Pressurized liquid nitrogen container is a device for storing and replenishing liquid nitrogen. It is made of stainless steel and can generate pressure inside to achieve continuous discharge to achieve the purpose of replenishment. It is widely used in animal husbandry, medicine, low-temperature chemical industry, aerospace and other fields. Today, I will introduce to you the many advantages and characteristics of liquid nitrogen supply tanks. 1. Efficient liquid supply: The self-pressurized liquid nitrogen tank has the uninterrupted nature of continuous pressurization and continuous discharge, which makes the liquid supply more efficient and greatly improves work efficiency. 2. High safety performance: Equipped with double safety automatic valves and ultra-low temperature stop valves, it has double safety protection measures to ensure the safety of product use. 3. Economical and affordable: It adopts high-efficiency vacuum insulation technology, has a very low static evaporation loss rate, saves liquid nitrogen consumption, and makes the cost lower. 4. High-quality materials: Made of 304 low-temperature resistant stainless steel, all welds have passed strict leak detection to ensure the quality and durability of the product. 5. Versatility: It can be equipped with a liquid level meter, a low-temperature regulator, and a low-temperature solenoid valve to achieve fully automatic liquid replenishment function, and can also realize remote signal transmission. 6. Convenient to move: It is equipped with high-load-bearing mobile casters and 4 independent brakes. The casters are made of high-grade rubber and are quiet and stable when moving. The ln2 supply tank is reasonably designed, simple to operate, and equipped with an intelligent control system, which increases the safety of laboratory work. It can store a large amount of liquid nitrogen to meet the needs of different places such as laboratories, hospitals, and scientific research institutions.
We can supply tanks and vessels required for storage and transportation tanks of various liquids and gases like LPG, PROPANE, PROPYLENE, AMMONIA, LIQUIDCARBONDIOXIDE, CHLORINE , HYDROGEN, NITROGEN, OXYGEN, ARGON, SULPHUR DIOXIDE, BUTADINE, ETHYLENE OXIDE AND OTHER GASES , in a wide range of various capacities for use in domestic, industrial and transportation sectors. The manufacturing of these tanks requires special expertise , technology and strict quality control measures. These tanks are manufactured confirming to various design standards like ASME SECT VIII DIV I & II, AD- MERKBLATTER, PD5500, IS2825 and under the stagewise inspection of various third party inspection agencies like DNV, BVIS, TUV, LLOYDS ,PDIL and others. We also supply a wide range of Process Plant Equipments such as Coded Pressure Vessels, Distillation Columns, Towers, Reactors and Heat Exchangers. Also we undertake turnkey projects to construct Fixed & Floating Roof Tanks, Mounded Storage Tanks and Plant Piping.
Urea, or Carbamide (NH2COONH4), is a synthetic nitrogen-rich fertilizer with a 46-0-0 NPK ratio, essential for crop nutrition. Manufactured from anhydrous ammonia, it's known for its high solubility, neutrality, and low toxicity, making it ideal for agricultural use. Produced via a high-pressure reaction between ammonia and carbon dioxide, urea is both cost-effective and widely used in the agriculture and chemical industries. It breaks down in soil to nourish plants effectively. Safety Note: Handle with care to avoid skin and eye irritation or respiratory issues. Urea is generally safe but can produce toxic vapors when heated excessively.
Urea is a white crystalline substance with the chemical formula CO(NH2)2; it is highly water soluble and contains 46% nitrogen. Urea is considered an organic compound because it contains carbon. It was the first organic compound every synthesized by chemists; this was accomplished in the early 1800s by German chemists. Urea is made by reacting carbon dioxide (CO2) with anhydrous ammonia (NH3) under 3,000 psi pressures and at 350 degrees F. 46% nitrogen granulated Capacity - 5060 ton/day Urea has a number of advantages over other nitrogen fertilizers. Urea is safe to ship and handle, it is less corrosive to equipment, it has a higher analysis than any other dry nitrogen fertilizer and it can beused on virtually all crops. Urea can be stored and distributed through conventional systems. It can be applied in many different ways from sophisticated aerial application equipment to a farm spreading urea by hand. Urea is also highly water soluble so it moves readily into the soil. The high analysis means a reduced transportation and application cost per pound of nitrogen. TRANSPORTATION BULK The easier and less expensive way of shipping Urea is using Bulk Shipments. TANK Anhydrous Ammonia needs special tanks to be transported.
