Binary Activity Thermodynamics (BAT-VBS) model

Fortran version of the Binary Activity Thermodynammics model (BAT-VBS) model (https://github.com/Gorkowski/Binary_Activity_Thermodynamics_Model).

If you use the BAT-VBS model, please cite:

Serrano Damha, C., Cummings, B. E., Schervish, M., Shiraiwa, M., Waring, M. S., & Zuend, A. (2024). Capturing the relative-humidity-sensitive gas–particle partitioning of organic aerosols in a 2D volatility basis set. Geophysical Research Letters, 51, e2023GL106095. https://doi.org/10.1029/2023GL106095
This repository
Gorkowski, K., Preston, T. C., and Zuend, A.: Relative-humidity-dependent organic aerosol thermodynamics via an efficient reduced-complexity model, Atmos. Chem. Phys., 19, 13383–13407, https://doi.org/10.5194/acp-19-13383-2019, 2019.

CONTENT:

Fortran_source_code folder:

*.f90 files: BAT and BAT-VBS models Fortran subroutines (source code)
EXAMPLE_PROGRAM.f90: Standalone Fortran program that illustrates how to run the BAT-VBS model
BATVBS_F2PY: Folder containing the procedure to create a BAT-VBS model extension module that can be imported in Python

Name		Name	Last commit message	Last commit date
Latest commit History 49 Commits
BATVBS_F2PY		BATVBS_F2PY
BATVBS_MAIN.f90		BATVBS_MAIN.f90
BATVBS_MOD.f90		BATVBS_MOD.f90
BAT_MOD.f90		BAT_MOD.f90
CITATION.cff		CITATION.cff
DATATYPE_MOD.f90		DATATYPE_MOD.f90
Data_SerranoDamha_et_al_2024.xlsx		Data_SerranoDamha_et_al_2024.xlsx
EXAMPLE_PROGRAM.f90		EXAMPLE_PROGRAM.f90
LICENSE		LICENSE
MINPACK_MOD.f90		MINPACK_MOD.f90
NN_DATA_MOD.f90		NN_DATA_MOD.f90
NN_MOD.f90		NN_MOD.f90
OBJECTIVE_FUNCTION_MOD.f90		OBJECTIVE_FUNCTION_MOD.f90
OBJECTIVE_FUNCTION_VARIABLES_MOD.f90		OBJECTIVE_FUNCTION_VARIABLES_MOD.f90
PRECISION_MOD.f90		PRECISION_MOD.f90
README.md		README.md
TOOLS_MOD.f90		TOOLS_MOD.f90

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