Product Description Winner3009B intelligent dry laser particle size analyzer, manual and full automatic operation modes. MIE scattering principle as basic, Converging light Fourier transform light path, Highly stable He-Ne laser and High sensitive ring photoelectric detector,guarantee good repeatability and accuracy. It uses air as dispersion medium, and uses turbulent dispersion principle with High precision feeding device, patent powder spray pump and oil-free silent gas source guaranteeing the samples to be fully dispersed. It's fit for any dry powder materials,especially the powder that takes chemical reaction with water or changes its shape in liquid. Compared to the wet laser particle size analyzer, It' with the same accuracy and repeatability. Main Features (1) Advanced testing optical path. Converging light Fourier transform light patented technology, make scattering light not be restricted to lens aperture. Use main detector and large angle auxiliary detector efficiently collect all angles of scattering light in the testing range, ensure good testing accuracy and reliability in the whole range. (2)Scientific dispersion system Turbulence dispersion patented technology and Normal shock shearing effect, make particles sufficient dispersion, Adopt wearable ceramics improve dispersion systemâ??s working life. (3)Human-based operation mode Manual and Full automatic, easy choose. (4)High precision-automatic optical path calibration system Itâ??s composed of precise four phase hybrid stepper motor, Its inching precision is reach to micron level, so light path is always in a good state. (5)Intelligent data analysis-winner unique software support Analysis software collect large quantity of particle information in high speed, and inverse particle distribution by unconstrained free fitting technology, then intelligent statistics and analysis of testing data, ensure accuracy and repeatability of the output. (6) The results not only show particle distribution,the cumulative value curve and typical particle sizes( D10, D50, D90.), but also support user-defined analyze result, such as any features particle diameter from D0 to D100,Cumulative percent(bigger than or less than a certain particle diameter). (7)Users can design the test report output and display forms according to industry requirements. Specification Model Winner3009B Standard ISO 13320-1:1999ï¼?GB/T19077.1-2308ï¼?Q/0100JWN001-2013 Measuring Range 0.1-1200m Channels Number 97pcs Accuracy
Product Description Winner3009A intelligent dry laser particle size analyzer, manual and full automatic operation modes. MIE scattering principle as basic, Converging light Fourier transform light path, Highly stable He-Ne laser and High sensitive ring photoelectric detector,guarantee good repeatability and accuracy. It uses air as dispersion medium, and uses turbulent dispersion principle with High precision feeding device, patent powder spray pump and oil-free silent gas source guaranteeing the samples to be fully dispersed. It's fit for any dry powder materials,especially the powder that takes chemical reaction with water or changes its shape in liquid. Compared to the wet laser particle size analyzer, It's with the same accuracy and repeatability. Main Features (1) Advanced testing optical path. Converging light Fourier transform light patented technology, make scattering light not be restricted to lens aperture. Use main detector and large angle auxiliary detector efficiently collect all angles of scattering light in the testing range, ensure good testing accuracy and reliability in the whole range. (2)Scientific dispersion system Turbulence dispersion patented technology and Normal shock shearing effect, make particles sufficient dispersion, Adopt wearable ceramics improve dispersion system's working life. (3)Human-based operation mode Manual and Full automatic, easy choose. (4)High precision-automatic optical path calibration system It's composed of precise four phase hybrid stepper motor, Its inching precision is reach to micron level, so light path is always in a good state. (5)Intelligent data analysis-winner unique software support Analysis software collect large quantity of particle information in high speed, and inverse particle distribution by unconstrained free fitting technology, then intelligent statistics and analysis of testing data, ensure accuracy and repeatability of the output. (6) The results not only show particle distribution,the cumulative value curve and typical particle sizes( D10, D50, D90.), but also support user-defined analyze result, such as any features particle diameter from D0 to D100,Cumulative percent(bigger than or less than a certain particle diameter). (7)Users can design the test report output and display forms according to industry requirements. Specification Model Winner3009A Standard ISO 13320-1:1999 GB/T19077.1-2308 Q/0100JWN001-2013 Measuring Range 0.1-2000m Channels Number 100 pcs Accuracy
Product Description Winner3008B is intelligent dry laser particle size analyzer, manual and full automatic operation model. MIE scattering principle as basic, Converging light Fourier transform light path, Highly stable He-Ne laser and High sensitive ring photoelectric detector,guarantee good repeatability and accuracy. It uses air as dispersion medium, and uses turbulent dispersion principle with High precision feeding device, patent powder spray pump and oil-free silent gas source guaranteeing the samples to be fully dispersed. Itâ??s fit for any dry powder materials, especially the powder that takes chemical reaction with water or changes its shape in liquid. Compared to the wet laser particle size analyzer, Itâ??s with the same accuracy and repeatability. Main Features (1) Advanced testing optical path. Converging light Fourier transform light patented technology, make scattering light not be restricted to lens aperture. Use main detector and large angle auxiliary detector efficiently collect all angles of scattering light in the testing range, ensure good testing accuracy and reliability in the whole range. (2)Scientific dispersion system Turbulence dispersion patented technology and Normal shock shearing effect, make particles sufficient dispersion, Adopt wearable ceramics improve dispersion systemâ??s working life. (3)Human-based operation mode Manual and Full