V7 Borewell Submersible Pumpset Falcon Premium 175 mm (7) Borewell Submersible pumpsets are powered by water filled, rewindable submersible motor suitable for continuous duty. The stator is wound with special water proof synthetic film insulated copper winding wires and made up of low watt loss silicon steel laminations assembled under pressure and rigidly locked in stainless steel stator shell. Pump Liquids - Clean - Thin - Non-Aggressive - Non-Explosive - Clear - Cold - Fresh water - Without abrasives - Solid particles. Salient Features - Cast iron casting bowl and SS-410 grade impeller in mix flow series - Specially designed high performance thrust bearing (SS-420 Tilting Pad with Carbon plate) to with stand axial thrust loads. - Specially designed Deep Drawn type pump ensures perfect alignment and Thereby increases the life of the pump set - Dynamically balanced rotating parts ensures minimum vibration and longer life - Motor portion covered with corrosive resistance Stainless steel J4 shell - More durability and hygiene - High operating efficiency - Special designed thrust bearing to withstand high axial thrust load - Extremely hardwearing water lubricated bearing - Thread type motor construction ensures services feasibility - Designed for wide voltage operation - Best alternative for JET & Compressor pump set - Additional intermediate bearing in higher stage pumps Specification - Method of Starting : 3 ph -Direct Online (D.O.L) upto 5.5 kW, Star Delta (SD) upto 37.3 kW - Power Range : 11.2 kW to 37.3 kW (15 HP to 50 HP) - Version : Three Phase 350 to 415V, 50Hz AC Supply - Speed : 2880 RPM - Head Range : 18 Mtr. To 650 Mtr. - Discharge Range : 1860 LPM to 55 LPM - Outlet Size in Inch : 2.0 , 2.5 , 3.0 & 4.0 - Degree of Protection : IP 58 - Direction of Rotation : Electrically Reversible -3ph - Thrust Load : 11.2 kW -37.3 kW -8000 lbs - Minimum Cooling Flow Along the Motor : 0.15 m/sec. - Type of Duty : S1 (Continuous) - Maximum Starts Per Hour : 20 Times Characteristics Of Clear Cold Water - Maximum liquid temperature : 33C max - Permissible amount of sand : 25 g/m - Allowable solids : 3000 ppm (max.) - Chloride ion density : 500 ppm (max.) - Turbidity : 50 ppm silica scale (max.) - Hardness (Drinking Water) : 300 ppm (max.) - Specific gravity : 1.004 (max.) 6 - Viscosity : 6 1.75 x 10 m/sec (max.) - Ph Value : 6.5 to 8.5
Most of the liquid nitrogen tanks used in laboratories are relatively large in volume and size. It is difficult to lift them manually and pour liquid nitrogen into the liquid nitrogen tank, and it is also easy to cause frostbite. Therefore, the self-pressurizing liquid nitrogen tank has become a good helper for rehydration of laboratory liquid nitrogen tanks, solving the rehydration problem of laboratory users. However, many users do not understand how to operate a self-pressurized liquid nitrogen tank. Today I will explain it in detail. 1. Pressure replenishment sequence: close the vent valve, open the boost valve, and open the liquid outlet valve The self-pressurizing liquid nitrogen tank needs to be pressurized first, and the vent valve must be closed first to pressurize the liquid; then open the pressurizing valve to allow the nitrogen in the pressurizing tube to enter the inner tank, and then start the exchange cycle of nitrogen and liquid nitrogen. Until the pressure increases to â?¥0.05MPa. After the infusion is completed, first stop the pressurization, then stop draining the liquid nitrogen, and then open the pressure relief exhaust valve, that is, the vent valve. 