Airish Plus CLEAN SHIELD Health Mask FFP2 A necessary health mask for safe and pleasant breathing by filtering the yellow dust, fine particles, and source of infections that threatens our daily life. The three-stage folding design makes it easy to wear and easy to carry around. High-efficiency filters provide an excellent defense. Highly hermeticity and easy to breathe is a three-dimensional structure. The mask's interior space is wide, so it's comfortable to use for a long time 1. Three-dimensional structure with easy breathing 2. Protection from PM2.5 & Fine Dust, Infectious Source 3. Highly defensive FFP2 High-Efficiency Filter
Wire Gauge: 0.7mm-4.0mm Type: plastic spool, wooden spool,In spool or coil Model Number: BWG8-BWG25 Function: baling ,fence,filter,rope etc Place of Origin: India and China
We offer superior quality sponge iron that is also known as direct- reduced iron. Our offered sponge iron is made for high grade, 65-70 fe Min fem-80%, fet-90-92%, s-0.04% max. Loose in form of lumps. Sponge iron filter material In industry through a sponge iron production equipment is widely applied iron phosphorus reduction method, method of reduction of iron ore concentrate, etc., the rolling iron phosphorus or ore concentrate after reduced iron press down into pieces, into the roasting tube into the kiln roasting, produce the high quality reduced iron. Sponge iron filter material for the first time into the deaerator, must first after backwashing, remove the sponge iron residue on the surface of the filter material float ash impurities.
Good Feeling 2D KF94 Quarantine Mask is a quality product approved by the Korean Ministry of Food and Drug Safety.  Respiratory protection from harmful particulate matter such as yellow dust, fine dust, and infectious sources  1. V-Fit thin face design With thin face visual effect. The inside does not touch the lips for a comfortable fit. 2. High-specification MB filter The Korean-made high-standard MB filter can block more than 94% of particulate harmful substances such as sandstorms, fine dust (PM2.5), and infection sources. 3. High elastic ear straps Use high elastic ear straps for comfortable wearing Mask size (unopened): 13 (w) x 14.5 (h) cm
The soap dish is made from high quality wooden/ bamboo material. Hard material, resistant to pressure, not easily deformed, and not easy to absorb water and deteriorate. Reasonable and simple design increases the ventilation and suction efficiency of the product, and the shape is more beautiful and compact. Structured filtered water makes soap easier to keep dry, and adds vitality to your home.
Used rails r50 65, hms 1/2, jet fuel, crude oil, en590, copper millberry, copper cathode, copper powder, aluminum ingots, zinc ingots, sugar, hot & cold rolled coil, whit spirit, urea. lumber, rebar steel, billet steel, metal products including bronze, brass, aluminum bronze, green metal bars, shapes, rods & ingots.International commodities traders & resellers
temperable mirror is processed by sputtering coating technology craft, without painting in the backing side. temperable mirror can be tempered as float glass to increase the safety factory . temperable mirror is more durable without stainted edge problem caused by backing painting.