automatic, easy choose. (4)High precision-automatic optical path calibration system Itâ??s composed of precise four phase hybrid stepper motor, Its inching precision is reach to micron level, so light path is always in a good state. (5)Intelligent data analysis-winner unique software support Analysis software collect large quantity of particle information in high speed, and inverse particle distribution by unconstrained free fitting technology, then intelligent statistics and analysis of testing data, ensure accuracy and repeatability of the output. (6) The results not only show particle distribution,the cumulative value curve and typical particle sizes( D10, D50, D90.), but also support user-defined analyze result, such as any features particle diameter from D0 to D100,Cumulative percent(bigger than or less than a certain particle diameter). (7)Users can design the test report output and display forms according to industry requirements. Specification Model Winner3008B Standard ISO 13320-1:1999ï¼?GB/T19077.1-2308ï¼?Q/0100JWN001-2013 Measuring Range 0.1-2000�¼m/0.1-1200�¼m Channels Number 100/97pcs Accuracy
The stainless steel micron wire mesh filter tube is a filter element made primarily of 304 or 316 stainless steel wire mesh. It is manufactured using stainless steel wire mesh woven in various mesh shapes to achieve the desired filtration grade. The stainless steel wire mesh filter tube has uniform surface filtration performance and employs multi-layered sintered stainless steel mesh as the main filter material. The mesh has interlaced pores, making it resistant to high temperatures, sudden temperature changes, and corrosion, making it suitable for various corrosive media such as acids and alkalis. Parameters Diameter: 20 mm Wall Thickness: 2 mm Operating Temperature: 600�°C Filtration Precision: 100 microns Connections: Open on both ends Features High Pressure Differential: It is a filter element with high pressure resistance, commonly used in high-pressure fluid filtration applications to ensure long-term operation of equipment in high-pressure pipelines. High Temperature Resistance: Stainless steel material can withstand prolonged operation at high temperatures. While other materials may deform under high temperatures, stainless steel filter cartridges remain stable. Cleanable: The material is stainless steel, which is easy to clean and reuse. Cleaning the equipment involves removing impurities and reinstalling it for further operations. It allows for fluid backwashing, ensuring no residual contaminants on the surface of the stainless steel filter cartridge. Long Lifespan: The filter element has certain corrosion resistance and a longer service life. Its corrosion resistance makes it an ideal filtration element for preventing secondary contamination of fluids. Customizable Sizes: It comes in different sizes to be used in a wide range of industrial applications. Different sizes can easily adapt to different types of equipment. It also offers different sealing rings or gasket attachments for various applications. Stable Aperture: The filtration medium has a fixed pore structure, preventing contaminated particles from returning to the clean fluid. The absolute rated value of the pores provides consistent and reliable fluid filtration, improving filtration efficiency. Applications Petrochemical and oilfield pipeline filtration Gasoline filtration for engineering machines and refueling equipment Water treatment equipment filtration Pharmaceutical and food processing industries Chemical liquid filtration Suitable for pre-processing and post-processing systems in industries such as electronics, petroleum, chemical, pharmaceuticals, and food.
Basic Information Powder Sintered Titanium Filter Element: The powder sintered titanium filter element is made from specially treated titanium powder. It exhibits high corrosion resistance, high temperature resistance, and mechanical strength, effectively filtering out tiny particles and impurities while maintaining a high filtration efficiency. Stainless Steel Filter Housing: The stainless steel housing is made of stainless steel material and possesses excellent corrosion resistance and high-temperature resistance. The stainless steel housing is typically designed to be detachable, facilitating filter maintenance and replacement. Assembly Process: During the assembly of the filter, the powder sintered titanium filter element is installed inside the stainless steel filter housing. Usually, there is a sealing device between the filter element and the housing, ensuring that the filtration medium can only pass through the filter element and not bypass it. Once assembled, the liquid or gas to be filtered can be introduced into the filter through suitable inlet and outlet interfaces, and the filtered fluid can be obtained from the outlet. Applications Chemical Industry: This type of filter can maintain the purity of the medium during chemical reactions, preventing impurities from entering the product or damaging the equipment. Petroleum and Natural Gas Industry: This type of filter can be used in refineries, natural gas processing plants, oil fields, pipeline systems, etc., ensuring the purity of fluids and proper equipment operation. Food and Beverage Industry: This type of filter finds applications in food processing plants, beverage factories, dairy plants, etc., ensuring product hygiene and quality. Pharmaceutical Industry: This type of filter can be used in pharmaceutical plants, biotechnology companies, and pharmaceutical research institutions, ensuring the purity and safety of drugs. Cleaning methods After a certain period of usage, the titanium rod cartridge may experience partial blockage, resulting in reduced flow performance and increased pressure at the filter's front end. For instance, the pressure may rise from below 0.22MPa to above 0.3MPa. In such cases, it becomes necessary to clean the cartridge, and the following cleaning methods are typically employed: For newly used cartridges, a common cleaning method involves backflushing with clear water and blowing with compressed air. This entails injecting clear water at a slightly higher pressure than the working pressure (e.g., 0.3MPa) to perform a reverse flushing cleaning process. The backwashing duration is typically around 1 to 3 minutes.
