Found 35 Products For:

"finned pipe"

Kalite Isı Eşanjörleri ve Kazanlar için ASTM A335 P22 Yüksek Frekans Kaynaklı Tırtıklı Spiral Kanatlı Boru fabrika

Isı Eşanjörleri ve Kazanlar için ASTM A335 P22 Yüksek Frekans Kaynaklı Tırtıklı Spiral Kanatlı Boru

ASTM A335 P22 High Frequency Welded Serrated Spiral Fin Tube This high-performance engineered component is designed for superior heat transfer in extreme operating environments. It integrates the excellent high-temperature mechanical properties of ASTM A335 Grade P22 alloy steel with an advanced finned design for enhanced heat exchange efficiency. Product Overview The base tube is manufactured from seamless ferritic alloy-steel pipe specifically intended for high-temperature
Kalite ASTM A106 Gr.B Tube With Cu-T2 Fin with Embedded Fin Tube with G-type fabrika

ASTM A106 Gr.B Tube With Cu-T2 Fin with Embedded Fin Tube with G-type

ASTM A106 Gr.B Tube With Cu-T2 Fin with Embedded Fin Tube G-Type Inlay fin tubes, also known as G-fin tubes, are manufactured by mechanically wrapping fin material around a base tube. Their key feature is that the fin legs are embedded into the base tube surface under tension, forming a tight mechanical and metallurgical bond without the need for any filler material. The combination of a sturdy carbon steel base tube and highly thermally conductive copper fins provides a
Kalite ASTM A335 P9 Yüksek Sıcaklık Kazan Kızdırıcıları İçin Alaşımlı Çelik Tırtıklı Finli Borular fabrika

ASTM A335 P9 Yüksek Sıcaklık Kazan Kızdırıcıları İçin Alaşımlı Çelik Tırtıklı Finli Borular

ASTM A335 P9 Alloy Steel Serrated Finned Tubes For High Temperature Boiler Superheaters Chemical Composition (%) Grade C Mn P S Si Cr Mo P9 0.15max 0.30-0.60 0.025 0.025 0.25-1.00 8.00-10.00 0.90-1.10 Mechanical Properties Grade Tensile Strength,min Yield Strength (0.2%Offset,min) Elongation min% P9 60ksi (415 MPa) 30ksi (205 MPa) 30 ASTM A335 P9 (12Cr9Mo) is a 9%Cr - 1%Mo ferroalloy designed for high-temperature (up to 650°C) and high-pressure (up to 16 MPa) service. It is a
Kalite Petrokimyasal Endüstriyel Fırın için ASTM A335 Alaşımlı Çelik Dikişsiz P22 HFW Fined Tubes fabrika

Petrokimyasal Endüstriyel Fırın için ASTM A335 Alaşımlı Çelik Dikişsiz P22 HFW Fined Tubes

ASTM A335 Alloy Steel Seamless P22 HFW Finned Tubes for Petrochemical Industrial Furnace HFW (High-Frequency Welded) denotes the advanced welding process used to bond fins tightly to the base tube, ensuring superior structural integrity and thermal conductivity. These finned tubes are designed to maximize heat transfer efficiency in harsh petrochemical environments involving high temperatures, high pressures, and corrosive flue gases. High-frequency welding creates a uniform,
Kalite Süper Isıtıcı Kurtarma Sistemlerinde ASTM A312 Paslanmaz Çelik TP304 Dişli Kanatlı Borular fabrika

Süper Isıtıcı Kurtarma Sistemlerinde ASTM A312 Paslanmaz Çelik TP304 Dişli Kanatlı Borular

ASTM A312 Stainless Steel TP304 Serrated Finned Tubes For Superheaters In Recovery Systems ASTM A312 TP304 serrated finned tubes are high-performance heat transfer components specifically engineered for superheater assemblies in industrial heat recovery systems. These tubes integrate the superior material properties of TP304 austenitic stainless steel with the enhanced thermal efficiency of a serrated fin geometry, creating an optimal solution for recovering waste heat from
Kalite ASTM A335 P11 Kazan tüpü Süper ısıtıcı ve ısı değiştiricisi için Cr-Mo alaşımlı çelik boru fabrika

ASTM A335 P11 Kazan tüpü Süper ısıtıcı ve ısı değiştiricisi için Cr-Mo alaşımlı çelik boru

ASTM A335 P11 Boiler Tube Cr-Mo Alloy Steel Pipe for Superheater And Heat Exchanger ASTM A335 P11 steel pipes are a well-known standard and material for boiler tubes. Certain components in boilers operate under high temperature and pressure, such as superheaters, reheaters, main steam piping, and headers. The properties of P11 material perfectly meet the requirements of these critical components. It maintains sufficient strength even under the high temperatures of boiler
Kalite ASME B163 N04400 G Tipi Fin Tube Monel 400 Alüminyum FIN ile Klima için fabrika

ASME B163 N04400 G Tipi Fin Tube Monel 400 Alüminyum FIN ile Klima için

ASME B163 N04400 G Type Fin Tube Monel 400 Tube with Aluminium FIN For Air Conditing ASME B16.3 N04400 G Type Fin Tube is a type of finned tube made from Monel 400 material with aluminum fins. Monel 400 is a nickel-copper alloy known for its excellent corrosion resistance in various environments, including seawater. The addition of aluminum fins to the tube increases the surface area, allowing for better heat transfer. This type of finned tube is commonly used in applications
Kalite T22 Elektrik Santrali Isı Geri Kazanma Buhar Üretimi İçin Yüksek Frekanslı Kaynaklı Düzgeçli Tüp fabrika Video

T22 Elektrik Santrali Isı Geri Kazanma Buhar Üretimi İçin Yüksek Frekanslı Kaynaklı Düzgeçli Tüp

T22 High Frequency Weld Serrated Finned Tube For Power Plant Heat Recovery Steam Generation YUHONG T22 High-Frequency Welded Serrated Finned Tubes are specifically designed for Heat Recovery Steam Generators (HRSG) in power plants. These tubes offer superior heat transfer performance and durability, making them ideal for recovering waste heat and improving thermal efficiency. In addition to finned tubes, we also provide manifolds, straight tubes, and tube supports, ensuring a
Kalite Hairpin Isı Değiştiricisi. Çift boru bölümü / Çok boru saç iğnesi. Tek geçişli U-Bundle. Malzemeler: CS/304/316L/Ti. Tasarım sıcaklığı -40°C'den +500°C'ye kadar. fabrika

Hairpin Isı Değiştiricisi. Çift boru bölümü / Çok boru saç iğnesi. Tek geçişli U-Bundle. Malzemeler: CS/304/316L/Ti. Tasarım sıcaklığı -40°C'den +500°C'ye kadar.

Hairpin Heat Exchanger | Double Pipe Section / Multitube Hairpin | Single Pass U-Bundle Materials: CS/304/316L/Ti | Design Temp -40°C to +500°C | Applications: High ΔT Services / Vaporizing / Gas Heating | Manufactured per TEMA or ASME VIII-1 Technical Advantage Overview The hairpin heat exchanger (also known as a double-pipe or multitube hairpin) is engineered for services where thermal expansion differential between the tube and shell fluids exceeds the practical limit of a
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