Simple, full-featured, lightweight CoolProp wrapper for Python

Hydrogen (or other pure species) depressurization calculations

Simple, full-featured, lightweight, cross-platform CoolProp wrapper for C#

Engineering Solver helps to do calculations with units and thermodynamic properties in a very fast way.

A MATLAB tool for the thermodynamic analysis and optimization of Rankine cycles

Cross-platform vapor-compression refrigeration cycles analysis tool

Easy access to thermodynamic fluid properties as a function of temperature and pressure. With a minimal command-line interface.

Jupyter notebook to calculate various initial values of nut, k, epsilon, omega etc., as well as yPlus and other useful parameters

This is a simple example of how to run CoolProp Javascript wrapper with Units handled by mathjs

Live Psychrometric chart

A CoolProp GUI for modeling power and refrigeration cycles & calculating thermodynamic state of pure substances. https://thermo-state.github.io/

🦀 Rusty CoolProp wrapper

Preliminary calculator for Organic Rankine Cycle with GUI

Creation of Thermodynamic Surfaces using CoolProp

Repository for all of my work on modelling thermodynamic cycles using python and coolprop ; Hope this might be useful to someone! :-)

Modelling of actual reheat regenerative Rankine cycle.

Part 2 and 3 of the course project for EN 317 (Thermo-Fluid Devices)

Convert CERA Fortran77 to Python 3.8

Fluid properties using CoolProp, and pipe calculation Python module

Implementing CoolProp on Excel for Apple Silicon-based MacOs systems

A Python-based thermophysical property calculator using CoolProp library with interactive CLI for analyzing fluids, refrigerants, and gases.

No description provided.

CoolProp thermodynamic wrapper for Microsoft Excel, using typical engineering units.

Motor de cálculo termofísico para simulación de pérdidas de presión en tuberías industriales. Desarrollado con Python (FastAPI + CoolProp) y validado con ecuaciones de Darcy-Weisbach

Implementation of coolprop in vue

Python reimplementation of the NASA LIQLEV boundary-layer model for predicting transient cryogenic liquid level rise during zero-gravity tank venting. Supports multiple fluids (LN2, LH2, LOX, LCH4) via CoolProp, parametric sweeps over fill fractions and vent rates, and both constant and transient gravity profiles.

Parallel 2D geometry sweep of the LIQLEV cryogenic liquid level rise model. Runs single-node multiprocessing simulations across tank diameter and height grids with Excel export and contour visualization.

No description provided.

🔥❄️ Professional web-based heat exchanger design tool for HVAC engineers

Python code to plot real gas process using Coolprop