Stainless Plate Heat Exchanger: 1. Structural characteristics of stainless steel plate heat exchanger Stainless steel plate heat exchangers are mainly divided into flat plate heat exchangers and plate heat exchangers. The main advantages are reflected in the characteristics of easy disassembly, good cleaning, convenient maintenance, small size and small footprint. There are also many people asking whether to add an insulating layer. The heat loss of the stainless steel plate heat exchanger in the air is 1%, and the insulating layer is basically unnecessary. Second, the characteristics of stainless steel plate heat exchanger plates The stainless steel sheet is mainly formed by one-time stamping. What are the main advantages of doing so? 1. The corrugation depth of each plate is the same to ensure that each contact point can be well connected. 2. The weight of the heat exchanger equipment can be reduced, and a higher heat transfer coefficient can be obtained under the requirement of being able to withstand pressure. 3. There is no excessive punching area on the plate, and no invisible cracks will appear. 4. The thickness of the plate can reach 0.3mm. The plate of the stainless steel plate heat exchanger has a strong pressure bearing capacity, which can prevent the mechanical fatigue caused by the shaking caused by the vibration. Third, the advantages and disadvantages of stainless steel plate heat exchanger The main advantages of stainless steel plate heat exchanger are: 1. Scaling is not easy to occur, because turbulent water can effectively reduce the possibility of scaling. To prolong the working cycle, chemical cleaning methods are generally used for cleaning. It can effectively reduce human, financial and material resources. If you are not familiar with the fouling treatment method of plate heat exchangers, you can poke into this article to browse. 2. Compact structure and small size, can be used in multiple places. And the heat transfer is good, and the equipment is light in weight. 3. The speed of the fluid is uniform, and the material is heated during the period of time without overheating. The main disadvantages of stainless steel plate heat exchangers are: 1. As mentioned above, the thickness of the sheet is thinner and the pressure bearing capacity is lower, especially the contact points formed between the corrugated sheets. With the prolongation of use time, the pressing size will exceed the installation size, which may easily lead to the formation of pressure pits at the contact point, which may lead to perforation and lead to the scrapping of the plate. 2. The space between the plates is narrower and the evaporation time used is shorter. If the hot and cold medium is exchanged between the liquid material and the corrugated plate, if the material is cut off, it will be in a coking state, and the coking material will block the cold material passage and cause damage to the sealing gasket.
Titanium Expanded Mesh 3*6mm Hole 1mm Thickness for Fuel Cell, this product is specially designed for fuel cells. Made of high-quality titanium material, this stretch mesh has excellent corrosion resistance and excellent mechanical properties, providing stable and reliable performance for fuel cell systems. Parameter Material: GR1 titanium Size: 200x200mm Pore size: 3x6mm, 2x3mm or customized Thickness: 1mm, 0.5mm or customized Technique: expanding Features 1. This titanium stretch mesh is made of high-quality titanium material, which has excellent corrosion resistance and excellent mechanical properties. The titanium material itself has the characteristics of low density and high strength, allowing the stretch mesh to maintain stability and durability in long-term use. 2. The moderate hole diameter of 3*6mm can ensure the free flow of gas and liquid in the fuel cell system. This appropriate mesh size helps achieve good gas diffusion and fluid distribution, thereby improving fuel cell efficiency and performance. 3.The thickness of 3.1mm provides this stretch mesh with sufficient strength and structural stability. It is able to withstand the stress and pressure in the fuel cell system while maintaining shape stability and not easily deformed or damaged. This titanium stretch mesh is precision manufactured with an excellent surface finish and meticulous detail. It exhibits high-quality appearance and workmanship while also meeting fuel cell system requirements for material purity and cleanliness. The Application in the Fuel Cell 1.Electrode Support Material: The titanium expanded mesh serves as a reliable support material for fuel cell electrodes, ensuring uniform distribution and strong contact. Its mesh structure enables efficient gas diffusion and electrolyte transport. 2.Flow Field Plate: The mesh is utilized in the flow field plates of fuel cells, facilitating the flow and distribution of fuel gas and oxygen. With its carefully designed hole size and thickness, it promotes effective gas flow and provides structural stability. 3.Catalyst Layer Support: The mesh can be employed as a support material for the oxygen reduction reaction (ORR) catalyst layer. Its high surface area and excellent conductivity enhance catalyst adhesion and electron transfer, improving the efficiency of the ORR.
5um Porous Inconel 600 Metal Filter Element, which is a high-performance metal filter element. The filter element is made of high-quality Inconel 600 (Inconel 600) material, which has excellent filtration efficiency and corrosion resistance. It is designed for filtration and separation operations in a variety of demanding high-temperature and corrosive environments. Whether in chemical, petroleum, food processing or other industrial fields, this metal filter element can exert an excellent filtration effect. Parameter Material: Inconel 600 Pore size: 5um Size: �?50*155, �?60*185 or customized specifications Interface: VCR 1/2 interface Working Temperature: -200 - 1000�°C Technique: sintering Product Features 1.High flow capacity: 5um Porous Inconel 600 Metal Filter Element has excellent fluid handling capacity. Its design allows high flow rates through the filter element while maintaining consistent filtration, ensuring efficient fluid handling and production efficiency. 2.Compression resistance: The high strength and pressure resistance of Inconel 600 material enables 5um Porous Inconel 600 Metal Filter Element to withstand higher pressure. This makes it ideal for handling high pressure fluids while providing reliable filtration and separation performance. 3.Washable and Reusable: 5um Porous Inconel 600 Metal Filter Element can be maintained and reused through the cleaning process. Due to its corrosion resistance and high temperature resistance, the filter element is able to withstand cleaning and regeneration cycles, reducing waste and cost, and extending service life. 4.High Reliability: With the excellent performance of Inconel 600 material, 5um Porous Inconel 600 Metal Filter Element provides a reliable filtration solution. Its stability and durability ensure continuous filtration performance, reducing the risk of failure and downtime, thereby increasing the reliability and stability of industrial processes. 5.Wide range of applications: 5um Porous Inconel 600 Metal Filter Element is suitable for a variety of industries and applications. Whether it is chemical, oil and gas, electric power, food and beverage, or aerospace, the filter element can provide excellent filtration performance and meet the fluid handling requirements of different industries. Application 1.Chemical industry: Used for chemical production, solvent filtration, and handling corrosive media. 2.Oil and gas industry: Applied in oil and gas extraction, refining, and natural gas processing for filtration and separation operations. 3.Power generation sector: Utilized for cooling water filtration in power generation equipment, circulation water system filtration, etc. 4.Food and beverage industry: Employed for liquid filtration in food processing, filtration of food additives, and more.
