Refrigerating Effect given Enthalpy at Inlet of Compressor and Exit of Condenser Solution

STEP 0: Pre-Calculation Summary
Formula Used
Refrigerating Effect = Enthalpy of the Vapour Refrigerant at T1-Sensible Heat at Temperature T3
RE = h1-hf3
This formula uses 3 Variables
Variables Used
Refrigerating Effect - (Measured in Joule per Kilogram) - Refrigerating Effect Produced defines the amount of cooling produced by a system. This cooling is obtained at the expense of some form of energy.
Enthalpy of the Vapour Refrigerant at T1 - (Measured in Joule per Kilogram) - Enthalpy of the vapour refrigerant at T1, i.e at the suction of the compressor.
Sensible Heat at Temperature T3 - (Measured in Joule per Kilogram) - Sensible heat at temperature T3 is the enthalpy of the liquid leaving the condenser.
STEP 1: Convert Input(s) to Base Unit
Enthalpy of the Vapour Refrigerant at T1: 260 Kilojoule per Kilogram --> 260000 Joule per Kilogram (Check conversion here)
Sensible Heat at Temperature T3: 36 Kilojoule per Kilogram --> 36000 Joule per Kilogram (Check conversion here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
RE = h1-hf3 --> 260000-36000
Evaluating ... ...
RE = 224000
STEP 3: Convert Result to Output's Unit
224000 Joule per Kilogram -->224 Kilojoule per Kilogram (Check conversion here)
FINAL ANSWER
224 Kilojoule per Kilogram <-- Refrigerating Effect
(Calculation completed in 00.004 seconds)

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9 Theoretical Vapour compression cycle with Dry Saturated vapour after compression Calculators

Coefficient of Performance given enthalpy of liquid refrigerant leaving condenser (hf3)
Go Theoretical Coefficient of Performance = (Enthalpy of the Vapour Refrigerant at T1-Sensible Heat at Temperature T3)/(Enthalpy of the vapour refrigerant at T2-Enthalpy of the Vapour Refrigerant at T1)
Entropy at point 1
Go Entropy at Point 1 = Liquid Entropy at Point 1+((Dryness Fraction at point 1*Latent Heat of Fusion)/Temperature at the suction of compressor)
Entropy at point 2
Go Entropy at point 2 = Liquid entropy at point 2+((Dryness Fraction at point 2*Latent Heat of Fusion)/Temperature at Discharge of Compressor)
Enthalpy at Point 4 given Liquid Enthalpy at Point 4
Go Enthalpy of the vapour refrigerant at T4 = Liquid Enthalpy at Point 4+(Dryness Fraction at point 4*Latent Heat of Fusion)
Enthalpy at point 2
Go Enthalpy of the vapour refrigerant at T2 = Liquid Enthalpy at Point 2+(Dryness Fraction at point 2*Latent Heat of Fusion)
Enthalpy at point 1 given Liquid enthalpy at point 1
Go Enthalpy of the Vapour Refrigerant at T1 = Liquid Enthalpy at Point 1+Dryness Fraction at point 1*Latent Heat of Fusion
Refrigerating Effect(for given h1 and h4)
Go Refrigerating Effect = Enthalpy of the Vapour Refrigerant at T1-Enthalpy of the vapour refrigerant at T4
Refrigerating Effect given Enthalpy at Inlet of Compressor and Exit of Condenser
Go Refrigerating Effect = Enthalpy of the Vapour Refrigerant at T1-Sensible Heat at Temperature T3
Work done during isentropic compression(per Kg of refrigerant)
Go Work Done = Enthalpy of the vapour refrigerant at T2-Enthalpy of the Vapour Refrigerant at T1

8 Theoretical Vapour compression cycle with Wet vapour after compression Calculators

Coefficient of Performance given enthalpy of liquid refrigerant leaving condenser (hf3)
Go Theoretical Coefficient of Performance = (Enthalpy of the Vapour Refrigerant at T1-Sensible Heat at Temperature T3)/(Enthalpy of the vapour refrigerant at T2-Enthalpy of the Vapour Refrigerant at T1)
Entropy at point 1
Go Entropy at Point 1 = Liquid Entropy at Point 1+((Dryness Fraction at point 1*Latent Heat of Fusion)/Temperature at the suction of compressor)
Entropy at point 2
Go Entropy at point 2 = Liquid entropy at point 2+((Dryness Fraction at point 2*Latent Heat of Fusion)/Temperature at Discharge of Compressor)
Enthalpy at Point 4 given Liquid Enthalpy at Point 4
Go Enthalpy of the vapour refrigerant at T4 = Liquid Enthalpy at Point 4+(Dryness Fraction at point 4*Latent Heat of Fusion)
Enthalpy at point 2
Go Enthalpy of the vapour refrigerant at T2 = Liquid Enthalpy at Point 2+(Dryness Fraction at point 2*Latent Heat of Fusion)
Enthalpy at point 1 given Liquid enthalpy at point 1
Go Enthalpy of the Vapour Refrigerant at T1 = Liquid Enthalpy at Point 1+Dryness Fraction at point 1*Latent Heat of Fusion
Refrigerating Effect(for given h1 and h4)
Go Refrigerating Effect = Enthalpy of the Vapour Refrigerant at T1-Enthalpy of the vapour refrigerant at T4
Refrigerating Effect given Enthalpy at Inlet of Compressor and Exit of Condenser
Go Refrigerating Effect = Enthalpy of the Vapour Refrigerant at T1-Sensible Heat at Temperature T3

