Bslib

What's Changed
* Update README.md according to institute standards by OfficialCodexplosive in https://github.com/FZJ-IEK3-VSA/bslib/pull/5
* add second generic ac storage with fixed efficiencies by ttjaden in https://github.com/FZJ-IEK3-VSA/bslib/pull/6

**Full Changelog**: https://github.com/FZJ-IEK3-VSA/bslib/compare/v0.6...v0.7

bslib - battery storage library

Repository with code to

- build a **database** with relevant data from PerMod database (HTW Berlin) and "Stromspeicher-Inspektion"
- **simulate** ac- and dc-coupled battery storages with regards to electrical power (ac and dc) and state-of-charge as timeseries.

For the simulation, it is possible to calculate outputs of a **specific manufacturer + model** or alternatively for one of **2 different generic battery storage types**.

**For reference purposes:**
- DOI: [](https://doi.org/10.5281/zenodo.6514527)
- Citation: Kai Rösken, Tjarko Tjaden, & Hauke Hoops. (2022). FZJ-IEK3-VSA/bslib: v0.7. Zenodo. https://doi.org/10.5281/zenodo.6514527

**Full Changelog**: https://github.com/RE-Lab-Projects/bslib/compare/v0.5...v0.6

bslib - battery storage library

Repository with code to

- build a **database** with relevant data from PerMod database (HTW Berlin) and "Stromspeicher-Inspektion"
- **simulate** ac- and dc-coupled battery storages with regards to electrical power (ac and dc) and state-of-charge as timeseries.

For the simulation, it is possible to calculate outputs of a **specific manufacturer + model** or alternatively for one of **2 different generic battery storage types**.

**For reference purposes:**
- DOI: [](https://doi.org/10.5281/zenodo.6514527)
- Citation: Kai Rösken, Tjarko Tjaden, & Hauke Hoops. (2022). RE-Lab-Projects/bslib: v0.6. Zenodo. https://doi.org/10.5281/zenodo.6514527

bslib - battery storage library

Repository with code to

- build a **database** with relevant data from PerMod database (HTW Berlin) and "Stromspeicher-Inspektion"
- **simulate** ac- and dc-coupled battery storages with regards to electrical power (ac and dc) and state-of-charge as timeseries.

For the simulation, it is possible to calculate outputs of a **specific manufacturer + model** or alternatively for one of **2 different generic battery storage types**.

**For reference purposes:**
- DOI: [](https://doi.org/10.5281/zenodo.6514527)
- Citation: Kai Rösken, Tjarko Tjaden, & Hauke Hoops. (2022). RE-Lab-Projects/bslib: v0.5. Zenodo. https://doi.org/10.5281/zenodo.6514527

**Full Changelog**: https://github.com/RE-Lab-Projects/bslib/compare/v0.4...v0.5

bslib - battery storage library

Repository with code to

- build a **database** with relevant data from PerMod database (HTW Berlin) and "Stromspeicher-Inspektion"
- **simulate** ac- and dc-coupled battery storages with regards to electrical power (ac and dc) and state-of-charge as timeseries.

For the simulation, it is possible to calculate outputs of a **specific manufacturer + model** or alternatively for one of **2 different generic battery storage types**.

bslib - battery storage library

Repository with code to

- build a **database** with relevant data from PerMod database (HTW Berlin) and "Stromspeicher-Inspektion"
- **simulate** ac- and dc-coupled battery storages with regards to electrical power (ac and dc) and state-of-charge as timeseries.

For the simulation, it is possible to calculate outputs of a **specific manufacturer + model** or alternatively for one of **2 different generic battery storage types**.

bslib - battery storage library

Repository with code to

- build a **database** with relevant data from PerMod database (HTW Berlin) and "Stromspeicher-Inspektion"
- **simulate** ac- and dc-coupled battery storages with regards to electrical power (ac and dc) and state-of-charge as timeseries.

For the simulation, it is possible to calculate outputs of a **specific manufacturer + model** or alternatively for one of **2 different generic battery storage types**.