Steady-state simulation of design and partload operation of a wide collection of heat pump topologies.
- Steady-state simulation of design and partload operation based on TESPy
- Parametrization and result visualisation through a Streamlit dashboard
- Industry standard, as well as topologies still in research and developement, supported
- Sub- and transcritical processes
- Wide variety of refrigerants due to the integration of CoolProp
For now, only direct download from the GitHub Repository is supported, so just clone it locally or download a ZIP file of the code. If you are using Miniforge, you can create and activate a clean environment like this:
conda create -n my_new_env python=3.11
conda activate my_new_env
If you want to build the package locally and install it, you should use these commands from the root directory of the repository:
python setup.py sdist bdist_wheel
python -m pip install .
If you want to use an editable version of the package, e.g. if you want to contribute to the project and test your own changes, skip the commands above and use this one:
python -m pip install -e "path/to/the/heatpumps/dir/"
The heatpumps package comes with a command to run the dashboard directly from your terminal. Running the dashboard is as easy as typing the following command:
heatpumps-dashboard
To use the heat pump model classes in your own scripts, you can import them as follows:
from heatpumps.models import HeatPumpSimple, HeatPumpEconIHX
from heatpumps.parameters import get_params
# Simple cycle model
params = get_params('HeatPumpSimple')
params['setup']['refrig'] = 'R1234yf'
params['fluids']['wf'] = 'R1234yf'
params['C3']['T'] = 85 # feed flow temperature of heat sink
params['C1']['T'] = 50 # return flow temperature of heat sink
hp = HeatPumpSimple(params=params)
hp.run_model()
hp.generate_state_diagram(diagram_type='logph')
# Serial compression with closed economizer and internal heat exchanger
econ_type = 'closed'
params = get_params('HeatPumpEconIHX', econ_type=econ_type)
params['ihx']['dT_sh'] = 7.5 # superheating by internal heat exchanger
hp = HeatPumpEconIHX(params=params, econ_type=econ_type)
hp.run_model()
hp.perform_exergy_analysis(print_results=True)
Copyright (c) Jonas Freißmann and Malte Fritz
Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.
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