8 Theoretical Vapour compression cycle with Superheated vapour after compression Calculators

Coefficient of Performance given enthalpy of liquid refrigerant leaving condenser (hf3)
Go Theoretical Coefficient of Performance = (Enthalpy of the Vapour Refrigerant at T1-Sensible Heat at Temperature T3)/(Enthalpy of the vapour refrigerant at T2-Enthalpy of the Vapour Refrigerant at T1)
Entropy at point 1
Go Entropy at Point 1 = Liquid Entropy at Point 1+((Dryness Fraction at point 1*Latent Heat of Fusion)/Temperature at the suction of compressor)
Entropy at point 2
Go Entropy at point 2 = Liquid entropy at point 2+((Dryness Fraction at point 2*Latent Heat of Fusion)/Temperature at Discharge of Compressor)
Enthalpy at Point 4 given Liquid Enthalpy at Point 4
Go Enthalpy of the vapour refrigerant at T4 = Liquid Enthalpy at Point 4+(Dryness Fraction at point 4*Latent Heat of Fusion)
Enthalpy at point 2
Go Enthalpy of the vapour refrigerant at T2 = Liquid Enthalpy at Point 2+(Dryness Fraction at point 2*Latent Heat of Fusion)
Enthalpy at point 1 given Liquid enthalpy at point 1
Go Enthalpy of the Vapour Refrigerant at T1 = Liquid Enthalpy at Point 1+Dryness Fraction at point 1*Latent Heat of Fusion
Refrigerating Effect(for given h1 and h4)
Go Refrigerating Effect = Enthalpy of the Vapour Refrigerant at T1-Enthalpy of the vapour refrigerant at T4
Refrigerating Effect given Enthalpy at Inlet of Compressor and Exit of Condenser
Go Refrigerating Effect = Enthalpy of the Vapour Refrigerant at T1-Sensible Heat at Temperature T3

8 Theoretical Vapour compression cycle with Superheated vapour before compression Calculators

Coefficient of Performance given enthalpy of liquid refrigerant leaving condenser (hf3)
Go Theoretical Coefficient of Performance = (Enthalpy of the Vapour Refrigerant at T1-Sensible Heat at Temperature T3)/(Enthalpy of the vapour refrigerant at T2-Enthalpy of the Vapour Refrigerant at T1)
Entropy at point 1
Go Entropy at Point 1 = Liquid Entropy at Point 1+((Dryness Fraction at point 1*Latent Heat of Fusion)/Temperature at the suction of compressor)
Entropy at point 2
Go Entropy at point 2 = Liquid entropy at point 2+((Dryness Fraction at point 2*Latent Heat of Fusion)/Temperature at Discharge of Compressor)
Enthalpy at Point 4 given Liquid Enthalpy at Point 4
Go Enthalpy of the vapour refrigerant at T4 = Liquid Enthalpy at Point 4+(Dryness Fraction at point 4*Latent Heat of Fusion)
Enthalpy at point 2
Go Enthalpy of the vapour refrigerant at T2 = Liquid Enthalpy at Point 2+(Dryness Fraction at point 2*Latent Heat of Fusion)
Enthalpy at point 1 given Liquid enthalpy at point 1
Go Enthalpy of the Vapour Refrigerant at T1 = Liquid Enthalpy at Point 1+Dryness Fraction at point 1*Latent Heat of Fusion
Refrigerating Effect(for given h1 and h4)
Go Refrigerating Effect = Enthalpy of the Vapour Refrigerant at T1-Enthalpy of the vapour refrigerant at T4
Refrigerating Effect given Enthalpy at Inlet of Compressor and Exit of Condenser
Go Refrigerating Effect = Enthalpy of the Vapour Refrigerant at T1-Sensible Heat at Temperature T3

