Effectiveness of Parallel-Flow Heat Exchanger if Cold Fluid is Minimum Fluid Calculator

✖Outlet Temperature of Cold Fluid is the temperature at which the cold fluid exits the heat exchanger.ⓘ Outlet Temperature of Cold Fluid [T_co]			+10% -10%
✖Inlet Temperature of Cold Fluid is the temperature at which the cold fluid enters the heat exchanger.ⓘ Inlet Temperature of Cold Fluid [T_ci]			+10% -10%
✖Inlet Temperature of Hot Fluid is the temperature at which the hot fluid enters the heat exchanger.ⓘ Inlet Temperature of Hot Fluid [T_hi]			+10% -10%

✖Effectiveness of HE when Cold Fluid is Min Fluid depends on Mass flow rate and specific heat, is minimum for cold fluid. HE= Heat Exchanger, Min= Minimum.ⓘ Effectiveness of Parallel-Flow Heat Exchanger if Cold Fluid is Minimum Fluid [ε_c]

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Effectiveness of Parallel-Flow Heat Exchanger if Cold Fluid is Minimum Fluid Solution

STEP 0: Pre-Calculation Summary

Formula Used

Effectiveness of HE when Cold Fluid is Min Fluid = (Outlet Temperature of Cold Fluid-Inlet Temperature of Cold Fluid)/(Inlet Temperature of Hot Fluid-Inlet Temperature of Cold Fluid)
ε_c = (T_co-T_ci)/(T_hi-T_ci)
This formula uses 4 Variables

Variables Used

Effectiveness of HE when Cold Fluid is Min Fluid - Effectiveness of HE when Cold Fluid is Min Fluid depends on Mass flow rate and specific heat, is minimum for cold fluid. HE= Heat Exchanger, Min= Minimum.
Outlet Temperature of Cold Fluid - (Measured in Kelvin) - Outlet Temperature of Cold Fluid is the temperature at which the cold fluid exits the heat exchanger.
Inlet Temperature of Cold Fluid - (Measured in Kelvin) - Inlet Temperature of Cold Fluid is the temperature at which the cold fluid enters the heat exchanger.
Inlet Temperature of Hot Fluid - (Measured in Kelvin) - Inlet Temperature of Hot Fluid is the temperature at which the hot fluid enters the heat exchanger.

STEP 1: Convert Input(s) to Base Unit

Outlet Temperature of Cold Fluid: 303 Kelvin --> 303 Kelvin No Conversion Required
Inlet Temperature of Cold Fluid: 283 Kelvin --> 283 Kelvin No Conversion Required
Inlet Temperature of Hot Fluid: 343 Kelvin --> 343 Kelvin No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

ε_c = (T_co-T_ci)/(T_hi-T_ci) --> (303-283)/(343-283)

Evaluating ... ...

ε_c = 0.333333333333333

STEP 3: Convert Result to Output's Unit

0.333333333333333 --> No Conversion Required

FINAL ANSWER

0.333333333333333 ≈ 0.333333 <-- Effectiveness of HE when Cold Fluid is Min Fluid

(Calculation completed in 00.006 seconds)

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< Effectiveness of Heat Exchanger Calculators

Effectiveness of Counter-Current Heat Exchanger if Cold Fluid is Minimum Fluid

LaTeX Go Effectiveness of HE when Cold Fluid is Min Fluid = (modulus((Inlet Temperature of Cold Fluid-Outlet Temperature of Cold Fluid))/(Inlet Temperature of Hot Fluid-Outlet Temperature of Cold Fluid))

Effectiveness of Parallel-Flow Heat Exchanger if Cold Fluid is Minimum Fluid

LaTeX Go Effectiveness of HE when Cold Fluid is Min Fluid = (Outlet Temperature of Cold Fluid-Inlet Temperature of Cold Fluid)/(Inlet Temperature of Hot Fluid-Inlet Temperature of Cold Fluid)

Effectiveness of Parallel-Flow Heat Exchanger if Hot Fluid is Minimum Fluid

LaTeX Go Effectiveness of HE when Hot Fluid is Min Fluid = ((Inlet Temperature of Hot Fluid-Outlet Temperature of Hot Fluid)/(Inlet Temperature of Hot Fluid-Inlet Temperature of Cold Fluid))

Effectiveness of Counter-Current Heat Exchanger if Hot Fluid is Minimum Fluid

LaTeX Go Effectiveness of HE when Hot Fluid is Min Fluid = (Inlet Temperature of Hot Fluid-Outlet Temperature of Hot Fluid)/(Inlet Temperature of Hot Fluid-Outlet Temperature of Cold Fluid)

< Heat Exchanger and its Effectiveness Calculators

Heat Transfer in Heat Exchanger given Cold Fluid Properties

LaTeX Go Heat = modulus(Mass of Cold Fluid*Specific Heat Capacity of Cold Fluid*(Inlet Temperature of Cold Fluid-Outlet Temperature of Cold Fluid))

Heat Transfer in Heat Exchanger given Hot Fluid Properties

LaTeX Go Heat = Mass of Hot Fluid*Specific Heat Capacity of Hot Fluid*(Inlet Temperature of Hot Fluid-Outlet Temperature of Hot Fluid)

Fouling Factor

LaTeX Go Fouling Factor = (1/Overall Heat Transfer Coefficient after Fouling)-(1/Overall Heat Transfer Coefficient)

Capacity Rate

LaTeX Go Capacity Rate = Mass Flow Rate*Specific Heat Capacity

Effectiveness of Parallel-Flow Heat Exchanger if Cold Fluid is Minimum Fluid Formula

LaTeX Go

What is Heat Exchanger?