EZ Well KF94 Quarantine Mask is a quality product approved by the Korean Ministry of Food and Drug Safety. In addition to this, has both FDA and CE certified Respiratory protection from harmful particulate matter such as yellow dust, fine dust, and infectious sources 1. The three-dimensional quadruple structure certified by the Korean Ministry of Food and Drug Safety securely blocks the outside (4 Layer using a melt-blown filter) 2. A fine dust mask that is comfortable to breathe because it does not touch your mouth! Excellent breathability. 3. It adheres smoothly along the face line and prevents fogging with the nose wireframe and ear wireframe. 4. It has an Excellent Mark from DermaTest in German which did not lead to toxic-irritative intolerance reactions in patch testing carried out in accordance with international guidelines
Ramming mass is commonly used in metallurgy, building materials, non-ferrous metal smelting, chemical, machinery and other manufacturing industries. Ramming mass is widely used in non-core intermediate frequency furnace and core induction furnace. As an intermediate frequency furnace ramming material, refractory ramming is applied to melt gray cast iron, nodular cast iron, malleable cast iron, vermicular cast iron, and cast alloy steel; to melt carbon steel, alloy steel, high manganese steel, tool steel, heat resistant steel, stainless steel, molten aluminum and its alloys; to melt red copper, brass, white brass, bronze and its alloys, etc. Induction furnaces are used for melting cast iron, mild steel and various alloy steels in foundries and making of steel in mini steel plants using sponge iron The refined high silicon, low iron quartz sand and quartz powder are selected and the fused quartz sand is added as the refractory material., with no slag, no crack, damp proof, convenience of repair, and the corrosion resistance, thus greatly improving the furnace service life span and the economic benefit.. Silica ramming mass can safely be used up to an operating temperature of 1600 deg C. Since it expands very little, it is superior to both alumina and magnesia refractories to resist thermal shocks Acid ramming material is the premixed ramming mass of the lining material. The acid ramming mass is used to smelt a series of metal materials such as ordinary steel and carbon steel. The lining practice best suited to a particular furnace depends upon the capacity and design of the furnace, operation practice adopted during making of a heat, and furnace output.
Las 4NF- Lactose Substitute Non- Fat Solid is an Enzymatically Modified, Clean Label, Vegan, Gluten-Free, Plant-based and Non-GMO starch used as a special additive for improving texture of Paneer. It is 100% naturally made which does not have any preservatives and Mono sodium Glutamate (MSG). APPLICATIONS 1. Milk is first heated (pasteurizing) to 85�°C and held for 12 minutes. 2. Add 2% to 20% of LAS 4NF based on the Protein Content of the Milk to the pasteurized milk and stir slowly to ensure full dissolving at 80C. 3. LAS 4NF itself contains coagulant. If necessary add coagulant as per the costumer requirement slowly to the milk by slow stirring, maintaining the temperature at 70�° C. 4. Keep Slow stirring for complete separation of solids and whey. (Indication: Whey will turn to light green color and small lumps of solids will settle down) 5. The whey water is filtered through a fine mesh of muslin cloth. The separated particles remain in muslin cloth and it is held in hoofer. 6. Apply pressure on the covered solid spread evenly on hoofer, with a flat lid in lay till water droplets stop. 7. Then the Paneer is pre-cooled in pure water at room temperature for 10 mins or till the external sides can be held in hand water for 10 mins , then dip in chilled water for 4 hours. DOSAGE Use 2 to 20% of LAS 4NF of total batch size, based on the protein content of the milk. For lower protein content in the milk higher LAS 4NF need to be used.
Sintered titanium filters are manufactured using 99.6+ % pure titanium powders. Depending on the desired filter morphology, the powders are compressed through isostatic pressing, uniaxial pressing, or roll-compacting. The resulting green body is then subjected to sintering in a furnace to produce the final sintered filter. The titanium rod filter element utilizes corrosion-resistant titanium rods, making it highly resistant to high temperatures and impacts. It is non-toxic, does not shed particles or adsorb liquid components, and offers a long service life (typically 4-5 years). The titanium rod filter element is easy to clean and renewable. It employs deep filtration, forming a dense filter layer with gaps on the surface of the titanium rod, effectively filtering particles. Additionally, particles smaller than the pore size of the titanium rod can be tightly captured on the channel walls, enhancing the filtration accuracy. The titanium rod filter shell is constructed from high-quality 316L or 304 stainless steel, featuring a mirror-polished interior and exterior. Specifications: Diameter: �¤60mm Length: 1000mm Filtering accuracy: 100�¼m Interface type: M30 interface (can be made as required) Technic: Sintering Filtration Principle When the filter medium enters the filter cartridge through the liquid inlet, impurities are initially trapped by the surface of the titanium rod, forming a dense filter layer. This filter cake layer contributes to the filtration process. Simultaneously, particles smaller than the diameter of the titanium rod's pores enter the micropores on the rod walls. The intricate and circuitous nature of these curved and slender pores, combined with fluid flow-induced extrusion and collision, facilitates effective particle capture. This deep filtration occurs within the titanium rod, as impurities are intercepted on its outer surface and inner wall. The filtered material exits through the outlet. As impurities accumulate within the filter cartridge, the pressure increases. Regeneration of the filter titanium rod is required once the pressure reaches 0.3MPa. Features of Titanium Filter Cartridge: Compacted pre-graded Titanium powder: Sintered metal filters are constructed using precisely graded titanium powder. This powder undergoes compaction and sintering, a high-heat process that bonds the particles without melting them. The result is a robust, porous metal structure with exceptional strength and filtration performance. Welded end-caps prevent filtrate bypass: Titanium filters feature integrally welded end-caps, eliminating the risk of filtrate bypass. This ensures that all fluid passes through the filter media, maximizing filtration efficiency and preventing contamination of the filtrate. This leak-proof design is essential for maintaining process integrity and achieving reliable results.
