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Gasket Heat Exchanger Plate Evaporator for Continuous Use
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Gasket Heat Exchanger Plate Evaporator for Continuous Use
  • Nom
  • Nom
  • Nom
  • Nom

Gasket Heat Exchanger Plate Evaporator for Continuous Use

MOQ: 1
Prix: Négociable
Emballage Standard: boîte en bois
Période De Livraison: 5-8 jours ouvrables
Méthode De Paiement: LC, D/A, D/P, T/T, Western Union
Capacité D'approvisionnement: 100
Les informations détaillées
Description de produit
Les informations détaillées
Lieu d'origine
Chine
Nom de marque
Botai
Numéro de modèle
Le BOTAI-8
Délai de livraison:
10 jours ouvrables
Origine:
Tian Jin, Chine
Capacité de production:
100000 pièces/an
Pression de conception:
2,2 m/PA
Type de matériau:
SS304 / SS316L
Mettre en évidence:

continuous use heat exchanger gasket

,

plate evaporator heat exchanger

,

heat exchanger plate gasket

Description de produit
Gasket Heat Exchanger Plate Evaporator for Continuous Use
Plate evaporators are widely utilized in evaporation applications due to their exceptional heat transfer efficiency, straightforward maintenance procedures, and flexible expansion capabilities.
A plate evaporator system primarily consists of plate preheaters, plate heat exchangers, plate condensers, material pumps, separators, demisters, steam scrubbers, and connecting pipelines. This evaporation equipment employs plate heat exchangers as the primary thermal transfer components throughout the entire system configuration.
Operating Principle
Plate evaporators facilitate heat transfer through partition walls. The material undergoing evaporation is heated beyond its boiling point under corresponding pressure conditions, resulting in continuous boiling. Subsequent separation in gas-liquid separators produces high-concentration liquid and pure saturated water vapor, achieving the desired concentration objectives.
Construction and Assembly
Material and steam channels are alternately combined using identical plates through gasket sealing or welding processes. Available assembly configurations include detachable, semi-welded, and fully-welded types to accommodate various operational requirements.
Key Advantages
  • Superior overall heat transfer efficiency
  • Reduced comprehensive operational costs
  • Minimized consumption of precious metals
  • Compact footprint with reduced space requirements
  • Streamlined operation and maintenance procedures
  • Adjustable evaporation area for process optimization
Plate evaporators demonstrate exceptional heat transfer coefficients, enabling liquids to achieve turbulent flow states efficiently. Their thermal transfer performance typically exceeds tubular evaporators by 2-3 times. The turbulent flow characteristics continuously cleanse heat transfer surfaces, significantly extending scaling cycles and reducing maintenance frequency.
The compact design of plate evaporators occupies only one-third to one-fourth the space of equivalent-capacity tubular evaporators, with heights reduced to approximately one-tenth. Maintenance accessibility is enhanced through simple bolt removal procedures, while expansion capabilities provide adaptability to diverse environmental constraints and space-limited installations.
Plate evaporator assembly showing heat exchanger plates and gasket configuration Industrial plate evaporator installation in processing facility
Application Fields
Plate heat exchangers have achieved widespread implementation across multiple industrial sectors including metallurgy, mining, petroleum, chemical processing, power generation, food production, chemical fibers, paper manufacturing, light textiles, marine applications, and district heating systems. These versatile systems support diverse thermal processes including heating, cooling, evaporation, condensation, sterilization, and waste heat recovery operations.
  • Solar Energy Utilization Systems
  • Chemical Processing Industry
  • Steel Manufacturing Operations
  • Metallurgical Applications
  • Central Heating Infrastructure
  • Marine and Shipping Applications
Plate heat exchanger installation in industrial setting Close-up view of plate evaporator heat transfer surfaces Plate evaporator system components and connections Industrial plate heat exchanger maintenance procedure Plate evaporator in chemical processing application Complete plate evaporator system installation
Étiquettes: 

Échangeur de chaleur à plaques à coefficient de transfert thermique élevé,  

Échangeur de chaleur à structure compacte,  

Large gamme d'applications Échangeur de chaleur industriel

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produits
DéTAILS DES PRODUITS
Produits

