaning procedures.
Application and Benefits
Steam distillers are used to precisely separate and purify high-boiling and water-insoluble substances. The method is based on steam distillation, in which a distillation flask is filled with the sample and hot water, followed by the introduction of steam. Separation occurs as the steam acts as a carrier liquid, particularly for aromatics or oils that are poorly soluble in water.
Selection Criteria
Important selection criteria include the maximum sample amount and the volume of the distillation flask, the material quality of the flask and steam generator, as well as handling and operation. Application specifications regarding temperature and pressure conditions should match the intended use. The degree of automation versus manual control may also play a role.
Variants and Measurement Principles
The steam distiller operates based on carrier steam distillation, a variant of azeotropic distillation. The principle uses steam as a carrying medium to separate water-insoluble substances. Variants may differ in steam generation, flask shape, or handling method.
Calibration and Maintenance
Regular cleaning of the distillation flask and steam generation unit is necessary to avoid contamination and deposits. Since classic sensors are not typically critical, function and leak checks are the main focus. Spare parts should be available to ensure operational safety.
Limitations of Application
Steam distillers are not suitable for samples that react easily with water or contain water-soluble substances that should not be separated. Highly temperature-sensitive compounds are also only conditionally suited. For other separation techniques, alternative devices may be considered.
Search Terms and Related Terms
Common search terms include steam distillation, carrier steam distiller, steam distillation apparatus, laboratory steam distiller, steam distillation device, or azeotropic distillation. The category belongs to the group Cleaning & Sterilization within laboratory supplies.
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Frequently asked questions
How does a steam distiller work?
A steam distiller uses hot steam as a carrier to extract and separate high-boiling and water-insoluble substances from a sample by transporting them along with the steam and subsequently condensing them.
What types of samples are suitable for steam distillation?
This method is suitable for the extraction and purification of aromatic compounds and oils that are poorly soluble in water, as well as other high-boiling and water-insoluble substances.
What criteria are important when choosing a steam distiller?
Key aspects include capacity, material resistance, handling convenience, compatibility with the sample, and suitability for the required temperature and pressure conditions.
What maintenance is necessary for a steam distiller?
Regular cleaning of the equipment and inspection for leaks are important to avoid contamination and ensure reliable operation.
What are the limitations of steam distillation in the laboratory?
This method is not suitable for highly water-soluble substances, temperature-sensitive compounds, or samples that would be damaged by reacting with water.
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