The sintered porous copper filter for gas vent, specifically designed for vacuum mold applications, is a highly efficient filtration product that ensures gas purity and enhances performance in vacuum molding processes. This filter is manufactured using a sophisticated sintering process, which involves fusing copper particles together to create a porous structure with interconnected channels. This production technique allows for precise control over pore size, permeability, and mechanical strength, resulting in a filter optimized for vacuum mold applications. Specifications: - Pore Size: 30-40 microns - Porosity: 30-40% - Dimensions: 8*10mm - Material: Copper powder Features: 1. Enhanced Gas Purity: The sintered porous copper filter effectively removes impurities and particulates from gas streams, ensuring a clean and pure gas environment in vacuum molding processes. 2. Optimal Filtration Performance: With its precisely controlled pore size and high filtration efficiency, the filter captures and retains even the smallest particles, preventing contamination and maintaining the quality of the vacuum mold. 3. High-Temperature Resistance: The filter is designed to withstand the elevated temperatures encountered in vacuum molding applications, ensuring stability and consistent performance. 4. Corrosion Resistance: Made from high-quality copper, the filter exhibits excellent corrosion resistance, allowing it to withstand corrosive gases and maintain its effectiveness over time. 5. Easy Integration: The filter can be easily integrated into existing vacuum mold systems, facilitating seamless installation and replacement. 6. Extended Lifespan: The durable construction and high-quality materials of the filter contribute to its long lifespan, reducing the need for frequent replacements and enhancing cost-effectiveness. Applications: - Plastic and Rubber Manufacturing: Used in vacuum molding processes for the production of plastic and rubber products, ensuring clean and pure gas environments for high-quality moldings. - Electronics Industry: Applied in vacuum molding applications for electronic components, maintaining a contaminant-free environment to ensure product reliability. - Automotive Industry: Utilized in vacuum molding processes for automotive parts, ensuring precise and high-quality moldings for optimal performance. - Medical Device Manufacturing: Employed in vacuum molding applications for medical devices, ensuring the purity and integrity of the molded products. - Aerospace Industry: Used in vacuum molding processes for aerospace components, ensuring the production of high-performance and reliable parts.
