Titanium rod filters are constructed using high-purity titanium powder. They exhibit outstanding properties such as corrosion resistance, high-temperature resistance, high strength, easy filtration accuracy maintenance, and effortless regeneration. These filters possess strong antimicrobial capabilities and do not interact with microorganisms. They find applications in various fields, including bioengineering, medicine, petrochemical separation and filtration, liquid medicine manufacturing, and water treatment.
1. For solid-liquid separation applications, it is uncommon to use 20-inch sizes in the design. This is due to the relatively brittle nature of the titanium rod filter element, which is made by sintering titanium powder at high temperatures. During installation and removal, care must be taken to avoid bumps that may occur when handling the inner and outer edges of the cylinder and the entire set of titanium rods.
2. When designing the cylinder body, it is crucial to consider the actual amount of activated carbon and allocate sufficient space for the activated carbon powder. This prevents blockages in the titanium rod filter element, which can increase pressure differentials and reduce flow rates. By optimizing the design, energy consumption can be minimized.
3. It is advisable to use a thicker design for the perforated plate responsible for supporting the filter element. Besides considering the weight of the titanium rod itself, the accumulation of solid particles like activated carbon on the filter's surface must be accounted for. The presence of sludge or other substances on the titanium rod can lead to blockages and increased pressure differentials, affecting the filter element's performance. Additionally, excessive pressure or deformation on the perforated plate may cause collisions between filter elements and even fractures.
4. Incorporating a baffle at the inlet and welding it during the design phase is recommended. This prevents direct impact on the filter element during feeding, reducing the likelihood of loosening or collisions between filter elements.
5. During installation and use, it is essential to carefully inspect the titanium rod filter element for any cracks or damage. Conducting a thorough examination by passing compressed air through the interior of the titanium rod and immersing it in water allows for the identification of cracks or damage. After ensuring its integrity, the titanium rod filter element can be installed on the perforated plate. When tightening the nut, it is important to apply moderate force with a wrench. Over-tightening may cause breakage or concealed damage, while insufficient tightening may result in carbon leakage.
