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Name | Petroleum Ether 40-60°C (DAB) Pharma Grade |
Type | Solvent |
Purity | Pharma Grade |
Boiling Point Range | 40-60°C |
Density | 0.62 g/ml |
Color | Colorless |
Odor | Odorless |
Solubility | Insoluble in water, soluble in organic solvents |
Storage Condition | Store in a cool, dry place away from heat and flame |
Applications | Used as a solvent in pharmaceutical and chemical industries |
Synonyms | Petroleum Spirit, Ligroin |
CAS Number | 8032-32-4 |
FAQ
What is Petroleum Ether 40-60°C (DAB) pharma grade and its uses in the pharmaceutical
industry?
Petroleum Ether 40-60°C (DAB) pharma grade is a high-purity solvent that is commonly used in the pharmaceutical industry for various applications. It is a hydrocarbon solvent derived from petroleum sources and is known for its low boiling point range of 40-60°C. This makes it ideal for extraction and purification processes where lower temperatures are required to prevent the degradation of sensitive compounds.
What are the main characteristics of Petroleum Ether 40-60°C (DAB) pharma grade?
Petroleum Ether 40-60°C (DAB) pharma grade is a colorless, volatile liquid with a characteristic odor. It is highly flammable and should be handled with care in a well-ventilated environment. The solvent is non-polar and has a low polarity index, making it suitable for extracting non-polar compounds such as fats, oils, and essential oils. It has a boiling point range of 40-60°C, which allows for easy evaporation and recovery of the solvent after extraction processes.
How is Petroleum Ether 40-60°C (DAB) pharma grade different from other solvents used in the pharmaceutical industry?
Petroleum Ether 40-60°C (DAB) pharma grade is different from other solvents used in the pharmaceutical industry due to its specific boiling point range and purity level. The 40-60°C boiling point range makes it suitable for applications where lower temperatures are required to prevent the degradation of heat-sensitive compounds. Its high purity level, conforming to DAB (Deutsches Arzneibuch) standards, ensures that the solvent does not contain any impurities that could affect the quality of pharmaceutical products.
What are the key benefits of using Petroleum Ether 40-60°C (DAB) pharma grade in pharmaceutical applications?
The key benefits of using Petroleum Ether 40-60°C (DAB) pharma grade in pharmaceutical applications include its high purity level, low boiling point range, and non-polar nature. The solvent is highly effective in extracting non-polar compounds from natural sources, such as plant materials, without introducing unwanted impurities. Its low boiling point range allows for easy evaporation and recovery of the solvent, making it cost-effective for large-scale production processes.
How should Petroleum Ether 40-60°C (DAB) pharma grade be stored and handled in a pharmaceutical setting?
Petroleum Ether 40-60°C (DAB) pharma grade should be stored in a cool, dry place away from direct sunlight and sources of heat or ignition. The solvent should be kept in a tightly sealed container to prevent evaporation and contamination. When handling the solvent, appropriate personal protective equipment, such as gloves, goggles, and a lab coat, should be worn to minimize the risk of exposure. In case of spillage, the area should be promptly cleaned up using absorbent materials and proper disposal methods.
Petroleum Ether 40-60°C (DAB) pharma grade is a high-purity solvent that is commonly used in the pharmaceutical industry for various applications. It is a hydrocarbon solvent derived from petroleum sources and is known for its low boiling point range of 40-60°C. This makes it ideal for extraction and purification processes where lower temperatures are required to prevent the degradation of sensitive compounds.
What are the main characteristics of Petroleum Ether 40-60°C (DAB) pharma grade?
Petroleum Ether 40-60°C (DAB) pharma grade is a colorless, volatile liquid with a characteristic odor. It is highly flammable and should be handled with care in a well-ventilated environment. The solvent is non-polar and has a low polarity index, making it suitable for extracting non-polar compounds such as fats, oils, and essential oils. It has a boiling point range of 40-60°C, which allows for easy evaporation and recovery of the solvent after extraction processes.
How is Petroleum Ether 40-60°C (DAB) pharma grade different from other solvents used in the pharmaceutical industry?
Petroleum Ether 40-60°C (DAB) pharma grade is different from other solvents used in the pharmaceutical industry due to its specific boiling point range and purity level. The 40-60°C boiling point range makes it suitable for applications where lower temperatures are required to prevent the degradation of heat-sensitive compounds. Its high purity level, conforming to DAB (Deutsches Arzneibuch) standards, ensures that the solvent does not contain any impurities that could affect the quality of pharmaceutical products.
What are the key benefits of using Petroleum Ether 40-60°C (DAB) pharma grade in pharmaceutical applications?
The key benefits of using Petroleum Ether 40-60°C (DAB) pharma grade in pharmaceutical applications include its high purity level, low boiling point range, and non-polar nature. The solvent is highly effective in extracting non-polar compounds from natural sources, such as plant materials, without introducing unwanted impurities. Its low boiling point range allows for easy evaporation and recovery of the solvent, making it cost-effective for large-scale production processes.
How should Petroleum Ether 40-60°C (DAB) pharma grade be stored and handled in a pharmaceutical setting?
Petroleum Ether 40-60°C (DAB) pharma grade should be stored in a cool, dry place away from direct sunlight and sources of heat or ignition. The solvent should be kept in a tightly sealed container to prevent evaporation and contamination. When handling the solvent, appropriate personal protective equipment, such as gloves, goggles, and a lab coat, should be worn to minimize the risk of exposure. In case of spillage, the area should be promptly cleaned up using absorbent materials and proper disposal methods.