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에너지 절감 보일러 핀 튜브 최대 20t/h 증기 생산 및 3 년 전력 발전소 보증
Energy Saving Aluminum Carbon Stainless Boiler Solid Serrated Spiral Fin Tube for Power Plant Product Description H-fin Tubes feature two steel discs with fluorescent tubes symmetrically welded together to form fins (butterfly-shaped fins), creating an efficient energy-saving extended heating surface. These tubes offer high fusion weld rates and weld tensile strength. When assembled with the H economizer, they provide high efficiency, low resistance, minimal wear, and
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최대 20t/h 증기 생산과 자연 순환 보일러에 대한 3 년 보증
Spiral Double H Fin Tube with High Quality Energy Saving H-fin Tubes feature two steel discs with fluorescent tubes symmetrically welded together to form fins (butterfly-shaped fins), creating an H-shaped profile that delivers efficient energy savings and extended heating surface area. These tubes offer high fusion weld rates and exceptional weld tensile strength. When assembled with H economizers, they provide high efficiency, minimal resistance, reduced wear, and lightweigh
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발전소용 3년 보증 스테인리스 보일러 핀 튜브, 최대 20t/h 출력 및 5~50톤 중량
Stainless H-Fin Tube for Boiler in Power Plants H-fin Tubes feature two steel discs with fluorescent tubes symmetrically welded together to form fins (butterfly-shaped fins), creating an H-shaped profile that delivers efficient energy savings and extended heating surface area. These tubes offer high fusion weld rates and exceptional weld tensile strength. Product Specifications Product H-fin Tube Base Pipe Welded or Seamless Material Carbon steel, alloy steel, stainless steel
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의료/화학/전력 응용 분야를 위한 고 안전 수준의 완전 자동 제어 이중 H 핀 튜브
Spiral Double H Fin Tube With High Quality Energy Saving H-fin Tubes feature two steel discs with fluorescent tubes symmetrically welded together to form fins (butterfly-shaped fins), creating an H-shaped profile that delivers efficient energy savings and extended heating surface. These tubes offer high fusion weld rates and exceptional weld tensile strength. When assembled with H economizers, they provide high efficiency, minimal resistance, reduced wear, and lightweight
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최고 60t/h 증기 생산 및 92.4% ~ 94.5% 열 효율을 가진 보일러에 대한 높은 정확성 에너지 절약 H- 핀 튜브
Energy Saving Fin Tube for Boiler for Power Plant Product Description H-fin Tubes feature two steel discs with fluorescent tubes symmetrically welded together to form fins (butterfly-shaped pieces), creating an efficient energy-saving extended heating surface. The unique H-shaped design provides high fusion weld rates and excellent weld tensile strength. When assembled with the H economizer, these tubes deliver high efficiency, minimal resistance, reduced wear, and lightweigh
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고 정밀성 H 타입 핀 튜브 최대 60t/h 증기 생산 및 1 년 공업 열 교환기 보증
H Type High Frequency Welded Fin Tube for Heat Exchanger High Quality H Type Fin Tube New technology square fin tube double H from China providers Product Description H-type finned tube heat exchanger elements maintain a high capacity for heat transfer, possess superior self-cleaning properties and retain the ability to effect flue gas waste heat recovery in boiler renovations. Convective heat transfer coefficient is proportional to fin pitch, but inversely proportional to
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자동 수직 이중 H형 핀 열교환기 튜브 (증기 출력용, 1년 보증)
Automatic Double H Type Finned Heat Exchanger Tubes Vertical Condensing Exchanger for Steam Output Product Description H fin tube, also known as square fin tube, is available in two types: single tube (square fin tube) and double tube (rectangular fin tubes). These can be manufactured to meet specific customer requirements. The rectangular shape provides a larger surface area compared to spiral finned tubes, making them ideal for air heating applications where space
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전기 발전소 용용 증기 보일러용 듀플 핀 보일러 핀 튜브 및 열 교환 튜브
Double Finned Boiler Fin Tubes/Heat Exchanger Tubes for Steam Boiler Fire Tube Structure Product Description H-type finned tube heat exchanger elements maintain a high capacity for heat transfer, possess superior self-cleaning properties and retain the ability to effect flue gas waste heat recovery in boiler renovations. Convective heat transfer coefficient is proportional to fin pitch, but inversely proportional to fin height and fin width. Key Features High heat transfer