2. Let it stand for storage and open the vent valve. The function of the vent valve is not only to relieve pressure and discharge residual liquid nitrogen, but also to prevent external heat and humid air from entering the pipeline and inner tank. When the self-pressurized liquid nitrogen tank is stored statically, although there is no pressure, the liquid nitrogen naturally volatilizes, and a gas outlet is needed to release the nitrogen. The vent valve just acts as this "gas outlet". There is also the previously mentioned infusion to complete the pressure relief to avoid the entry of external air, etc. 3. The pressure should not be close to 0.09MPa The self-pressurizing liquid nitrogen tank complies with the national standard GB/T 14774-2012. It is a self-pressurizing liquid nitrogen container and the pressure must not exceed 0.1MPa. For the safety of users, most manufacturers set the pressure at no more than 0.09MPa and strive to be safe. If the pressure = 0.09MPa, the self-pressurizing liquid nitrogen tank will automatically open the safety valve to release pressure to avoid dangerous incidents. In addition, during normal use, the temperature difference between the inside and outside of the container is large, and the thermal equilibrium time is longer when adding liquid nitrogen. Use liquid nitrogen in advance to pre-cool it, and then add it gradually and slowly to prevent ice blockage! If you have any needs, please contact KGSQ liquid nitrogen tank: Email: tcln2container@126.com WhatsApp: +8618903712477 Official website: https://www.cryogenicstoragetank.com/YDZ-Series-Liquid-Nitrogen-Supply-Tank.html
Description by Manufacturer ENGINE Engine Type V6 Bore x Stroke 3.63 x 3.00 in. (921 x 762 mm) Displacement 186 CID (3,046 cc) DIMENSIONS Shaft Length 25 in. (635 mm) Weight 528 lb. (240 kg) GENERAL Propshaft Horsepower 175 HP (131 kW) Full Throttle Operating Range 5000-6000 RPM Gear Ratio / Shift F-N-R Cooling Water-cooled with thermostat & pressure-controlled The Mercury Diesel Outboard is a diesel two-stroke designed for light duty commercial patrol boat applications. The EPA certified engine joins the U.S. Department of Defense spec diesel outboard Mercury Marine released in May 2015. The Mercury Diesel Outboard features exclusive spark ignition, direct fuel injected 2-stroke technology which enables it to run on readily available ultra-low sulfur diesel fuel. SPECIFICATIONS HP: 175 HP (131 kW) Engine type: V6 Displacement: 186 CID (3,046 cc) Displacement: 3.0 L Full throttle: 5000-6000 RPM Shaft length: 25 in. (635 mm) Gearcase ratio: 2.08:1 Dry weight *Lightest model available: 528 lbs (240 kg) Bore and stroke: 3.63 x 3.00 in (921 x 762 mm) Fuel system: 2-stage Direct Fuel Injection (DFI) Cooling system: Water-cooled with thermostat & pressure-controlled Gear shift: F-N-R Exhaust system: Through prop KEY FEATURES Available with a 25â?? (635 mm) center section and the 2:1 Fleet Master gearcase in both right-hand and left-hand rotation. Industry-exclusive spark ignition diesel engine. Glow plug ensures consistent, reliable cold starting. Commercial patrol boat models meet EPA emissions standards. Cylinder heads designed specifically for combusting diesel fuel. High performance cylinder liners for maximum horsepower and optimal engine running quality. Fuel/air mixture is injected into the combustion chamber at 95 psi for enhanced high rpm running quality.
Honeywell's Solstice zd (R-1233zd) is an innovative refrigerant designed as a non-flammable, ultra-low Global Warming Potential (GWP) alternative to R-123. It offers significant environmental benefits with a GWP of 1, making it 99.9% lower than R-245fa. This refrigerant is particularly suitable for low-pressure centrifugal chillers and applications such as Organic Rankine cycle (ORC) and high-temperature heat pumps. Key Features: Non-flammable: Ensures safety in various applications. Ultra-low GWP: Significantly reduces the environmental impact compared to traditional refrigerants. Versatile Applications: Ideal for HVAC systems and advanced energy systems. Related Products: We also offer a range of other Solstice products, including: SOLSTICE yf (R-1234yf) SOLSTICE ze (R-1234ze) SOLSTICE L-40X (R455A) SOLSTICE L-41z (R477B) SOLSTICE N-40 (R488A) Packing specification: 22.7kg / 100kg / 1000kg / tank truck
