Primary Applications of Drum Pumps and the Risks Involved
Barrel pumps, also known as drum pumps, are used to transfer liquids and chemicals from barrels, drums, and other containers. They are essential tools in many industries, including chemicals, pharmaceuticals, food and beverage, and petroleum. While barrel pumps are highly versatile and efficient, they also come with certain risks. In this article, we will discuss the primary applications of barrel pumps and the risks involved.
Applications of Barrel Pumps
Barrels and drums are commonly used as storage containers for aggressive and corrosive chemicals, such as acids, bases, and solvents. However, to transfer these liquids, tote pumps, a type of drum pump, are necessary to move them from intermediate bulk containers (IBCs) or totes. Tote pumps are similar to chemical drum pumps but have a longer tube length and are designed to handle higher flow rates. In the petroleum industry, barrel pumps are used to transfer oil, gasoline, and diesel from drums and barrels to storage tanks or vehicles. They are also useful in transferring lubricating oils, hydraulic oils, and other fluids. Similarly, in the food and beverage industry, barrel pumps are used to transfer ingredients, such as syrups, juices, and flavors, from barrels and drums into mixing tanks or production lines.
Risks Involved in Using Barrel Pumps
Using barrel pumps involves certain risks, including exposure to hazardous chemicals, mechanical hazards, and contamination. When transferring chemicals, there is a risk of skin and eye irritation, respiratory problems, and even chemical burns. Mechanical hazards can occur if the pump is not properly secured or if the impeller gets stuck or jammed. Contamination can occur if the pump is not properly cleaned and sanitized between uses.
Risks Involved with Barrel Pumps:
- Chemical exposure and inhalation hazards to operators
- Risk of spills and leaks, which can lead to slips, falls, and contamination
- Electrical hazards due to the use of electrical pumps and potential sparking
- Risk of fire or explosion from flammable or combustible fluids
- Mechanical hazards, such as entanglement or pinch points, from moving parts of the pump
- Potential contamination of the fluid being pumped due to improper cleaning or cross-contamination from previous use
Safety Measures for Using Barrel Pumps
To minimize the risks involved in using barrel pumps, it is important to follow proper safety procedures, use appropriate safety gear, and ensure that the pump is properly maintained and cleaned. Make sure to wear gloves, safety glasses. Use a grounding wire to prevent electrostatic discharge. Ensure that the pump is properly secured and that the impeller is not stuck or jammed before starting the pump. Properly clean and sanitize the pump and its components between uses.
Factors to Consider when Selecting a Barrel Pump:
- The type of fluid being pumped and its properties, such as viscosity and corrosiveness
- The size and type of the container the fluid is stored in
- The flow rate and volume of the fluid needed for the application
- The power source and type of pump needed, such as electric or manual
- The material of the pump and its compatibility with the fluid being pumped
- Safety features and certifications, such as explosion-proof or chemical-resistant
Barrel pumps are essential tools for many industries, but they also come with certain risks. By understanding the primary applications of barrel pumps and the risks involved, you can take the necessary safety measures to ensure that the transfer of chemicals and liquids is safe and efficient. Always follow proper safety procedures, use appropriate safety gear, and maintain and clean the pump regularly to minimize the risks involved. Contact Vissers Sales Corp. for more information and details on the same or visit our website.