CHEMISTRYPhysical ChemistryChemistry Calculator
⚗️

Joule-Thomson

Calculate Joule-Thomson coefficient, temperature change during throttling, and inversion temperature for gases using thermodynamic principles.

Run the CalculationExplore molecular and chemical calculations
❄️Joule-Thomson EffectμJT = (∂T/∂P)H | ΔT = μJT × ΔP | Ti = 2a/(Rb)

Compact Examples

❄️ Nitrogen Gas Cooling
Nitrogen throttling from 10 atm to 1 atm at 25°C - Gas liquefaction
🔥 Hydrogen Heating
Hydrogen expansion at room temperature - Negative JT effect
🧊 CO₂ Refrigeration
Carbon dioxide throttling for refrigeration applications
🌡️ Nitrogen Inversion Temperature
Calculate inversion temperature for nitrogen gas
💧 Methane Liquefaction
Methane throttling process for natural gas liquefaction
🏥 Medical Oxygen
Oxygen expansion in medical applications
🎈 Helium Analysis
Helium always heats on expansion - No cooling effect

Inputs

Input Parameters

Select the type of calculation to perform
Select the gas type or use custom parameters
Initial temperature in Celsius
Pressure
Unit for pressure measurements
Number of significant figures for results

For educational and informational purposes only. Verify with a qualified professional.

📋 Key Takeaways

  • μJT = (∂T/∂P)H | Temperature change per pressure at constant H
  • ΔT = μJT × ΔP | Throttling temperature change
  • Ti = 2a/(Rb) | Inversion temperature (van der Waals)
  • μJT > 0 | Cooling; μJT < 0 | Heating

Did You Know?

❄️

N₂ cools on expansion at room T; used for liquid nitrogen.

Source: Cryogenics

🔥

H₂ and He heat on expansion at room T (above Ti).

Source: Thermodynamics

🧊

CO₂ has high Ti ≈ 1500 K; strong cooling effect.

Source: Refrigeration

⚛️

Ideal gas: μJT = 0 (no temp change).

Source: Kinetic theory

📐

μJT ≈ (2a/(RT) - b) / Cp for van der Waals gas.

Source: VdW equation

🌡️

Throttling is isenthalpic (constant H).

Source: First law

How the Joule-Thomson Calculator Works

Select gas, enter T and P. Calculator uses van der Waals to find μJT, ΔT, or Ti.

μJT

(2a/(RT) - b) / Cp

ΔT

μJT × (P₂ - P₁)

Expert Tips

Gas Database

N₂, O₂, H₂, He, Ar, CO₂, CH₄ with VdW params.

Inversion

Below Ti: cool; above Ti: heat.

Custom

Enter a, b, Cp for custom gas.

Units

Use atm, bar, kPa, or psi.

Gas Inversion Temperatures (K)

GasTi (K)
Nitrogen621
Oxygen764
Hydrogen202
Helium40
Argon723
Carbon Dioxide1500

FAQ

What is Joule-Thomson effect?

Temp change when gas throttles at constant H. Real gases cool or heat.

Why does N₂ cool?

Below inversion temp; μJT &gt; 0. Intermolecular attraction dominates.

Why does H₂ heat?

Above Ti at room T. Repulsion dominates.

What is Ti?

Temp where μJT = 0. Ti = 2a/(Rb) for VdW.

Ideal gas μJT?

Zero. No temp change on throttling.

Applications?

LNG, liquid N₂, refrigeration, cryogenics.

Key Numbers

621
N₂ Ti (K)
202
H₂ Ti (K)
40
He Ti (K)
1500
CO₂ Ti (K)

📚 Official Sources

NIST Thermophysical Properties ↗
J-T coefficients and thermophysical data for gases
IUPAC Gold Book ↗
Joule-Thomson effect definitions and terminology
Perry's Chemical Engineers' Handbook ↗
Gas properties and Joule-Thomson data

⚠️ Disclaimer: Uses van der Waals. Consult NIST for precise J-T data.

🚀 DIVING IN
🏊Let's explore the numbers!
AI

Related Calculators

Entropy Calculator

Calculate entropy changes using various formulas: heat transfer, volume/pressure changes, Boltzmann entropy, and reaction entropies.

Chemistry

Vapor Pressure Calculator

Calculate vapor pressure at different temperatures using Clausius-Clapeyron equation and Antoine equation. Supports common substances and custom calculations.

Chemistry

Clausius-Clapeyron Calculator

Calculate vapor pressure at different temperatures, enthalpy of vaporization, and boiling points using the Clausius-Clapeyron equation for phase equilibrium...

Chemistry

Heat Capacity Calculator

Calculate heat capacity, heat transfer, and calorimetry results using specific heat capacity (q = mcΔT), molar heat capacity (q = CΔT), Cp/Cv ratios, and...

Chemistry

Hess's Law Calculator

Calculate reaction enthalpy using Hess's Law: ΔH°rxn = ΣΔH°f(products) - ΣΔH°f(reactants). Supports multiple reactants and products with comprehensive enthalpy database.

Chemistry

Enthalpy of Vaporization Calculator

Calculate enthalpy of vaporization from Clausius-Clapeyron data, heat required for phase transitions (q = nΔHvap), and Trouton's Rule estimation for chemical thermodynamics calculations.

Chemistry