What is Solar Water Pump : It's a Cost-effective, Reliable and Green solution for providing Water to remote locations where Electrical Supply is not available. It works by converting available solar energy to electrical energy and there by running motors coupled with pumps with that to lift underground water / to pump from sources like Underground water tanks ,Rivers and Lakes. Description : We deal with Solar pumps of various types ranging from 3 H.P. to 20 H.P. capacities Solar PV Cells / Modules are generally installed along with Water pump , Pump Controller / Drive (VFD) forms the whole system Remote operation through mobile application is also available Solar Modules can also be used to cover underground water tanks so that water temperature will also be maintained Types of Solar Water Pumps : Based on Function : Submersible Solar Pumps : These are designed to operate underwater They are used to Pump water from undergrounds/wells / underground water tanks Surface Solar Pumps : These are designed to operate on/ from the surface level of water These are generally used to pump water from shallow wells/rivers / lakes Based on type of Electrical Supply : AC Solar Pumps: These are designed to operate on AC (Alternating Current ) instead of DC (Direct Current ) These are generally used in applications where high flow rate and high-pressure output are required DC Solar Pumps: These are designed to operate on DC (Direct Current) These are generally used in applications where low flow rate and low-pressure output are required Applications : Agriculture Domestic Water Supply Community Water Supply Livestock Management Swimming Pools Hotels Fountains & Waterfalls Chiller Plants Ice Plants Concrete / Batching Plants Food Processing Plants Warranty Terms: Solar Modules come with a warranty of 15 years and an efficiency guarantee of 25 years Pumps and controllers warranty varies from 2-5 years based on the type and capacity of pumps
Product Name: Refrigerant Gas R152A Key Specifications: Purity: 99.9% Package Options: Available in canisters, disposable and refillable cylinders, ton cylinders, and ISO tanks Customization Options: OEM services available, including custom handles, valves, membranes, and weight specifications Category: Hydrofluorocarbon (HFC) Tags: AC, cooling, cryogen, gas, R152A, refrigerant, refrigeration, refrigerator R152A Specifications: Class: 2.1 (Flammable gas) Global Warming Potential (GWP): 124 (low environmental impact compared to other refrigerants) Ozone Depletion Potential (ODP): 0 Packaging Quantities: Disposable Cylinders: 1150 units without pallets / 900 units with pallets Refillable Cylinders: 800 units with pallets / 1034 units without pallets R152A Applications: R152A (1,1-Difluoroethane) is a versatile refrigerant with a low GWP of just 124, making it a more environmentally friendly option compared to traditional refrigerants like R134a. While it shares similar operating pressures and volumetric cooling capacity (VCC) with R134a, it is favored in certain applications due to its lower environmental impact. Refrigeration Systems: Suitable for large chillers and specialized systems like heat pipe finned heat exchangers, R152A offers high cooling efficiency in medium and large-scale operations. Aerosol Propellant: R152A is also commonly used in gas dusters and various retail aerosol products due to its compliance with strict volatile organic compound (VOC) requirements. Heat Pump Systems: An excellent alternative to R134a in systems requiring lower GWP refrigerants, without sacrificing performance. Despite its flammability, R152A remains a viable alternative to higher GWP refrigerants, offering a balance of performance and environmental safety. Packaging and Shipping: Available in a range of packaging formats, including canisters and ISO tanks. We provide flexible packaging solutions to meet your specific needs. Why Choose Us? We offer top-grade R152A refrigerant with high purity, competitive pricing, and reliable delivery. Our product ensures both efficiency and environmental compliance, making it the ideal choice for a wide range of applications.