Pet Food Production Line A pet food production line is a series of machines and processes used to produce high-quality, safe and nutritious pet food. Pet food production line gives pet food novel shape, unique taste and color, scientific nutritional ratio, easy to digest and other characteristics, in order to adapt to the continuous development of the pet food market. There are a variety of flavors and shapes to meet the needs of all kinds of pet food. The pet food production line consists of Hammer Mill, Mixer, Pellet Mill, Extruder, Dryer, Cooler, Coater, Dust Collector, and Bagging Machine. Pet food production line At the heart of a pet food production line is a hammer mill that efficiently pulverizes the ingredients to a fine consistency, ensuring optimal nutrient absorption for our furry friends. The meticulously calibrated mixer then blends high-quality ingredients, including bone meal, meat, protein, vitamins, fiber, and other essential nutrients, to create a wholesome base. The pellet mill and extruder blended the mixture into an assortment of enticing shapes and sizes. Through the power of strong extrusion and instant expansion molding, we produce pet dog food with the perfect texture and consistency, along with delectable cat food and other food pellets. Furthermore, our production line enables us to create specialized aquatic feeds such as floating feed, mackerel feed pellets, goldfish feed pellets, shrimp feed pellets, crab feed pellets, and more. With a versatile range of particle sizes, ranging from 0.9mm to 15mm, we cater to the dietary needs of fish of various sizes. This flexibility allows us to serve a wide spectrum of aquatic farms, feed processing plants, and the pet food industry at large. How is pet food produced? Typical raw materials used in pet food processing include grain flour, vegetable proteins, minerals and vitamins, and in some cases meat or fish meal and fresh meat. The dry material enters the pre-conditioner+ and is steam hydrated. A blender mixes the ingredients and ensures that steam, moisture and ingredients are properly mixed. The preconditioning produces partial pasting of the starch and structure of the polymer. The semi-cooked mixture is then fed to a twin-screw extruder where shear, internal temperature, pressure, moisture and residence time are precisely controlled to achieve optimum starch pasting without loss of food quality. At different stages of processing, liquid or steam can be injected through ports in the barrel of the extruder. Degassing can be carried out at this stage using exhaust packings.
SS 316L Diffuser Stone For Ozone Generator Food Grade is a device used to introduce ozone gas into a liquid or air It is designed to facilitate the efficient distribution of ozone by breaking it into tiny bubbles or droplets These diffuser stones are typically made of porous materials such as ceramic glass or stainless steel One commonly used material for ozone diffuser stones is SS 316L which is a lowcarbon variation of stainless steel grade 316 SS 316L is known for its exceptional corrosion resistance making it suitable for applications where the stone may come into contact with water chemicals or other substances that could cause corrosion Parameter Material 316 L Stainless Steel food grade Shape  Coneshaped Flatshaped Cylindrical Size Customize Size Height Wide OD ID Thickness Pore Size 01m 120m Process sintered Interface form With Install Mounting flange female screw male screw mounting interface Other Integrated Design with 304 Stainless Steel Housing and Air Nozzles Why Choose Porous Sintered Metal Filter to be Ozone Sparger 1 Durability Filters made of sintered metal are extremely robust and weather resistant They can withstand high pressures temperature changes and corrosive environments commonly associated with ozone applications This durability ensures longlasting performance and minimizes the need for frequent replacements 2 Precision Sintered metal filters offer exceptional precision due to their uniform pore size distribution The consistent pore size allows for controlled ozone diffusion ensuring optimal performance every time This precision is crucial for achieving desired results in various ozone applications 3 Efficiency The porous structure of sintered metal filters promotes efficient gasliquid contact essential for effective ozone diffusion The interconnected pores facilitate rapid mass transfer leading to faster and more efficient ozone sparging This enhanced efficiency saves time and resources making processes more productive 4 Maintainability Sintered metal filters are easy to clean and maintain due to their resistance to fouling and clogging They can withstand regular cleaning procedures without compromising their performance This reduces downtime and extends the lifespan of the ozone sparger ensuring costeffective operation over time Applications 1Air sterilization 2Tap water disinfection 3Sewage treatment 4Waste gas treatment 5Flue gas desulfurization and denitrification 6Laundry industry 7Pool industry 8Food and beverage industry
Bronze powder sintered filter elements are created by sintering bronze alloy powder at high temperatures. They exhibit high filtration precision, good air permeability, high mechanical strength, and excellent suitability for high working temperatures and impact resistance. These elements find application in various fields, including pneumatic components, the chemical industry, and environmental protection. TOPTITECH produces porous filter tubes that can be hollow or blind, with a minimum wall thickness of 1 mm. The tubes are made by isostatic compaction of powder in a flexible mold with the negative shape of the part, followed by sintering. The pore sizes can range from 0.2 to 100 microns. These filters find used as filter cartridges or aerators for high flow rates. They can be utilized as tubes straight away or with connectors of different geometry added at the ends. Porous elements of various shapes, structures, different particle sizes, and porosity can be produced according to user requirements. Examples include covers, caps, sheets, tubes, and rod-shaped filter elements. Parameter Filter material: Bronze powder Pore size: 30 microns Porosity: 30%-50% Filter length: 80mm Outer diameter: 50mm Features Efficient