Sintered mesh filters are resistant to high temperatures and corrosion, so they are usually used for purification and filtration of liquids and gases, separation and recovery of solid particles, transpiration cooling at extreme high temperatures, and airflow control distribution. Filter cartridges are made of stainless steel 304/316L. Sintered mesh cartridges are available in the operating range from -150C to +300C with differential pressures up to 25 bar. Material:stainless steel304/316L Technique:wire mesh Thickness: is determined by the number of layers of sintered wire mesh, five layers of standard sintered wire mesh thickness is generally 1.7mm. Size: According to the size of the sintering furnace chamber, the common specifications are 500mmX1000mm, 1000mmX1200mm. High strength: high strength even after high temperature sintering, up to 600C Durable and corrosion-resistant: maintains a stable structure at high temperatures and pressures or in highly acidic environments. High filtration accuracy, customizable: filtration accuracy from 1 micron to 8000 microns Widely used: widely used for uniform filtration in high-pressure or high-viscosity environments, such as petroleum, chemical and food grade filtration. Why use wire mesh filter? Stainless steel sintered wire mesh filter is a new type of filtration material which is made of multi-layer metal wire mesh through special laminated pressing and vacuum sintering process, with high mechanical strength and overall steel. The pores of each layer of wire mesh are interlaced to form a uniform and ideal filtration structure, which not only overcomes the shortcomings of ordinary metal wire mesh with low strength, poor rigidity and unstable mesh shape, but also can reasonably match and design the material's pore size, penetration performance and strength characteristics, so as to make it have excellent filtration precision, filtration impedance, mechanical strength, abrasion resistance, heat resistance, and the comprehensive performance is significantly better than that of sintered metal powder and sintered metal powder, and the overall steel. The comprehensive performance is significantly better than other types of filter materials such as sintered metal powder, ceramics, fiber, filter cloth, filter paper and so on. What's the structure of the wire mesh filter Metal sintered filter is a widely used standard structure of sintered wire mesh, generally five-layer structure, divided into five parts: protective layer, filtration and control layer, dispersing layer, supporting skeleton layer, and skeleton layer.
TOPTITECH's 30" SUS 316L Sintered Alloy Porous Filter Elements are crafted from premium SUS 316L stainless steel alloy, ensuring durability and reliability in demanding environments. The sintered alloy construction provides excellent resistance to heat, corrosion, and physical wear, making them ideal for challenging filtration applications. The linked pores in the porous structure of the 30" SUS 316L Sintered Alloy Porous Filter Elements facilitate the effective removal of pollutants. The large surface area facilitates optimal particle capture, ensuring high filtration efficiency while minimizing pressure drop. With customizable configurations available, TOPTITECH can tailor the pore size, thickness, and shape to meet specific filtration needs. Parameter Material: SUS 316L Length: 30â?? Diameter: 30mm Pore size: 15 um Wall thickness: 2.5mm Connector: 1/2â?? NPT Features Exceptional Durability: Our 30" SUS 316L Sintered Alloy Porous Filter Elements are constructed using high-quality SUS 316L stainless steel, ensuring unmatched strength and stability. These filter elements are designed to withstand demanding environments, offering long-lasting performance and reliability. High Filtration Efficiency: With a porous structure and interconnected pores, these filter elements provide efficient contaminant removal. The large surface area facilitates optimal particle capture, resulting in high filtration efficiency while minimizing pressure drop. This ensures effective filtration and maintains the overall efficiency of industrial processes. Robust Heat and Corrosion Resistance: The sintered alloy material of these filter elements provides excellent resistance to heat and corrosion. They can operate reliably in high-temperature environments and withstand the corrosive effects of chemicals, ensuring prolonged service life and consistent filtration performance. Customizable Configurations: We offer customizable configurations for our filter elements, allowing for adjustments in pore size, thickness, and shape to meet specific filtration requirements. This customization ensures that the filter elements are tailored to the unique needs of each application, optimizing filtration performance and achieving desired results. Wide Range of Applications: The 30" SUS 316L Sintered Alloy Porous Filter Elements find extensive use across various industrial sectors. Whether in petrochemical, pharmaceutical, food and beverage, or water treatment applications, these filter elements deliver reliable filtration solutions. Their robust construction and superior filtration performance make them a trusted choice for critical filtration tasks, ensuring clean and purified fluids while maintaining process efficiency.