Product Name: Refrigerant Gas R600a (Isobutane) Key Specifications: Purity: 99.5% Molecular Formula: (CH3) CHCH3 Molecular Weight: 58.123 Boiling Point: -11.7C Critical Temperature: 134.9C Critical Pressure: 3.648 MPa Ozone Depleting Potential (ODP): 0 Global Warming Potential (GWP): 3 Packaging Options: Refrigerant Cans: 80g, 120g, 420g Disposable Cylinders: 5kg/13.4L, 6.5kg/13.4L, 10kg/22.3L, 11kg/22.3L Recyclable Cylinders: 50kg/118L, 200kg/400L, 400kg/800L, 450kg/926L Container Tank: 10T/24M³ Tank Car: 28T/58M³ R600a Specifications: Class: 2.1 (Flammable gas) Appearance: Colorless, transparent liquid Odor: Odorless Sulfur Content: 1.0 ppm Moisture Content: 10 ppm Acidity: 1.0 ppm (as HCL) Vapor Residue:0.01% R600a Applications: R600a (Isobutane) is a hydrocarbon refrigerant widely used due to its superior thermodynamic properties and environmentally friendly profile. Key uses include: Refrigeration: Ideal for use in refrigerators, freezers, and cold drink machines as a replacement for R12. It provides strong cooling capacity and large latent heat of evaporation, making it efficient in refrigeration systems. Foaming Agent: Commonly used as a foaming agent for foam plastics in insulation applications. Aerosol Propellant: R600a is also used as a propellant in aerosols, including pesticides, cleaning agents, and spray paints. Note: Due to its flammability, R600a must be handled with care and should only be used in systems specifically designed to accommodate it. Insufficient content of R600a in a refrigeration system can cause excessive pressure, abnormal machine noise, and reduce the lifespan of the compressor. Features and Benefits: Environmentally Friendly: Zero ODP and very low GWP (3), making it a highly sustainable option. High Efficiency: Excellent cooling performance with low power consumption. Compatibility: R600a is compatible with a variety of compressor lubricants, making it versatile across multiple refrigeration systems. Wide Range of Uses: Suitable for various refrigeration applications, including household refrigerators, freezers, and industrial cold storage systems. Why Choose Us? We provide high-purity R600a refrigerant with excellent cooling efficiency, eco-friendliness, and versatile applications. Our products come with a variety of packaging options and are backed by competitive pricing and prompt delivery.
With the continuous development of science and technology, cryogenic storage technology is increasingly used in many fields such as biomedicine, scientific research experiments and industry. Among them, liquid nitrogen supply tanks are widely used in these fields because of their more durable and stable low temperature conditions than traditional liquid nitrogen containers. Liquid nitrogen supply tanks are mainly used to store liquid nitrogen and replenish liquid nitrogen for normal pressure liquid nitrogen tanks, gas phase liquid nitrogen tanks, etc. 1. Double safety protection measures: equipped with double safety automatic control valves to control the inner tank pressure below 0.1mpa, providing double protection to ensure safe use. 2. Continuous pressurization and drainage: It has the uninterrupted nature of continuous pressurization and continuous drainage to improve the liquid supply efficiency. 3. Convenient to move: It is equipped with high-load-bearing mobile casters for quick movement. 4. Easy to operate: Special ultra-low temperature inlet and outlet valves, booster valves, drain valves, etc. are easier to operate, durable, and beautiful. 5. Durable material: The outer shell and the inner tank are made of 304 stainless steel, with good vacuum and low temperature performance. Liquid nitrogen supply tanks have become one of the preferred equipment for liquid nitrogen storage through their unique design and wide range of applications. It not only meets special needs, ensures the stability of liquid nitrogen delivery, and ensures the normal operation of equipment, but also has a wide range of applications in scientific research, medical and agricultural fields, providing a better freezing environment and ensuring the survival and quality of frozen samples.
A self-pressurizing liquid nitrogen tank increases the pressure inside the tank through vaporization of liquid nitrogen. When it reaches a certain pressure value, liquid nitrogen can be continuously discharged. Some users of self-pressurizing liquid nitrogen tanks find that the tank cannot discharge liquid nitrogen after using it for a period of time. After self-inspection, they find that the tank is intact. So what is the reason why the tank cannot discharge liquid nitrogen? Reason 1: There is no liquid nitrogen in the tank There is no liquid nitrogen in the tank, so of course it cannot be discharged. The self-pressurizing liquid nitrogen tank itself relies on the vaporization of a small amount of liquid nitrogen to achieve pressurization. Without liquid nitrogen, pressure cannot be generated! Moreover, self-pressurizing liquid nitrogen tanks and liquid nitrogen storage tanks are the same. Even if the tank is filled with liquid nitrogen and left unused, it will naturally evaporate. Therefore, when you find that the self-pressurizing liquid nitrogen tank cannot drain, you must first check whether the liquid nitrogen in the tank has been used up, and replenish it in time. If you only focus on the inability to drain the liquid and do not pay attention to the remaining amount of liquid nitrogen in the tank, this problem will occur a second time. Reason two: ice blockage phenomenon This situation usually occurs at the booster pipe, and sometimes at the drain pipe. This is because the moisture in the air enters the container and is not fully eliminated. When it comes into contact with low temperatures, it will freeze and block the container. Pipes naturally cannot drain fluid.