filtration: The porous structure of the bronze filter allows for efficient filtration of liquids and gases. High-temperature resistance: The bronze filter can withstand high temperatures, making it suitable for use in high-temperature environments such as the chemical and petrochemical industries. Corrosion resistance: The bronze filter is highly resistant to corrosion, making it ideal for use in corrosive environments such as the marine and oil, and gas industries. Durable: The sintering process used to create the bronze filter results in a durable material that can withstand harsh operating conditions. Applications Fluidized bed: Porous bronze filters are used in fluidized bed reactors to remove impurities and maintain a consistent fluidized bed. Chemical industry: Porous bronze filters are used in the chemical industry to filter and separate chemicals for various applications. Oil and gas industry: Porous bronze filters are used in the oil and gas industry to filter impurities from crude oil and natural gas. Marine industry: Porous bronze filters are used in the marine industry to filter seawater for various applications. Automotive industry: Porous bronze filters are used in the automotive industry to filter oil and fuel for internal combustion engines.
50um Multiple Layers Mesh Cylinder Filter Element is a type of filter element that is made of sintered wire mesh laminated panel. It is designed to remove impurities and debris from fluids or gases that pass through it. The filter element is comparatively simple in processing compared with pleated filter elements and is typically constructed in the form of pipes or cylinders. Parameters Brand: TOPTITECH Material: SS 316L Layers: 5 layers Diameter: 20mm Length: 40mm Pore size: 50um Wall thickness: 12mm Features 1.The scientific framework makes it impossible for filter media to migrate. 2. With a great wide range of operating temperature, it can work safely and permanently under the temperature of -270-400 �°C. 3. As the stable performance of stainless steel material, it won't separate any deleterious substance both in high and low temperature. 4. Due to its strong resistance to corrosion, it won't be harmed by either acidic or alkaline conditions. 5. It can be cleaned very easily. 6. It offers a longer service life. 7. Available filtration rating (�¼m): 2, 5, 10, 20, 40, 75, 100, 150, 200. Application 1.Chemical processing: The Mesh Cylinder Filter is used to remove impurities from chemicals and solvents in chemical processing industries. 2.Oil and gas: The Mesh Cylinder Filter is used to filter natural gas, crude oil, and other petroleum products in the oil and gas industry. 3.Aerospace: The Mesh Cylinder Filter is used in aircraft hydraulic systems, fuel systems, and air conditioning systems. 4.Food and beverage: The Mesh Cylinder Filter is used to filter water, juices, and other liquids in the food and beverage industry. 5.Pharmaceutical: The Mesh Cylinder Filter is used to filter pharmaceutical products, such as vaccines and medications, during the manufacturing process. 6.Automotive: The Mesh Cylinder Filter is used in automotive engines to filter oil and other fluids. 7.Water treatment: The Mesh Cylinder Filter is used in water treatment plants to filter out impurities and debris from water. 8.HVAC: The Mesh Cylinder Filter is used in heating, ventilation, and air conditioning (HVAC) systems to filter air and remove airborne particles.
In bioreactor systems, achieving optimal mass transfer of gases such as oxygen or carbon dioxide can be challenging. This is particularly true for oxygen, which is poorly soluble in water and even less so in cell culture and fermentation broths. While agitation is commonly used to mix nutrients and ensure homogeneity of the cell culture or fermentation, there are limits to agitation speed due to high power consumption and potential damage to organisms resulting from excessive tip speed. Agitation alone is insufficient for achieving adequate mass transfer. However, by incorporating a TOPTITECH porous metal sparger, mass transfer rates can be significantly increased in this type of equipment. Optimal mass transfer rates can be accomplished by introducing gases into stirred or unstirred reactor vessels via millions of small bubbles, which expands the gas-to-liquid contact surfaces. Sintered sparger stainless steel is a specialized material commonly used as a gas diffuser in bioreactor systems. This material is made by sintering stainless steel particles to create a highly porous structure with uniform pore size, allowing for efficient gas distribution in bioreactors. Parameter Pore size: 0.2-100 microns Dia: 5-300mm Length: 10-1000mm Porosity: 30-50% Operating temperature: up to 600�°C Maximum pressure: up to 10 bar Feature: Uniform pore size distribution: The sintering process ensures a uniform pore size distribution, which allows for efficient gas distribution and minimizes pressure drop in bioreactor systems. High mechanical strength: Sintered sparger stainless steel has high mechanical strength and can withstand harsh operating conditions, making it ideal for use in a variety of industrial and scientific applications. Chemical resistance: Stainless steel is highly resistant to corrosion and can withstand exposure to a range of chemicals, making sintered sparger stainless steel an ideal material for use in bioreactor systems. High temperature resistance: Sintered sparger stainless steel can withstand high temperatures up to 600�°C, making it suitable for use in high-temperature bioreactor systems. Typical applications: Pharmaceutical industry: Sintered sparger stainless steel is commonly used as a gas diffuser in bioreactor systems for the production of pharmaceuticals, such as vaccines and biologics. Food and beverage industry: Sintered sparger stainless steel is used as a gas diffuser in bioreactor systems for the fermentation of food and beverage products, such as beer and yogurt. Biofuels industry: Sintered sparger stainless steel is used as a gas diffuser in bioreactor systems for the production of biofuels, such as ethanol and biodiesel. Environmental industry: Sintered sparger stainless steel is used as a gas diffuser in bioreactor systems for the treatment of wastewater and other environmental applications.