A Heat Exchanger is a device that facilitates the process of heat exchange between two fluids that are at different temperatures.

What are the Different Types of Heat Exchanger?

Mainly Heat Exchanger are divided in 4 categories: Hairpin Type Heat Exchanger, Double Pipe Heat Exchanger, Shell and Tube Heat Exchanger & Plate Type Heat Exchanger.

How to Calculate Effectiveness of Parallel-Flow Heat Exchanger if Cold Fluid is Minimum Fluid?

Effectiveness of Parallel-Flow Heat Exchanger if Cold Fluid is Minimum Fluid calculator uses Effectiveness of HE when Cold Fluid is Min Fluid = (Outlet Temperature of Cold Fluid-Inlet Temperature of Cold Fluid)/(Inlet Temperature of Hot Fluid-Inlet Temperature of Cold Fluid) to calculate the Effectiveness of HE when Cold Fluid is Min Fluid, The Effectiveness of Parallel-Flow Heat Exchanger if Cold Fluid is Minimum Fluid formula is defined as the ratio of temp difference of outlet and inlet of cold fluid to the temp difference of inlet of hot and inlet of cold fluid. Effectiveness of HE when Cold Fluid is Min Fluid is denoted by ε_c symbol.

How to calculate Effectiveness of Parallel-Flow Heat Exchanger if Cold Fluid is Minimum Fluid using this online calculator? To use this online calculator for Effectiveness of Parallel-Flow Heat Exchanger if Cold Fluid is Minimum Fluid, enter Outlet Temperature of Cold Fluid (T_co), Inlet Temperature of Cold Fluid (T_ci) & Inlet Temperature of Hot Fluid (T_hi) and hit the calculate button. Here is how the Effectiveness of Parallel-Flow Heat Exchanger if Cold Fluid is Minimum Fluid calculation can be explained with given input values -> 0.333333 = (303-283)/(343-283).

FAQ

What is Effectiveness of Parallel-Flow Heat Exchanger if Cold Fluid is Minimum Fluid?

The Effectiveness of Parallel-Flow Heat Exchanger if Cold Fluid is Minimum Fluid formula is defined as the ratio of temp difference of outlet and inlet of cold fluid to the temp difference of inlet of hot and inlet of cold fluid and is represented as ε_c = (T_co-T_ci)/(T_hi-T_ci) or Effectiveness of HE when Cold Fluid is Min Fluid = (Outlet Temperature of Cold Fluid-Inlet Temperature of Cold Fluid)/(Inlet Temperature of Hot Fluid-Inlet Temperature of Cold Fluid). Outlet Temperature of Cold Fluid is the temperature at which the cold fluid exits the heat exchanger, Inlet Temperature of Cold Fluid is the temperature at which the cold fluid enters the heat exchanger & Inlet Temperature of Hot Fluid is the temperature at which the hot fluid enters the heat exchanger.

How to calculate Effectiveness of Parallel-Flow Heat Exchanger if Cold Fluid is Minimum Fluid?

The Effectiveness of Parallel-Flow Heat Exchanger if Cold Fluid is Minimum Fluid formula is defined as the ratio of temp difference of outlet and inlet of cold fluid to the temp difference of inlet of hot and inlet of cold fluid is calculated using Effectiveness of HE when Cold Fluid is Min Fluid = (Outlet Temperature of Cold Fluid-Inlet Temperature of Cold Fluid)/(Inlet Temperature of Hot Fluid-Inlet Temperature of Cold Fluid). To calculate Effectiveness of Parallel-Flow Heat Exchanger if Cold Fluid is Minimum Fluid, you need Outlet Temperature of Cold Fluid (T_co), Inlet Temperature of Cold Fluid (T_ci) & Inlet Temperature of Hot Fluid (T_hi). With our tool, you need to enter the respective value for Outlet Temperature of Cold Fluid, Inlet Temperature of Cold Fluid & Inlet Temperature of Hot Fluid and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

How many ways are there to calculate Effectiveness of HE when Cold Fluid is Min Fluid?

In this formula, Effectiveness of HE when Cold Fluid is Min Fluid uses Outlet Temperature of Cold Fluid, Inlet Temperature of Cold Fluid & Inlet Temperature of Hot Fluid. We can use 2 other way(s) to calculate the same, which is/are as follows -

Effectiveness of HE when Cold Fluid is Min Fluid = (modulus((Inlet Temperature of Cold Fluid-Outlet Temperature of Cold Fluid))/(Inlet Temperature of Hot Fluid-Outlet Temperature of Cold Fluid))
Effectiveness of HE when Cold Fluid is Min Fluid = (modulus((Inlet Temperature of Cold Fluid-Outlet Temperature of Cold Fluid))/(Inlet Temperature of Hot Fluid-Outlet Temperature of Cold Fluid))

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