"spiral finned tube"
고압 이음새가 없는 지느러미가 있는 탄소 강철 보일러관 ASTM A192 ASME SA192
ASTM A192/ASME SA192 Seamless Carbon Steel Boiler Finned Tubes For High Pressure Product Introduction 1. Classification by structural type The fin tube can be divided into two basic types: longitudinal type and radial type. Other types are the development and deformation of these two types. For example, the shape of large helix angle fin tube is close to the longitudinal type, and the shape of small helix angle fin tube is close to the radial fin tube has circular, rectangula
ASTM A106 전기 저항 용접 내부 핀 튜브
ASTM A106 High Frequency Electric Resistance Welded Internally Boiler Fin Tube H Type Product Introduction Our products can be modified according to our customers' needs and the situation.we design and manufacture safe,reliable and efficient H-fin tubes.it has also completed stand-alone product quality assurance systems.Production of H-fin tubes are with high heat transfer efficiency, they have flue gas resistance and are designed for a small space. Compared to the traditioan
이코노마이저 과열기를 위한 2.5mm 간격 용접 H 탄미익 관
High Frequency Welding H Fin Tube For Economizer/ Superheater Thickness 2.5mm Our products can be modified according to our customers' needs and the situation.we design and manufacture safe,reliable and efficient H-fin tubes.it has also completed stand-alone product quality assurance systems.Production of H-fin tubes are with high heat transfer efficiency, they have flue gas resistance and are designed for a small space. H Fin Tube Introduction H-fin Tubes have two steel
용접된 경도 핀형 관 고효율 TP304L TP 316L 스테인레스
High Efficiency Welded Longitudinal Finned Tubes TP304L TP 316L Stainless Specifications 1). Add the heat exchange area and reduce the number of tubes, also increase the fume flow section area to reduce the fume speed and abrasion. 2). H type fin tube can be made to double H type fin tube, high rigidness to fit long tube row. 3). H type fin economizer arranged in line to make the space into many small zones, averaged air flow to reduce the abrasion. 4). With straight channel
산업용 보일러용 스테인레스 스틸 무선 보일러 핀 튜브
Stainless Steel Seamless Boiler Fin Tube for Industrial Boilers Product Description The double H-type fin tube is a strengthened heat exchange element arranged at the tail of the system flue, which can effectively improve the utilization rate of fuel and recover the exhaust heat of power station boilers, industrial boilers, industrial kilns and ship power units. Double H-type fin tube, on the one hand, the extended heating surface can increase the heat transfer coefficient,
안전하고 내구성있는 설계의 경제기 또는 증발기에 대한 보일러 H 핀 튜브
Boiler H Fin Tube For Economizers Or Evaporators With Safe And Durable Design Product Description In the economizer assembled by H-type finned tube, the most critical component is the fin, and this type of fin we can also be called butterfly tube or boost tube, these combination economizer has a high heat transfer performance, so in different fields of use are more excellent, and the number of use is also high. H-finned tubes can be divided into two types in the way of
고성능 열 전달 및 에너지 소비를 줄이기 위해 보일러 H 핀 튜브
Boiler H Fin Tube For High-Performance Heat Transfer And Reduced Energy Consumption Product Description H-fin tube is a heat exchanger element used for heat transfer. It usually consists of a tube and a number of tightly packed fins, which can be fixed to the tube or seamlessly connected to the tube. The shape of these fins is usually "H" shaped, hence the name H-fin tube. H-finned tubes are divided into single H and double H, so there are also single H-finned tubes and
탄소 강철 보일러 H 핀 튜브 보일러 / 열 교환기 / 콘덴서
Product Description Boiler Fin Tube: Round, Square, Rectangle, Oval, Finned, Etc. Surface Treatment: Pickling, Sand Blasting, Galvanizing, Etc. Fin Pitch: Customized Package: Wooden Cases, Pallet, Etc. Application: Boiler, Heat Exchanger, Condenser, Etc. Heat Exchanger Fin Tube: Carbon Steel Fin Tube, Stainless Steel Fin Tube H-fin tube is a heat exchanger element used for heat transfer. It usually consists of a tube and a number of tightly packed fins, which can be fixed to
고효율의 맞춤형 탄소강 보일러 H 핀 튜브
Product Description The H-finned tube is a heat exchanger element used for heat exchange. It usually consists of a tube and a number of closely packed fins that can be attached to the tube or seamlessly connected to the tube. The shape of these fins usually takes on an "H" shape, hence it’s named H-shaped finned tube. H-finned tubes are used widely in heat exchangers, especially where efficient heat transfer is required. By increasing the surface area, the H-finned tube can
ASME 맞춤형 탄소 강철 보일러 H 핀 튜브
Product Description The H-finned tube is a heat exchanger element used for heat exchange. It usually consists of a tube and a number of closely packed fins that can be attached to the tube or seamlessly connected to the tube. The shape of these fins usually takes on an "H" shape, hence it’s named H-shaped finned tube. H-finned tubes are used widely in heat exchangers, especially where efficient heat transfer is required. By increasing the surface area, the H-finned tube can
ISO9001 탄소 강철 보일러 H 핀 튜브 H 타입 핀 튜버 에코노미자
Product Description H-type finned tubular economizer technology is a high-efficiency heat exchange economizer assembled by using H-type finned tubes (also known as H-type finned tubes, ribbed tubes, and sheet tubes). [1] Wear resistance: Wear resistance, can improve the wear life by 3-4 times. [2] Less ash accumulation: The reasons why H-type fins do not accumulate dust are: ① H-type fins are welded on both sides of the pipe that are not easy to accumulate dust, and the air
효율적인 열 교환 요소 탄소 강철 보일러
Product Description H-finned tube is a heat exchanger element used for heat transfer and consists of a tube and many closely packed fins. These fins can be attached to or seamlessly joined to the tube, and the shape usually takes on an "H" shape, hence the name. H-finned tubes are used in a wide range of applications in heat exchangers, especially where efficient heat transfer is required. By increasing the surface area, the H-finned tube can improve the heat transfer