30um titanium sintered porous metal filter tube is a type of filter made from titanium that is used to remove impurities or contaminants from a fluid or gas. These tubes are typically cylindrical in shape and have a porous structure that allows the fluid or gas to pass through while trapping any unwanted particles or substances. Titanium is a popular material for filter tubes due to its high strength, corrosion resistance, and biocompatibility. It is commonly used in a variety of industries, including aerospace, medical, and chemical processing. Titanium filter tubes can be customized to meet specific filtration requirements, such as pore size, flow rate, and filtration efficiency. They can also be designed to withstand high temperatures and pressures, making them suitable for use in harsh environments. Parameters Name:30um titanium sintered porous metal filter tube Brand:TOPTITECH Material:titanium powder Process:sintering Filtration precision:30um Size:�?30*80mm Porosity: 35% Features Corrosion resistance: Titanium is highly resistant to corrosion, even in harsh environments, which makes it an ideal material for filter tubes that are exposed to corrosive fluids or gases. High strength-to-weight ratio: Titanium is a lightweight, yet strong material, which makes it ideal for applications where weight and strength are important factors. Temperature resistance: Titanium has a high melting point and can withstand high temperatures, which makes it suitable for use in applications that involve high temperatures or thermal cycling. Customizability: Titanium filter tubes can be customized to meet specific filtration requirements, including pore size, flow rate, and filtration efficiency. This allows for greater flexibility in designing filtration systems that are tailored to specific applications. Applications Aerospace: Titanium filter tubes are used in aircraft and spacecraft applications for hydraulic and fuel systems, as well as for air and gas filtration. Chemical processing: Titanium filter tubes are used in the chemical processing industry for filtration of corrosive fluids and gases, such as acids, alkalis, and solvents. Medical: Titanium filter tubes are used in medical applications for filtration of pharmaceuticals, biologics, and medical gases. They are also used in implantable medical devices, such as pacemakers and artificial joints. Water treatment: Titanium filter tubes are used in water treatment applications for filtration of drinking water, wastewater, and industrial process water. Oil and gas: Titanium filter tubes are used in the oil and gas industry for filtration of oil, gas, and produced water. Food and beverage: Titanium filter tubes are used in the food and beverage industry for filtration of liquids, such as dairy products, juices, and wine.
0.4mm Ti felt from for LGDL in electrolyzer is a versatile material with a wide range of applications in various industries including aerospace, chemical processing and energy. The material sinters titanium fibers together to form a porous structure. The result is a lightweight, high-strength material with unique mechanical and thermal properties. 0.4mm Ti felt from TOPTITECH for LGDL in electrolyzer can be used in hydrogen production and fuel cell stacks as the LGDL (Liquid/Gas Diffusion Layer). Titanium fiber mat is a promising material for electrolyzers due to its high thermal/electrical conductivity and great mechanical qualities. High corrosion resistance at high positive overpotential, for example, even in severely acidic and humid circumstances. Parameter Material: Titanium Size: 1500 1200mm Fiber size: 20 microns-40 microns Thickness: 0.20mm 0.25mm 0.40mm 0.60mm 0.8mm Porosity: 60% 75% Features 1.3D Mesh Porous Structure: 2.Strong corrosion resistance; 3.Best Electrolytic Performance: 4.High porosity and current density; 5.The pore size distribution is uniform. Features 1.3D mesh porous structure. This allows for excellent permeability and efficient electrolyte transport. This unique structure also provides a large surface area for electrochemical reactions to occur, resulting in improved performance. 2.Strong corrosion resistance. This makes it a reliable choice for use in harsh environments. This feature ensures that the product maintains its structural integrity and performance over time, even when exposed to corrosive substances. 3.Best Electrolytic Performance. When it comes to electrolytic performance, this product is a top performer. Its design allows for high porosity and current density, meaning that it can efficiently transfer electrical charge between the electrodes and the electrolyte. This results in improved energy conversion and overall system efficiency. 4.Uniform pore size distribution. This feature ensures that the electrolyte can flow evenly throughout the structure, providing consistent performance and minimizing the risk of localized damage or failure. Craft The process is to make titanium wire into micron-scale fiber through special process. The porous material is then made by laying down and sintering titanium fibers. The unique three-dimensional fiber network and fully connected pore structure will endow it with a series of special functions.
