| 1. | Note that estimating the heat transfer coefficient may be quite complicated.
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| 2. | The heat transfer coefficient is the heat transferred per unit area per kelvin.
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| 3. | It can be argued that heat transfer coefficient is also an important parameter.
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| 4. | The constant of proportionality is the heat transfer coefficient.
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| 5. | The total heat transfer coefficient can be is thus a combination of the two.
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| 6. | For two or more heat transfer processes connected in series, heat transfer coefficients add inversely:
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| 7. | In classical natural convective heat transfer, the heat transfer coefficient is dependent on the temperature.
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| 8. | Using this information revise assumed temperature differences heat transfer coefficients, then determine heating surface requirements.
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| 9. | Heat transfer coefficient enhancement techniques are generally classified into two categories : active techniques and passive techniques.
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| 10. | Formulas and correlations are available in many references to calculate heat transfer coefficients for typical configurations and fluids.
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