Sintered Metal Flame Arresters

Product Introduction Sintered metal flame arresters are designed to prevent the propagation of flames in gas or vapor handling systems. They are typically composed of 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. When a flammable gas or vapor mixture passes through the flame arrester, the element acts as a filter, allowing the gas or vapor to flow through while trapping any flames or sparks. The porous material of the element also provides a large surface area for heat dissipation, making it difficult for any trapped flames to ignite the surrounding atmosphere. 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 arrest 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.

A flame arrester (also spelled arrestor), deflagration arrester, or flame trap is a device that stops fuel combustion by extinguishing the flame. A flame arrester (also called a deflagration arrester) functions by absorbing the heat from a flame front traveling at sub-sonic velocities, thus dropping the burning gas/air mixture below its auto-ignition temperature: consequently, the flame cannot survive. The heat is absorbed through channels (passages) designed into an element. These channels are chosen and measured as the MESG (Maximum Experimental Safe Gap) of the gas for a particular installation. These passages can be regular, like crimped metal ribbon or wire mesh or a sheet metal plate with punched holes, or irregular, such as those in random packing. Principle Flame arresters are passive devices with no moving parts. They prevent the propagation of flame from the exposed side of the unit to the protected side by the use of metal matrix creating a torturous path called a flame cell or element. All detonation flame arresters operate on the same principle: removing heat from the flame as it attempts to travel through narrow passages with walls of metal or other heat-conductive material, but unlike flame arresters, detonation flame arresters must be built to withstand extreme pressures that travel at supersonic velocities, 1,500 psi (10 MPa) at 2500 m/s is not uncommon with a group D Gas.

Key specifications/special features for surge arrester: System nominal voltage(kv): 33 Type code of moa: yh10w-30/90 System highest voltage(kv): 36 Rated voltage of arresters(ur)(kv): 30 Continuous operationg voltage(ur)(kv): 24 Nominal discharge current(in)(kv): 10 High current 4/10 impulse withstand(ka): 100 2ms rectangular current(a): 250 Steep current impulse residual voltage(kv): 99 Lightning impulse residual voltage(kv) 5ka: 85 10ka: 90 20ka: 101 Switching current impulse residual voltage(kv): 69 Lind discharge class: i Pressure relief class: b, 20 Insulation impulse withstand voltage(kv): 170 Power frequency withstand voltage(kv): 95 Max. External riv(v):

A metal oxide arrester (MOA) is an electrical device that is designed to protect electrical systems and equipment from surges caused by lightning, switching operations, and other sources of overvoltage. The MOA technology utilizes a metal oxide varistor (MOV) element that provides low impedance paths for high voltage surges, thereby diverting the excess energy to the ground. YF POWER is a leading metal oxide surge arrester suppliers and metal oxide surge arrester manufacturers, recognized for their reliability, durability, and performance. YF POWER's MOA products provide superior protection against lightning and overvoltage surges, making them the ideal choice for use in power distribution systems, substations, wind turbines, and many other applications. YF POWER's MOA products are designed to meet international standards and undergo rigorous testing to ensure high performance and long service life. YF POWER's MOA technology features a robust construction that withstands harsh environmental conditions and provides years of reliable protection. YF POWER offers a range of MOA products, including station-class MOA, intermediate-class MOA, distribution-class MOA, and many more, to meet the diverse needs of customers. YF POWER's commitment to excellence has made it a trusted partner to customers across the globe. Advantages of Metal Oxide Arresters Metal oxide varistor surge arrester offer several advantages over other surge protection devices, including: High Energy Handling Capability: gapless metal oxide surge arrester can handle high energy surges, making them suitable for a wide range of applications, including high voltage and extra high voltage power systems. Fast Response Time: metal oxide type lightning arrester have a faster response time than other technologies, providing immediate protection against overvoltage surges. Low Voltage Protection: Metal oxide arresters can provide low voltage protection, making them suitable for electronic equipment, such as computers and televisions. Long Service Life: Metal oxide arresters have a long service life, which reduces the need for maintenance and replacement. Environmental Resistance: Metal oxide arresters are resistant to harsh environmental conditions, making them suitable for use in various industries, including wind power and oil and gas. Overall, the advantages of metal oxide arresters make them a reliable and effective option for surge protection in a variety of applications. For more information about what material is used in metal oxide arrester and overhead power line hardware, please feel free to contact us!

Metal oxide varistor is the core of the arrester, which main component is zinc oxide and with a small quantity of bismuth oxide, fluoride oxide, manganous carbonate, antimony oxide and other gleam of additive and made with high temperature. Compared with traditional carborundun, mov(metal oxide varistor)has greatly mended voltage current characteristic and improved through-current capability, thereby to line up protection. Standard.

