Reaction                                                    Technology

Heat Transfer Simulations
For Jacketed Reactors
Questionnaire

 

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  • Do you have a difficult heat transfer application?
  • What type of jacket will provide maximum heat transfer for your new reactor?
  • How to upgrade the heat transfer rate in your existing reactor?

De Dietrich Can Help!
Our new heat transfer software enables a complete simulation of your reactor process. We can simulate the vessel, its product, the jacket, and the heating or cooling media. We can also make a comparison between a conventional jacket and a HemiCoil®.

Our software program will print out a detailed report of all input parameters and output results, including: heat transfer coefficients (at several locations and the overall), final temperature, heat transfer rate and pressure drop. A time-based output is also supplied, to show progression of heat transfer over time. The relationship is then graphed.

Customer Information

Company Name

Contact Name
Address
City State Zip
Country
Phone
E-mail

 

Reactor Specifications
Reactor Type:
Total Volume [gal]:
Mixing Volume [gal]:
Vessel Diameter [in]:
Tangent to Tangent Dimension [in]:
Agitator Type:
Agitator Span [in]:
Agitator Speed [rpm]:
Jacket Type:        Conventional
                              HemiCoil®

Vessel Contents:
Initial Temperature [°F]:
Final Temperature [°F]:

Product:
(Either name a common chemical which is representative of your product or fill in the below specifications at two different reference temperatures)

Reference Temperature No. 1 [°F]:
Specific Gravity:
Specific Heat [Btu/lb-°F]:
Thermal Conductivity [Btu/ft-hr-°F]:
Viscosity [cP]:

Reference Temperature No. 2 [oF]:
Specific Gravity:
Specific Heat [Btu/lb-°F]:
Thermal Conductivity [Btu/ft-hr-°F]:
Viscosity [cP]:

Jacket Contents:
Inlet Temperature [°F]:
Volume Flow Rate [gpm]:
                                               (for liquid only)

Media:
(Either name a common fluid which is representative of your heat transfer media or fill in the below specifications at two different reference temperatures)

Reference Temperature No. 1 [°F]:
Specific Gravity:
Specific Heat [Btu/lb-°F]:
Thermal Conductivity [Btu/ft-hr-°F]:
Viscosity [cP]:

Reference Temperature No. 2 [°F]:
Specific Gravity:
Specific Heat [Btu/lb-°F]:
Thermal Conductivity [Btu/ft-hr-°F]:
Viscosity [cP]:

 

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