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Heat Duty of Exchanger given Core Volume of Exchanger for Hydrocarbon Separation Formula

GoHeat Duty of Exchanger given Core Volume of Exchanger for Air Separation Formula

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Heat Duty of Heat Exchanger refers to the amount of heat transfer that occurs between two fluid streams as they pass through the exchanger. Check FAQs

Q = 100000 \cdot V h \cdot ΔT LMTD

Q - Heat Duty of Heat Exchanger?V_h - Heat Exchanger Volume?ΔT_LMTD - Log Mean Temperature Difference?

Heat Duty of Exchanger given Core Volume of Exchanger for Hydrocarbon Separation Example

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Here is how the Heat Duty of Exchanger given Core Volume of Exchanger for Hydrocarbon Separation equation looks like with Values.

Here is how the Heat Duty of Exchanger given Core Volume of Exchanger for Hydrocarbon Separation equation looks like with Units.

Here is how the Heat Duty of Exchanger given Core Volume of Exchanger for Hydrocarbon Separation equation looks like.

450.417 = 100000 \cdot 0.0001 \cdot 39.1667

450.417W = 100000 \cdot 0.0001m³ \cdot 39.1667K

450.417 = 100000 \cdot 0.0001 \cdot 39.1667

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Heat Duty of Exchanger given Core Volume of Exchanger for Hydrocarbon Separation Solution

Follow our step by step solution on how to calculate Heat Duty of Exchanger given Core Volume of Exchanger for Hydrocarbon Separation?

FIRST Step Consider the formula

Q = 100000 \cdot V h \cdot ΔT LMTD

Next Step Substitute values of Variables

∴

Q = 100000 \cdot 0.0001m³ \cdot 39.1667K

Next Step Prepare to Evaluate

∴

Q = 100000 \cdot 0.0001 \cdot 39.1667

Next Step Evaluate

∴

Q = 450.41705W

LAST Step Rounding Answer

∴

Q = 450.417W

Heat Duty of Exchanger given Core Volume of Exchanger for Hydrocarbon Separation Formula Elements

Variables

Heat Duty of Heat Exchanger

Heat Duty of Heat Exchanger refers to the amount of heat transfer that occurs between two fluid streams as they pass through the exchanger.

Symbol: Q

Measurement: PowerUnit: W

Note: Value can be positive or negative.

Formulas to find Heat Duty of Heat Exchanger

Heat Exchanger Volume

Heat Exchanger Volume refers to the physical space or capacity occupied by a heat exchanger within a system or structure.

Symbol: V_h

Measurement: VolumeUnit: m³

Note: Value should be greater than 0.

Formulas to find Heat Exchanger Volume

Log Mean Temperature Difference

Log Mean Temperature Difference is the logarithmic temperature difference averaged between 2 fluid streams exchanging heat.

Symbol: ΔT_LMTD

Measurement: TemperatureUnit: K

Note: Value should be greater than 0.

Formulas to find Log Mean Temperature Difference

Other Formulas to find Heat Duty of Heat Exchanger

Go Heat Duty of Exchanger given Core Volume of Exchanger for Air Separation

Q = 50000 \cdot V h \cdot ΔT LMTD

Other formulas in Basic Formulas of Heat Exchanger Designs category

Go Equivalent Diameter for Square Pitch in Heat Exchanger

D e = (\frac{1.27}{D Outer}) \cdot (({P Tube}^{2}) - 0.785 \cdot ({D Outer}^{2}))

Go Equivalent Diameter for Triangular Pitch in Heat Exchanger

D e = (\frac{1.10}{D Outer}) \cdot (({P Tube}^{2}) - 0.917 \cdot ({D Outer}^{2}))

Go Number of Baffles in Shell and Tube Heat Exchanger

N Baffles = (\frac{L Tube}{L Baffle}) - 1

Go Number of Tubes in Center Row Given Bundle Diameter and Tube Pitch

N r = \frac{D B}{P Tube}

How to Evaluate Heat Duty of Exchanger given Core Volume of Exchanger for Hydrocarbon Separation?

Heat Duty of Exchanger given Core Volume of Exchanger for Hydrocarbon Separation evaluator uses Heat Duty of Heat Exchanger = 100000*Heat Exchanger Volume*Log Mean Temperature Difference to evaluate the Heat Duty of Heat Exchanger, The Heat Duty of Exchanger given Core Volume of Exchanger for Hydrocarbon Separation formula is defined as heat exchanged in a exchanger whose core volume between the two headers is known. Heat Duty of Heat Exchanger is denoted by Q symbol.

How to evaluate Heat Duty of Exchanger given Core Volume of Exchanger for Hydrocarbon Separation using this online evaluator? To use this online evaluator for Heat Duty of Exchanger given Core Volume of Exchanger for Hydrocarbon Separation, enter Heat Exchanger Volume (V_h) & Log Mean Temperature Difference (ΔT_LMTD) and hit the calculate button.

FAQs on Heat Duty of Exchanger given Core Volume of Exchanger for Hydrocarbon Separation

What is the formula to find Heat Duty of Exchanger given Core Volume of Exchanger for Hydrocarbon Separation?

The formula of Heat Duty of Exchanger given Core Volume of Exchanger for Hydrocarbon Separation is expressed as Heat Duty of Heat Exchanger = 100000*Heat Exchanger Volume*Log Mean Temperature Difference. Here is an example- 345 = 100000*0.000115*39.1667.

How to calculate Heat Duty of Exchanger given Core Volume of Exchanger for Hydrocarbon Separation?

With Heat Exchanger Volume (V_h) & Log Mean Temperature Difference (ΔT_LMTD) we can find Heat Duty of Exchanger given Core Volume of Exchanger for Hydrocarbon Separation using the formula - Heat Duty of Heat Exchanger = 100000*Heat Exchanger Volume*Log Mean Temperature Difference.

What are the other ways to Calculate Heat Duty of Heat Exchanger?

Here are the different ways to Calculate Heat Duty of Heat Exchanger-

Heat Duty of Heat Exchanger=50000*Heat Exchanger Volume*Log Mean Temperature Difference

Can the Heat Duty of Exchanger given Core Volume of Exchanger for Hydrocarbon Separation be negative?

Yes, the Heat Duty of Exchanger given Core Volume of Exchanger for Hydrocarbon Separation, measured in Power can be negative.

Which unit is used to measure Heat Duty of Exchanger given Core Volume of Exchanger for Hydrocarbon Separation?

Heat Duty of Exchanger given Core Volume of Exchanger for Hydrocarbon Separation is usually measured using the Watt[W] for Power. Kilowatt[W], Milliwatt[W], Microwatt[W] are the few other units in which Heat Duty of Exchanger given Core Volume of Exchanger for Hydrocarbon Separation can be measured.

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