Most Muti-layer Stainless Steel Sintered Mesh Filter Element, including conventional and pleated types, are constructed of premium stainless steel. The pleated type sintered mesh filter cartridge has a greater filtering surface than the conventional type, and both have strong mechanical strength and pressure tolerance. They resist corrosion and are simple to clean. Sintered mesh filter cartridges are used in the liquid and gas filtration, chemical fiber filtration, polyester, and water treatment sectors because of their great resilience and long service life. The protective layer, filter layer, and support layer make up the Muti-layer Stainless Steel Sintered Mesh Filter Element. The multi-layer sintered laminates contain the fine woven wire mesh (the filter layer). The laminates shield the fine mesh from mechanical harm caused by pressure from the outside environment. The mechanical strength, stability, and longevity of the three, four, and five layers make them attractive. Parameter Material: stainless steel 304, 304L, 316, 316L Length: 10-1500mm Diameter: 10-80mm Wall thickness: 10-50mm Filtration accuracy: 0.2-300um Layers: Single, 2 to 3, 5-layer & 6-layer or customized Porosity: 35%-80% Service temperature: -200 C to 1000 C Features: 1.) Better mechanical properties; 2.) Good stable pore size; 3.) Easy cleaning, reusable and durable; 4.) Stable pore shapes for perfect permeability; 5.) Reliable quality, big particles filtration; 6.) Attractive surface; 7.) Excellent anti-acid, anti-alkahi, resist-temperature, resist-wearing; resist-recycling; Application 1.) Oil & Gas production 2.) Water treatment; 3.) Food and beverage; Â 4.) Pharmacy; Â 5.) Chemical industry; 6.) Polymer filtration; Â 7.) Refine; Â 8.) Energy & nuclear. Process Description Through a number of technological procedures, sintered wire mesh is created. To achieve adequate contact at wire mesh intersections, precision woven wire mesh is evenly calendered.Then, under mechanical pressure in unique fixtures inside a hot furnace, one or more layers of this calendered web are laminated. The furnace is heated to the sintering temperature while being surrounded by a special environment of inert gas.The individual wires and each layer of wire have been bonded together after being carefully cooled, making the mesh solid. Compared to ceramics and sintered metal powder/particles, it has more favorable overall characteristics. Sintered mesh filters are very durable. The filter element, which is simple to maintain and has a long lifespan, can be created without the need for internal assistance.
Sodium carbonate is one of the important chemical raw materials, widely used in light industrial daily chemical, building materials, chemical industry, food industry, metallurgy, textile, petroleum, national defense, medicine and other fields, as raw materials for the manufacture of other chemicals, cleaning agents, detergents, also used in photography and analysis fields. It is followed by metallurgy, textiles, petroleum, national defense, medicine and other industries. The glass industry is the largest consumer of soda ash, consuming 0.2 tons per ton of glass. In the industrial soda, mainly light industry, building materials, chemical industry, accounting for about 2/3, followed by metallurgy, textile, petroleum, national defense, medicine and other industries. 1. The glass industry is the largest source of soda ash consumption, with 0.2t of soda ash consumed per ton of glass. Mainly used for float glass, picture tube glass, optical glass and so on. 2, used in chemical industry, metallurgy, etc. The use of heavy soda ash can reduce alkali dust flying, reduce raw material consumption, improve working conditions, but also can improve the quality of products, while reducing alkali powder on refractory erosion action, prolong the service life of the kiln. 3, as buffer, neutralizer and dough improver, can be used in pastry and noodle food, according to the production needs of appropriate use. 4, as detergent for wool rinsing, bath salt and medical use, tanning alkali agent in leather. 5, used in the food industry, as a neutralizer, leavening agent, such as the manufacture of amino acids, soy sauce and noodle food such as steamed bread, bread, etc. It can also be mixed into alkali water and added to pasta to increase elasticity and ductility. Sodium carbonate can also be used to produce monosodium glutamate 6, color TV special reagent 7, used in pharmaceutical industry, as acid antidote, osmotic laxative. 8, used for chemical and electrochemical oil removal, chemical plating of copper, aluminum etching, aluminum and alloy electrolytic polishing, aluminum chemical oxidation, phosphating after sealing, process rust prevention, electrolytic removal of chromium coating and chromium removal of oxide film, also used for pre-plating copper, plating steel, plating steel alloy electrolyte 9, metallurgical industry used as smelting flux, flotation agent with beneficiation, steel and antimony smelting used as desulfurizer. 10, printing and dyeing industry used as water softener. 11, leather industry is used for degreasing raw skin, neutralizing chrome tanning and improving the alkalinity of chrome tanning liquid. 12. The reference of acid in quantitative analysis. Determination of aluminum, sulfur, copper, lead and zinc. Urine and whole blood glucose were tested. The cosolvent of silica in cement was analyzed. Metallographic analysis, etc.