Introduction: Porous Titanium Tube is crafted using industrial high-purity titanium powder (>99.6%) through a series of processes including powder classification, molding, sintering, and mechanical welding. The Porous Titanium Tube exhibits exceptional adaptability, allowing for adjustable porosity and filtration accuracy across a wide range. Featuring an open cell structure, Porous Titanium demonstrates great promise in the field of implant materials. Its remarkable attributes, such as a low elastic modulus, excellent bioactivity, biocompatibility, and the capacity for bone regeneration, make it an ideal choice for medical applications. At TOPTITECH, we provide a diverse range of Porous Titanium Tubes that cater to varying filtration precision requirements and dimensions. Additionally, our services extend to machining capabilities, enabling operations such as punching and cutting on sintered titanium tubes. For specific needs, we also offer Porous Titanium Tubes with one end closed. Specifications: - Material: Gr1 pure titanium powder - Filtration Precision: 30 Micron - Diameter: 150mm - Length: 40 inches (1000mm) - Porosity: 30-40% - Technique: Sintered Feature Porous titanium tubing offers high-temperature resistance up to 300�°C for normal use applications. It maintains strong mechanical properties with good plasticity, allowing for machining to customer specifications. This material demonstrates excellent corrosion resistance in harsh chemical environments. It can withstand oxidation and exposure to nitric acid, sulfuric acid, dilute hydrochloric acid, acetic acid, liquid hydrogen, and liquid nitrogen. Its uniform, stable pore structure coupled with precise filtration abilities delivers highly effective purification. No particle shedding occurs, preventing secondary contamination. The tubing also enables easy, repeated online cleaning through back blowing. Outstanding wear and impact resistance endow porous titanium with durable mechanical characteristics. Applications: 1. Chemical Processing: These filter tubes are used in chemical processing industries to remove impurities and ensure the purity of liquids and gases. 2. Petrochemical Industry: They play a crucial role in the petrochemical industry by filtering out contaminants and particulate matter from various fluids. 3. Pharmaceutical and Biotechnology: Porous titanium filter tubes are commonly used in pharmaceutical and biotechnology applications to achieve high levels of purity in drug manufacturing and sterile filtration processes. 4. Water Treatment: These filter tubes are utilized in water treatment systems to remove suspended solids, bacteria, and other impurities from water sources. 5. Food and Beverage: Porous titanium filter tubes find application in the food and beverage industry for filtration during the production of beverages, dairy products, and edible oils.
Ultra-fine SUS316L powder sintered filter tube is commonly used in various applications due to its excellent corrosion resistance, high strength, and good formability processing, and more. Parameters Material:316L Size:10*30mm Pore size:10microns Temperature resistance:â?¤600â?? Pressure resistance: â?¤3Mpa Features Corrosion resistance: SUS316L powder is highly resistant to corrosion, especially in aggressive environments such as marine or chemical environments. Due to the presence of molybdenum, it is more resistant to pitting and crevice corrosion. Heat resistance: This stainless steel powder has good heat resistance, making it suitable for applications in elevated temperature environments. Formability: SUS316L powder offers good formability, allowing it to be easily shaped and fabricated into various forms, such as tubes, sheets, or components. Hygienic properties: It is worth noting that SUS316L is commonly used in industries requiring high levels of hygiene, such as pharmaceuticals or food processing, due to its non-reactive nature and ease of cleaning. Applications in the aerospace industry Engine components: turbine blades, exhaust systems, and combustion chambers. Structural components: utilized in the production of structural components such as brackets, fasteners, and fittings. Fuel system components: SUS316L powder is used in fuel system components like fuel nozzles or connectors. Heat exchangers: heat exchangers used in aircraft. Exhaust systems: utilized in the construction of exhaust systems, including ducts and mufflers.