8 Theoretical Vapour compression cycle with Under-cooling or sub-cooling if refrigerant Calculators

Coefficient of Performance given enthalpy of liquid refrigerant leaving condenser (hf3)
Go Theoretical Coefficient of Performance = (Enthalpy of the Vapour Refrigerant at T1-Sensible Heat at Temperature T3)/(Enthalpy of the vapour refrigerant at T2-Enthalpy of the Vapour Refrigerant at T1)
Entropy at point 1
Go Entropy at Point 1 = Liquid Entropy at Point 1+((Dryness Fraction at point 1*Latent Heat of Fusion)/Temperature at the suction of compressor)
Entropy at point 2
Go Entropy at point 2 = Liquid entropy at point 2+((Dryness Fraction at point 2*Latent Heat of Fusion)/Temperature at Discharge of Compressor)
Enthalpy at Point 4 given Liquid Enthalpy at Point 4
Go Enthalpy of the vapour refrigerant at T4 = Liquid Enthalpy at Point 4+(Dryness Fraction at point 4*Latent Heat of Fusion)
Enthalpy at point 2
Go Enthalpy of the vapour refrigerant at T2 = Liquid Enthalpy at Point 2+(Dryness Fraction at point 2*Latent Heat of Fusion)
Enthalpy at point 1 given Liquid enthalpy at point 1
Go Enthalpy of the Vapour Refrigerant at T1 = Liquid Enthalpy at Point 1+Dryness Fraction at point 1*Latent Heat of Fusion
Refrigerating Effect(for given h1 and h4)
Go Refrigerating Effect = Enthalpy of the Vapour Refrigerant at T1-Enthalpy of the vapour refrigerant at T4
Refrigerating Effect given Enthalpy at Inlet of Compressor and Exit of Condenser
Go Refrigerating Effect = Enthalpy of the Vapour Refrigerant at T1-Sensible Heat at Temperature T3

Refrigerating Effect given Enthalpy at Inlet of Compressor and Exit of Condenser Formula

Refrigerating Effect = Enthalpy of the Vapour Refrigerant at T1-Sensible Heat at Temperature T3
RE = h1-hf3

What is Refrigerating Effect?

Refrigerating Effect Produced defines the amount of cooling produced by a system. This cooling is obtained at the expense of some form of energy.

How to Calculate Refrigerating Effect given Enthalpy at Inlet of Compressor and Exit of Condenser?

Refrigerating Effect given Enthalpy at Inlet of Compressor and Exit of Condenser calculator uses Refrigerating Effect = Enthalpy of the Vapour Refrigerant at T1-Sensible Heat at Temperature T3 to calculate the Refrigerating Effect, The Refrigerating Effect given Enthalpy at Inlet of Compressor and Exit of Condenser formula is defined as the difference between the temperatures at the entry and enthalpy of liquid refrigerant leaving the condenser. Refrigerating Effect is denoted by RE symbol.

How to calculate Refrigerating Effect given Enthalpy at Inlet of Compressor and Exit of Condenser using this online calculator? To use this online calculator for Refrigerating Effect given Enthalpy at Inlet of Compressor and Exit of Condenser, enter Enthalpy of the Vapour Refrigerant at T1 (h1) & Sensible Heat at Temperature T3 (hf3) and hit the calculate button. Here is how the Refrigerating Effect given Enthalpy at Inlet of Compressor and Exit of Condenser calculation can be explained with given input values -> 0.224 = 260000-36000.

FAQ

What is Refrigerating Effect given Enthalpy at Inlet of Compressor and Exit of Condenser?
The Refrigerating Effect given Enthalpy at Inlet of Compressor and Exit of Condenser formula is defined as the difference between the temperatures at the entry and enthalpy of liquid refrigerant leaving the condenser and is represented as RE = h1-hf3 or Refrigerating Effect = Enthalpy of the Vapour Refrigerant at T1-Sensible Heat at Temperature T3. Enthalpy of the vapour refrigerant at T1, i.e at the suction of the compressor & Sensible heat at temperature T3 is the enthalpy of the liquid leaving the condenser.
How to calculate Refrigerating Effect given Enthalpy at Inlet of Compressor and Exit of Condenser?
The Refrigerating Effect given Enthalpy at Inlet of Compressor and Exit of Condenser formula is defined as the difference between the temperatures at the entry and enthalpy of liquid refrigerant leaving the condenser is calculated using Refrigerating Effect = Enthalpy of the Vapour Refrigerant at T1-Sensible Heat at Temperature T3. To calculate Refrigerating Effect given Enthalpy at Inlet of Compressor and Exit of Condenser, you need Enthalpy of the Vapour Refrigerant at T1 (h1) & Sensible Heat at Temperature T3 (hf3). With our tool, you need to enter the respective value for Enthalpy of the Vapour Refrigerant at T1 & Sensible Heat at Temperature T3 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 Refrigerating Effect?
In this formula, Refrigerating Effect uses Enthalpy of the Vapour Refrigerant at T1 & Sensible Heat at Temperature T3. We can use 5 other way(s) to calculate the same, which is/are as follows -
  • Refrigerating Effect = Enthalpy of the Vapour Refrigerant at T1-Enthalpy of the vapour refrigerant at T4
  • Refrigerating Effect = Enthalpy of the Vapour Refrigerant at T1-Enthalpy of the vapour refrigerant at T4
  • Refrigerating Effect = Enthalpy of the Vapour Refrigerant at T1-Enthalpy of the vapour refrigerant at T4
  • Refrigerating Effect = Enthalpy of the Vapour Refrigerant at T1-Enthalpy of the vapour refrigerant at T4
  • Refrigerating Effect = Enthalpy of the Vapour Refrigerant at T1-Enthalpy of the vapour refrigerant at T4
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