(1) Grade 301 Good ductility, used for molded products. It can also be hardened by mechanical processing. Good weldability. Wear resistance and fatigue strength are better than grade 304 stainless steel, used in products such as springs, steel structures, wheel covers. (2) Grade 302:The corrosion resistance is the same as grade 304, and the strength is better due to the relatively high carbon content. (3) Grade 303:It is easier to cut than grade 304 by adding a small amount of sulfur and phosphorus. (4) Grade 304: It is a stainless steel that is non-magnetic and cannot be changed by heat treatment. The standard composition is 18 % chromium plus 8 % nickel. Used in products such as: corrosion-resistant containers, tableware, furniture, railings, medical equipment, some mobile phone frames. (5) Grade 304L:It has the same characteristics as grade 304, but with low carbon, it is more resistant to corrosion and easy to heat treatment, but has poor mechanical properties. It is suitable for welding and products that are not easy to heat treatment. (6) Grade 304N:With the same characteristics as grade 304, it is a nitrogen-containing stainless steel. Nitrogen is added to increase the strength of the steel. (7) Grade 309:Better temperature resistance than grade 304. (8) Grade 309S:With a large amount of chromium and nickel, it has good heat resistance and oxidation resistance, and is used in products such as heat exchangers, boiler components, and jet engines. (9) Grade 310S:Contains the most chromium and nickel, so it has the best heat resistance and oxidation resistance. It is used in products such as heat exchangers, boiler components, and electrical equipment. (10) Grade 316: After grade 304, the second most widely used steel grade, mainly used in the food industry and surgical equipment, the addition of molybdenum gives it a special structure that is resistant to corrosion. Because of its better resistance to chloride corrosion than grade 304, it is also used as "marine steel". SS316 is usually used in nuclear fuel recovery units. Grade 18/10 stainless steels generally also meet this application level. Especially used in chemical, seaside and other corrosive environments, ship assembly, building materials. (11) Grade 316 L: Low carbon, so it is more resistant to corrosion and easy to heat treatment. It is used in products such as chemical processing equipment, nuclear power generators, and refrigerant storage tanks. (12) Grade 321:Similar to grade 304, except that the risk of corrosion of the material weld is reduced due to the addition of titanium elements, suitable for welding. Used in products such as brewing equipment, steam pipes, aerospace parts. (13) Grade 347 The stabilizing element niobium is added and is mainly used for welded parts used at high temperatures.
1. Working pressure 0.09 Mpa 2. Working temperature 250 celsius 3. Temperature lapse rate Less than 12 celsius/24h, feeding temperature more than 120 4. Tank material Q345B, 5/6 mm 5. End enclosure 5/6 mm, flanged flat head 6. Stiffener 6 mm, 4 pcs 7. Heating pipe �?57*3.5 mm, L = 77000/154000 8. Compound manhole DN500 9. Bitumen filling hole DN250 10. Anti-leaking breather valve DN60 11. Overhead nitrogen blanketing valve DN25 12. Sheet gasket PTFE 13. Bitumen protective frame 800*750*150 mm, with bitumen flooding pipe 14. Thermometer 0 to 300 celsius 15. Volumeter Ball floating type 16. Bitumen discharge valve DN80 17. Quick coupling DN80 18. Reserve feeding flange hole DN50/100, 2 pcs 19. Flange hole of bitumen DN50/100 20. Bitumen detecting valve DN25 21. Flange hole of heating pipe DN50, 2 pcs 22. Insulated layer 100 mm, glass fiber wool 23. External close plate 1.5 mm, cold rolled plate 24. Guardrail of ladder W = 400 mm Optional Configurations 1. Recognized register BV or LR 2. Heating system Oil, Flue or Electricity
444 stainless steel is a low-carbon, dual-stabilized ferritic stainless steel that is highly resistant to corrosion, especially in chloride environments. It is often used in applications where high corrosion resistance and good formability are required. Some of the key properties of 444 stainless steel include: Corrosion resistance: 444 stainless steel has excellent resistance to corrosion, especially in chloride environments such as seawater, brackish water, and chloride-containing acids and solvents. Heat resistance: It can withstand high temperatures up to 950�°C (1742�°F) without losing its strength or corrosion resistance properties. Formability: It has good formability and can be easily fabricated into various shapes and sizes. Weldability: It can be welded using common welding techniques, and