Pompes de recirculation de l'eau

Pompe à eau d'agriculture

Pompes d'approvisionnement en eau

pompe de circulation de grundfos

Pompe à eau d'égout

système de lutte contre l'incendie

système d'air frais

Pompe centrifuge

Pompes de gavage

commandes d'abb

Centre de meulage vertical

Pompes de renforcement en ligne

Échangeur de chaleur à plaque

Échangeur de chaleur

Pompe à dossier
Gasket Heat Exchanger Plate Evaporator for Continuous Use
  • Nom
  • Nom
  • Nom
  • Nom
Gasket Heat Exchanger Plate Evaporator for Continuous Use
MOQ: 1
Prix: Négociable
Emballage Standard: boîte en bois
Période De Livraison: 5-8 jours ouvrables
Méthode De Paiement: LC, D/A, D/P, T/T, Western Union
Capacité D'approvisionnement: 100
Les informations détaillées
Description de produit
Les informations détaillées
Lieu d'origine
Chine
Nom de marque
Botai
Numéro de modèle
Le BOTAI-8
Délai de livraison:
10 jours ouvrables
Origine:
Tian Jin, Chine
Capacité de production:
100000 pièces/an
Pression de conception:
2,2 m/PA
Type de matériau:
SS304 / SS316L
Quantité de commande min:
1
Prix:
Négociable
Détails d'emballage:
boîte en bois
Délai de livraison:
5-8 jours ouvrables
Conditions de paiement:
LC, D/A, D/P, T/T, Western Union
Capacité d'approvisionnement:
100
Mettre en évidence

continuous use heat exchanger gasket

,

plate evaporator heat exchanger

,

heat exchanger plate gasket

Description de produit
Gasket Heat Exchanger Plate Evaporator for Continuous Use
Plate evaporators are widely utilized in evaporation applications due to their exceptional heat transfer efficiency, straightforward maintenance procedures, and flexible expansion capabilities.
A plate evaporator system primarily consists of plate preheaters, plate heat exchangers, plate condensers, material pumps, separators, demisters, steam scrubbers, and connecting pipelines. This evaporation equipment employs plate heat exchangers as the primary thermal transfer components throughout the entire system configuration.
Operating Principle
Plate evaporators facilitate heat transfer through partition walls. The material undergoing evaporation is heated beyond its boiling point under corresponding pressure conditions, resulting in continuous boiling. Subsequent separation in gas-liquid separators produces high-concentration liquid and pure saturated water vapor, achieving the desired concentration objectives.
Construction and Assembly
Material and steam channels are alternately combined using identical plates through gasket sealing or welding processes. Available assembly configurations include detachable, semi-welded, and fully-welded types to accommodate various operational requirements.
Key Advantages
  • Superior overall heat transfer efficiency
  • Reduced comprehensive operational costs
  • Minimized consumption of precious metals
  • Compact footprint with reduced space requirements
  • Streamlined operation and maintenance procedures
  • Adjustable evaporation area for process optimization
Plate evaporators demonstrate exceptional heat transfer coefficients, enabling liquids to achieve turbulent flow states efficiently. Their thermal transfer performance typically exceeds tubular evaporators by 2-3 times. The turbulent flow characteristics continuously cleanse heat transfer surfaces, significantly extending scaling cycles and reducing maintenance frequency.
The compact design of plate evaporators occupies only one-third to one-fourth the space of equivalent-capacity tubular evaporators, with heights reduced to approximately one-tenth. Maintenance accessibility is enhanced through simple bolt removal procedures, while expansion capabilities provide adaptability to diverse environmental constraints and space-limited installations.
Plate evaporator assembly showing heat exchanger plates and gasket configuration Industrial plate evaporator installation in processing facility
Application Fields
Plate heat exchangers have achieved widespread implementation across multiple industrial sectors including metallurgy, mining, petroleum, chemical processing, power generation, food production, chemical fibers, paper manufacturing, light textiles, marine applications, and district heating systems. These versatile systems support diverse thermal processes including heating, cooling, evaporation, condensation, sterilization, and waste heat recovery operations.
  • Solar Energy Utilization Systems
  • Chemical Processing Industry
  • Steel Manufacturing Operations
  • Metallurgical Applications
  • Central Heating Infrastructure
  • Marine and Shipping Applications
Plate heat exchanger installation in industrial setting Close-up view of plate evaporator heat transfer surfaces Plate evaporator system components and connections Industrial plate heat exchanger maintenance procedure Plate evaporator in chemical processing application Complete plate evaporator system installation
Étiquettes: 

Échangeur de chaleur à plaques à coefficient de transfert thermique élevé,

Échangeur de chaleur à structure compacte,

Large gamme d'applications Échangeur de chaleur industriel

Tianjin Shiny-Metals Technology Co., Ltd.
Chambre 405A-8, bâtiment 1, centre de développement collaboratif, n°1 rue Xihuan Nord, ville scientifique et technologique de Zhongguancun, Jingjin, district de Baodi, Tianjin
Téléphone: +86-186-4921-7906
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