A semi-circular stainless steel sintered plate is a specialized type of porous metal filter that is shaped in a semi-circular form. It is made from stainless steel powder that is compacted and sintered together to form a rigid structure with interconnected pores. Parameters: Material: Stainless Steel 316L Filtration Rating: 20 microns(customizable) Shape: Semicircle (customizable to specific requirements) Thickness: 10 mm (customizable to specific requirements) Porosity: 30%-45% Operating Temperature: up to 600�°C Features: High Filtration Efficiency: Porous sintered 316L stainless steel filters are designed to provide high filtration efficiency. The filter's porous structure allows for the effective trapping and removal of particles, contaminants, and impurities from the fluid or gas being filtered. Excellent Chemical Resistance: 316L stainless steel exhibits excellent corrosion resistance and chemical compatibility. It can withstand exposure to a wide range of corrosive chemicals, acids, and bases, making it suitable for various applications in aggressive environments. Durability and Longevity: Porous sintered 316L stainless steel filters are known for their durability and long service life. The 316L stainless steel material offers high mechanical strength and resistance to wear, ensuring the filter can withstand demanding operating conditions and extended periods of use. Temperature and Pressure Resistance: These filters are capable of operating at high temperatures and pressures. Stainless steel 316L can withstand elevated temperatures, typically up to 600�°C or higher, without significant degradation. It also maintains its structural integrity under high-pressure differentials. Applications: Chemical Industry: Filtration of corrosive liquids, catalyst recovery, removal of particulate matter from process streams. Pharmaceutical Industry: Clarification of pharmaceutical solutions, sterile gas filtration, purification of process fluids. Food and Beverage Industry: Filtration of beverages, edible oils, food products, and removal of impurities. Petrochemical Industry: Filtration of high-temperature gases, removal of contaminants from oils and fuels. Water Treatment: Filtration of wastewater, removal of suspended solids, and purification of process water. Automotive Industry: Filtration in engine oil and fuel systems for improved performance and longevity. Electronics Industry: Filtration of electronic solutions, removal of microcontaminants in semiconductor manufacturing.
Porous sintered metal filters are constructed from interconnected networks of uniformly distributed pores, creating intricate pathways that effectively capture solid particles present in gas or liquid flow streams. These filters are renowned for their exceptional mechanical strength and serve as outstanding depth filters. Type 316L stainless steel, known for its robustness, can endure temperatures up to 750�°F (399�°C) in oxidizing environments and 900�°F (482�°C) in reducing environments. The production of sintered metal filters involves employing 316L stainless steel powder. The manufacturing process entails the uniaxial compaction of powder within a rigid tool possessing the inverse shape of the desired part, followed by sintering. By adjusting the compaction pressure and/or particle size of the powder, the pore size of the filter can be precisely controlled. Specification: Material: Pure stainless steel Powder Porosity: 30% to 40% Pore Size: 0.22 microns Size: 150*80mm Features Durability: Stainless steel is known for its exceptional durability and resistance to corrosion, making filter rings made from this material highly robust and long-lasting. They can withstand harsh operating conditions, including high temperatures, pressure differentials, and exposure to corrosive chemicals, without compromising their structural integrity. Chemical Compatibility: Stainless steel filter rings exhibit excellent chemical compatibility with a wide range of substances, including acids, alkalis, solvents, and organic compounds. This makes them suitable for filtration processes in diverse industries, such as chemicals, petrochemicals, pharmaceuticals, and food processing, where compatibility with various fluids is crucial. High Filtration Efficiency: Stainless steel filter rings can achieve high filtration efficiency due to their uniform and controlled pore structures. They effectively trap and remove fine particles, contaminants, and impurities from liquids and gases, ensuring the desired level of cleanliness and purity in the filtered media. Reusability: One significant advantage of stainless steel filter rings is their reusability. They can be easily cleaned through various methods such as backwashing, ultrasonic cleaning, or chemical cleaning, allowing for multiple uses and reducing replacement costs. Temperature Resistance: Stainless steel filter rings can withstand high operating temperatures, typically up to 600 degrees Celsius. This attribute makes them suitable for applications involving hot liquids or gases, such as in the petrochemical and food processing industries. Hygienic Properties: Stainless steel is a hygienic material commonly used in industries where cleanliness and sterility are paramount, such as the food and beverage and pharmaceutical industries. Stainless steel filter rings are easy to clean and maintain, ensuring adherence to strict hygiene standards and minimizing the risk of contamination.