The multi-layer metal sintered mesh filter element is made of metal meshes with different wire diameters and meshes sorted in a certain order and sintered at high temperature. It has higher strength than stainless steel fiber felt, better permeability than metal powder products, uniform pore size distribution, good permeability, high strength, strong corrosion resistance, high temperature resistance, weldable, renewable, long life, easy to clean and not easy to break. Product parameters Material: stainless steel 304 or 316L; Size: 1000mmx500mm, 1200mmx600mm, 1000mmx1000mm (customizable); Filtration accuracy: 2um-300um; Classification: single-layer, double-layer, three-layer, five-layer, seven-layer and multi-layer metal Note: Special specifications can be customized according to the requirements of the buyer. Features 1.High strength and durability: This feature is achieved through high temperature sintering, which is a process of sintering material through heat and pressure without melting it. The high temperature sintering process enables the material to have a high level of strength and durability, making it resistant to wear and tear. 2.Anti-corrosion and heat resistance: This material can withstand high temperatures up to 600 C and is resistant to corrosion, which makes it ideal for use in harsh environments. 3.Steady filter rating: This material has a steady filter rating that ranges from 2 micron to 300 microns. This means that it can effectively filter out particles of different sizes, making it suitable for a wide range of applications. 4.Filter mesh not easy to deform: The filter mesh is protected by two layers, which makes it difficult to deform. This feature ensures that the filter mesh maintains its shape and continues to function effectively even under high pressure or high viscosity environments. 5.Versatile in manufacturing processes: This material can be cut, bent, punched, stretched, and welded, making it versatile in manufacturing processes. It can be easily customized to fit different shapes and sizes, making it suitable for a wide range of applications. Application aspects and industries Metal meshes of various wire sizes are sorted in a specific sequence, sintered at high temperatures, and used to create the multi-layer metal sintered mesh filter element. It is stronger than stainless steel fiber felt, more permeable than metal powder goods, evenly distributed pore size, strong corrosion resistance, high temperature resistance, weldable, renewable, long-lasting, simple to maintain, and difficult to break. Multi-layer metal sintered mesh filter elements have many applications in the filtration of high-temperature and high-pressure media (liquid-solid separation, gas-solid separation), including oil sand separation in oil fields, high temperature gas dust removal, beverage filtration, oil filtration, and water treatment.
Sintered metal flame arresters are designed to prevent the propagation of flames in gas or vapor handling systems. They are typically composed of a cylindrical housing with a sintered metal element inside. The element is made up of multiple layers of metal powder that are compressed and sintered (heated without melting) to form a porous material with precise pore sizes and distribution. Product parameters Material: stainless steel 304/316L Pore size: 0.2um, 0.5um, 2um, 5um, 10um, 15um, 20um, 40um, 60um, 90um, 100um Technology: Powder Sintering Temperature range: below 600 C Style: customized according to customer needs Features Effective flame arrestation: The porous material of the sintered metal element acts as a filter, allowing gas or vapor to pass through while trapping any flames or sparks. This helps to prevent the risk of fire or explosion in industrial settings where flammable gases or vapors are present. Precise flow control: The pore size and distribution of the sintered metal element can be tailored to control the velocity and direction of gas or vapor flow. This allows for precise flow control, which is important in many industrial applications. Durable and long-lasting: Sintered metal flame arresters are made from high-quality materials that are designed to withstand harsh industrial environments. They are typically very durable and long-lasting, providing reliable flame arrestation for many years. Low maintenance: Sintered metal flame arresters require minimal maintenance, making them a cost-effective solution for many industrial applications. Regular inspections and cleaning can help ensure that the porous element remains free of debris and in good working condition. Application Oil storage tanks are commonly used to store crude oil, refined petroleum products, and other flammable liquids. In order to prevent the risk of fire or explosion, flame arresters are often installed on the vents of these tanks. When the tank is filled or emptied, a mixture of air and flammable vapors is released through the vent. If a flame were to ignite this mixture, it could cause a catastrophic explosion. However, by installing a flame arrester on the vent, the flammable vapors are filtered through the sintered metal element, preventing any flames or sparks from passing through. In addition to storage tanks, sintered metal flame arresters are also commonly used in pipelines that transport crude oil, refined petroleum products, and other flammable gases or vapors. They can be installed at various points along the pipeline to prevent the propagation of flames in the event of a fire or explosion.
Stainless steel pleated filters cartridge is a type of filter element that is made from stainless steel and designed with a pleated structure. The pleats increase the surface area of the filter, which provides more capacity for capturing contaminants. Stainless steel pleated filter cartridge is known for their high strength, durability, and resistance to heat and corrosion. They are commonly used in industrial applications where high-performance filters are required for filtering fluids and gases. parameters Material:stainless steel304, 304L, 304HC, 316, 316L, 321, 430 or as per you request. Filter rating 1-300 microns Flow rate: 80-200l/min Working pressure:1.5 bar-250 bar Working medium:The common polymer industrial, included rubber, plastic, liquid emulsion,etc. Working temperature: 600 Features 1.High Strength Against High Differential Pressures: These filters can withstand high differential pressures without loss of their filtration efficiency or structural integrity. 2.Large Surface and Filtration Area: The pleated design of these filters results in more pleats in the stainless steel filter, which means a larger surface and filtration area. This provides a greater ability to capture contaminants. 3.Washable and Reusable: The stainless steel filter element is washable and reusable, which prolongs its service life and reduces the frequency of filter replacement. This saves money and reduces waste. 4.Excellent Heat and Corrosion Resistance: These filters are highly resistant to heat and corrosion, making them suitable for use in harsh environments where other filters may fail. Applications Oil and gas production: are used in the oil and gas industry to filter out contaminants from crude oil, natural gas, and other fluids. Chemical processing: These filters are used in chemical processing to remove impurities from chemicals and solvents. Water treatment: are used in water treatment plants to remove sediment, debris, and other contaminants from the water supply. Food and beverage production: These filters are used in the food and beverage industry to filter out impurities and ensure product quality. Pharmaceutical production: are used in the pharmaceutical industry to filter out contaminants and ensure product purity. Automotive and aerospace industries: These filters are used in the automotive and aerospace industries to filter out contaminants from hydraulic fluid, lubricating oil, and other fluids used in machinery. Industrial air filtration: are used for industrial air filtration to remove dust, smoke, and other airborne contaminants from the air.