CALGAVIN's "hiTRAN" heat transfer enhancement element - Improving the performance of the tube-type heat exchanger, reducing fouling inside the tubes, and decreasing energy requirements. | 日鉄物産マテックス - Powered by IPROS GMS

CALGAVIN's "hiTRAN" heat transfer enhancement element - Improving the performance of the tube-type heat exchanger, reducing fouling inside the tubes, and decreasing energy requirements.

日鉄物産マテックス

CALGAVIN is a group of experts providing solutions to various problems related to heat exchangers. For over 40 years, CALGAVIN has been thoroughly researching the optimization and improvement of heat exchangers in collaboration with universities and research institutions. By inserting the heat transfer enhancement element 'hiTRAN' into tube-type heat exchangers, both new and existing, various benefits can be obtained. 　　✓ Reduction in the number of tubes, weight reduction, and decreased installation area 　　✓ Reduction in initial costs and installation expenses 　　✓ Increase in heat transfer coefficients 　　✓ Decrease in heat transfer area 　　✓ Maintenance of long-term operation by reducing fouling inside the tubes 　　✓ Increase in production while reducing energy consumption 　　✓ Reduction in required energy 　　✓ Lower maintenance costs *For more details, please refer to the PDF document or feel free to contact us.

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CALGAVIN Multi-tube Heat Exchanger Heat Transfer Enhancement 'hiTRAN' Catalog
Increase and improve the capacity of heat exchangers, reduce fouling inside the tubes! A group of experts dedicated to solving various issues related to heat exchangers. Support from Japanese professionals who are well-versed in processes and heat exchangers!

◇ What is CALGAVIN? 1. A "specialist group for solving heat exchanger-related issues" established in the UK in 1980. 2. Over 30 years of experience and achievements worldwide in collaboration with universities and research institutions. ◇ What is the process for inserting "hiTRAN"? 1. Confirmation of processes and specifications for heat exchangers, and meetings. 2. Performance comparison calculations before and during the insertion of hiTRAN. 3. Contracting, arranging hiTRAN, delivery, and insertion of hiTRAN into the heat exchanger. * Please perform the insertion of hiTRAN yourself. Insertion guidance (separate contract) is also available.
CALGAVIN's "hiTRAN" / Mechanism for Reducing Internal Contamination
By inserting "hiTRAN" into the tubular heat exchanger, we can reduce fouling inside the tubes and achieve long-term operation!

For more details, please refer to the materials or feel free to contact us.
Proposal for CALGAVIN Tube-Type Heat Exchanger Heat Transfer Enhancement 'hiTRAN'
Tube-type heat exchanger heat transfer enhancement element 'hiTRAN' improves heat exchanger performance for production optimization and energy reduction!

For product details, please refer to the catalog or feel free to contact us.

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CALGAVIN's "hiTRAN" Catalog

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Proposal for CALGAVIN's 'hiTRAN' Heat Exchanger Heat Transfer Enhancement Element

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CALGAVIN's "hiTRAN" heat transfer enhancement element / Mechanism for dirt reduction

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Case Study 23: Application of hiTRAN Heat Transfer Enhancement Elements to Air Fin Coolers

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Case Study 22: Comparison of hiTRAN Heat Transfer Enhancement Elements for Multi-Tube Heat Exchangers

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Case Study 21: Hydrogen Treatment Equipment Feed/Effluent Heat Exchanger (Achieving Increased Capacity and Significant Fuel Reduction)

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Case Study 20: Heat Exchanger for FPSO/Oil-Water Separation Plant (Reduction in the Number of Heat Exchangers, Cost Reduction of Equipment, Achievement of Fouling Prevention)

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Case Study 19: Texas Tower Existing Renovation (15% Capacity Increase Due to Heat Transfer Enhancement Body on the Pipe Side)

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Case Study 15: Carbon Black Manufacturing Equipment / Tar Residue Oil Heater (Achieved over 25 years of operational performance)

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Case Study 9: Heavy Cycle Gas Oil Cooler (Achieved 80% Reduction in Heat Transfer Area, Stable Performance, and No Generation of Adhesive Residues)

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Case Study 8: LNG Condensate Stabilizer Reboiler Capacity Enhancement (Improvement of Liquid Distribution and Reduction of Film Boiling)

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Case Study 7: Decompression Residual Oil/Crude Oil Preheating Intermediate Heat Exchanger (Achieving Heat Transfer Enhancement and Minimization of Fouling)

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Case Study 6: Heavy Wax Fraction Cooler (Reduction of Contamination and 50% Reduction in Required Heat Transfer Area)

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Case Study 5: Heat Transfer Enhancement of Triethylene Glycol Intermediate Heat Exchanger for Gas Dehydration (Minimizing Tube Bundle Size and Cost)

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Case Study 4: Improvement of Heat Transfer Capacity in LNG Vaporizers (Achieving Suppression of Film Boiling and Uniform Fluid Distribution)

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Case Study 3: Improvement of P-Xylene Feed/Effluent Vaporizer (Improvement of Heat Transfer Coefficient on the Pipe Side and Achievement of Increased Production)

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Case Study 2: Decompression Distillation Tower Reboiler (Achieving a 40% Increase in Processing Capacity and a 20% Safety Margin)

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Case Study 1: Performance Improvement of Hysomer Feed/Effluent Heat Exchanger

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