The sintered conical wire mesh filter strainer is meticulously crafted from stainless steel sintered wire mesh through precise cutting and welding techniques. The utilization of a rolling seam welding process guarantees exceptional roundness and flatness. Thanks to its cone-shaped design, the sintered cone filter offers superior diversion, separation, and filtration capabilities. Tailored to meet customers' preferences, the bottom of the stainless steel sintered mesh cone filter can either be flat or pointed. Whichever configuration is chosen, this filter exhibits remarkable dirt-holding capacity, making it a popular choice for three-in-one filtration purposes encompassing filtering, washing, and drying applications across various industries such as chemistry, food processing, beverage, and pharmaceuticals, among others. Parameters Material:� 316 L stainless steel, 304 stainless steel Filtration precision:� 1 micron to 300 microns Size:� as the drawing required Features Superior Filtration: The cone design maximizes the filtration area, enabling a larger filtration surface compared to other filter shapes. This expanded surface area enhances the filter's capacity to capture and retain particles, resulting in more effective filtration. Enhanced Mechanical Strength: The sintering process employed in manufacturing the filter significantly enhances its mechanical strength. Sintering involves compacting and bonding the stainless steel particles at high temperatures, creating a solid and robust structure. Enhanced Diversion: The conical shape allows for better diversion of the fluid or gas flowing through the filter. It promotes a more efficient flow pattern, ensuring that the medium being filtered is evenly distributed across the filter surface. Versatile Applications: The cone-shaped filter finds wide application in various industries, including chemistry, food processing, beverage, and pharmaceuticals. Its versatility lies in its ability to perform three essential functionsâ??filtering, washing, and drying. Applications With regards to water treatment, sintered wire mesh cone filters efficiently remove impurities, sediment, and contaminants from water sources, ensuring clean and purified water for various applications. In gas filtration within fluidized beds, these filters effectively capture and separate particles, ensuring the optimal performance of the fluidized bed system. Additionally, their exceptional cleanability makes them ideal for use in sterile product environments, maintaining high levels of cleanliness and hygiene.
Product Description: The Micron Porous Metal Filtration System is used in petroleum and chemical production processes for high-efficiency separation of all liquid-solid and gas-solid. The metal powder sintered microporous metal filter element, which is commonly constructed of 316L stainless steel powder, and 304 stainless steel powder, forms the basis of the system. While maintaining the filtration effect, attaining the lowest pressure drop and highest backwashing recovery rate, this porous metal filter can adapt to the increased process temperature and pressure of refineries and chemical plants. The Micron Porous Metal Filtration System in petrochemical production has the characteristics of high-temperature resistance, high-pressure drop, high solid content operation, liquid (gas) and solid high-efficiency separation, system internal backwashing to remove solids, continuous automatic operation, and can avoid frequent replacement and disposal of waste filter material to prevent environmental pollution. Products Parameters Material: SUS 304 316L Outer diameter: �¦10~100mm Length: 10~1500mm (more than 1500mm can be welded) Filtration accuracy: 0.2um~100um Porosity: 30%-50% Features Highly porous structure: Porous metal powder sintered stainless steel filters have a highly porous structure that provides a large surface area for efficient catalyst recovery and separation. High durability: These filters are highly resistant to corrosion and can withstand harsh operating conditions, making them ideal for use in a variety of industrial and scientific applications. Efficient mass transport: The highly porous nature of these filters allows for efficient mass transport of catalysts and other materials, which is critical for the performance of catalyst recovery systems. Easy to clean: Porous metal powder sintered stainless steel filters can be easily cleaned and reused, making them a cost-effective solution for catalyst recovery and separation. Applications: precious metal catalyst and precious metal powder recovery Catalyst recovery mechanism in PTA production, CTA, and PTA Coal to olefin (MTO) catalyst recovery system Filtration of oil slurry and circulating oil in the catalytic cracking unit Flue gas purification and dust suppression equipment for catalyst regeneration System for filtering feedstock oil for the hydrogenation/coking process in refineries System for filtering catalysts in the hydrogenation of Raney Nickel High-purity gas filter for wafer, storage media, integrated circuit manufacturing process