Surge arrester scope of application AC gapless metal oxide surge arresters are used to protect the insulation of AC power transmission and transformation equipment from lightning overvoltage and operating overvoltage damage. It is suitable for over-voltage protection of transformers, power transmission lines, power distribution panels, switch cabinets, power metering boxes, vacuum switches, parallel compensation capacitors, rotating electrical machines and semiconductor devices. Taporel Electrical Insulation Technology Co., Ltd. is a great company that can provide you with Great Surge Arrester. Surge arresterâ??s Features and principles The AC gapless metal oxide arrester has excellent nonlinear volt-ampere characteristics, good response characteristics, no freewheeling, large current capacity, low residual voltage, strong suppression of overvoltage, pollution resistance, anti-aging, and no altitude constraints. Simple structure, no gap, tight sealing, long life and other characteristics.

Summary The Arrester is suitable for testing the internal defects of 10KV and below 10KV MOA (metal Oxide Arrester).Before the annual season of thunderstormsit 's necessary to test metal Oxide using 1mA DC voltage and 0.75U1mA leakage current at Power plants/substations.The equipment was developped according to the requirement of site it 's integrated with DC HV supplymeasurement and control system. it has the characters of small size and light weight. Feature 1.Supply power: AC220V or Charging battery. 2.LCD display test datas. 3.Convenient to carry.

Product Introduction Stainless steel porous flame arrestors are commonly used in a wide range of industries to prevent the propagation of flames and explosions in systems that handle flammable gases or fluids. They are highly effective at trapping or extinguishing flames while allowing for the efficient flow of gases or fluids. Stainless steel is a popular material due to its high strength, corrosion resistance, and ability to withstand high temperatures. The stainless steel porous filter element is the key component of the flame arrestor and is designed to trap or extinguish any flames that may be present in a gas or vapor stream while allowing gases or fluids to flow through. When a gas or vapor mixture passes through the porous filter, any flames present will be cooled and extinguished due to the heat dissipation and surface area of the filter. This prevents the flame from propagating further down the pipeline or vessel and causing a fire or explosion. The porous filter also provides a large surface area for vapor or gas to pass through, allowing for efficient flow and minimal pressure drop. Stainless steel is a popular material for flame arrestor filters due to its high strength, corrosion resistance, and ability to withstand high temperatures. Parameters Place of originï¼? Baoji, China Brandï¼? TOPTITECH Filtration precision:0.2um-100um(5um, 10um, 20um, 40um and 100um are popular choice) Material SS 316L, SS304 Working temperature 600 Length: 50-1000mm(More than 1000mm can be welded) Diameter: 4-500mm Wall Thickness: 1-5mm Features High temperature resistance: Stainless steel filter flame arrestors are designed to withstand high temperatures, making them suitable for use in applications where high-temperature gases or fluids are present. Corrosion resistance: Stainless steel is highly resistant to corrosion, making it ideal for use in harsh environments where corrosive gases or fluids are present. Precise gas flow control: Porous stainless steel filters provide precise control over gas flow, allowing for efficient operation of the system. Mechanical quenching of flame fronts: The porous filter element of the flame arrestor mechanically quenches flame fronts, preventing them from propagating further down the pipeline or vessel. High strength and durability: Stainless steel is a strong and durable material that can withstand the high pressures and stresses present in many industrial applications.

I. Use AC gapless metal oxide arrester (hereinafter referred to as arrester) is used to protect AC electrical equipment of corresponding voltage level from lightning overvoltage and operating overvoltage damage. Product Implementation Standard: GB11032 - 2010 "AC electrical equipment arrester". II. Conditions of Use 1.It is suitable for indoor and outdoor use. 2.Ambient temperature (-40 +40) C;O 3.The maximum solar radiation intensity is 1.1kW/m.2 4.The altitude does not exceed 2000 m. 5.The rated frequency of AC system is (48-62) Hz. 6.The power frequency voltage applied between the arrester terminals for a long time should not exceed the continuous operating voltage of the arrester. 7Earthquake intensity 8 degrees and below; 8.The maximum wind speed does not exceed 35m/s. III. Structure and Characteristics This kind of arrester is assembled by superposition of non-linear zinc oxide resistors and sealed in high voltage insulating ceramic sleeve without any discharge gap.Under normal operating voltage, the arrester is insulated with high resistance; when it is impacted by overvoltage, the arrester is in low resistance state, releasing impulse current into the ground quickly, so that the voltage on the electrical equipment parallel to it is limited to the prescribed value, so as to ensure the safe operation of the electrical equipment.The arrester is equipped with a detachment device. When the arrester operates under overload or suffers accidental damage, the internal pressure increases sharply, so that the arrester can be detached from the device to ensure that the ceramic sleeve is not damaged.The arrester has the characteristics of good steep wave response, high shock current tolerance, low residual voltage, reliable operation, no power frequency continuous current, simple maintenance and so on.