does not require preheating or post-weld heat treatment. Cost-effective: Compared to other stainless steels, 444 stainless steel is a cost-effective option due to its lower nickel content. Some of the common applications for 444 stainless steel include: Automotive exhaust systems: It is often used in the manufacture of automotive exhaust systems due to its excellent corrosion resistance and heat resistance. Industrial equipment: It is also used in various industrial equipment such as heat exchangers, tanks, and piping systems. Kitchen appliances: It is used in the manufacture of kitchen appliances such as refrigerators, dishwashers, and ovens due to its good formability and corrosion resistance. Overall, 444 stainless steel is a highly versatile and cost-effective material that is ideal for use in corrosive environments where high corrosion resistance and good formability are required. Here are some of the most common international standards for 444 stainless steel: ASTM A240/A240M: Standard Specification for Chromium and Chromium-Nickel Stainless Steel Plate, Sheet, and Strip for Pressure Vessels and for General Applications ASTM A268/A268M: Standard Specification for Seamless and Welded Ferritic and Martensitic Stainless Steel Tubing for General Service ASTM A554: Standard Specification for Welded Stainless Steel Mechanical Tubing EN 10088-2: Stainless steels - Part 2: Technical delivery conditions for sheet/plate and strip of corrosion resisting steels for general purposes JIS G4305: Cold-rolled stainless steel plate, sheet and strip GB/T 3280: Cold rolled stainless steel plate, sheet and strip We can provide the following of the form:444 stainless steel coil; 444 stainless stee strip;444 stainless stee plate; 444 stainless steel sheets; 444 stainless steel tubes; 444 stainless steel pipe;444 stainless steel flat; 444 stainless steel bar 444 stainless steel is generally used to manufacture stress corrosion resistant equipment, video machinery, automotive engine exhaust pipe storage tanks, solar water heaters, printing and dyeing machinery, heat exchangers, etc.
D.A Gas Plants, Incinerators, Wall Putty Making Machine. Pressure Vessels, Heat Exchangers, Psa Nitrogen Plants, M.s. And S.s Storage Tanks.
30 liter liquid nitrogen tank 210 caliber Model unit: YDS-30-210 Geometric volume: 30 liters Empty weight: 16 kg Caliber: 210 mm Outer diameter: 446 mm Height: 670 mm Static liquid nitrogen storage period (days): 40 days Liquid nitrogen tank is a kind of container used to store liquid nitrogen of low temperature. Liquid nitrogen tank has liquid nitrogen storage tank of storage type and liquid nitrogen transport tank for transport. Storage tank is mainly used for indoor liquid nitrogen storage, and it cant be move for a long distance in the working state. In order to meet the transport requirements, transport tank is made out with a special shock-proof design. So transport tank can be used as storage tank, but also as transport tank. However, the strong shake or collision still should be avoided.
30 liter liquid nitrogen tank 210 caliber Model unit: YDS-30-210 Geometric volume: 30 liters Empty weight: 16 kg Caliber: 210 mm Outer diameter: 446 mm Height: 670 mm Static liquid nitrogen storage period (days): 40 days Liquid nitrogen tank is a kind of container used to store liquid nitrogen of low temperature. Liquid nitrogen tank has liquid nitrogen storage tank of storage type and liquid nitrogen transport tank for transport. Storage tank is mainly used for indoor liquid nitrogen storage, and it cant be move for a long distance in the working state. In order to meet the transport requirements, transport tank is made out with a special shock-proof design. So transport tank can be used as storage tank, but also as transport tank. However, the strong shake or collision still should be avoided.
30 liter liquid nitrogen tank 210 caliber Model unit: YDS-30-210 Geometric volume: 30 liters Empty weight: 16 kg Caliber: 210 mm Outer diameter: 446 mm Height: 670 mm Static liquid nitrogen storage period (days): 40 days Liquid nitrogen tank is a kind of container used to store liquid nitrogen of low temperature. Liquid nitrogen tank has liquid nitrogen storage tank of storage type and liquid nitrogen transport tank for transport. Storage tank is mainly used for indoor liquid nitrogen storage, and it cant be move for a long distance in the working state. In order to meet the transport requirements, transport tank is made out with a special shock-proof design. So transport tank can be used as storage tank, but also as transport tank. However, the strong shake or collision still should be avoided.
