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EOS/docs/_generated/config.md
Bobby Noelte 18b580cabe
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fix: ensure EV charge rates settings available
Allow charge rates for electric vehicle to be provided by the POST
optimize endpoint. Create a default value in case neither the
parameters nor the configuration provide charge rates.

This is also to allow to migrate from 0.1.0 configuration format
to actual one.

Signed-off-by: Bobby Noelte <b0661n0e17e@gmail.com>
2025-10-30 17:25:26 +01:00

1999 lines
67 KiB
Markdown

# Configuration Table
## Settings for common configuration
General configuration to set directories of cache and output files and system location (latitude
and longitude).
Validators ensure each parameter is within a specified range. A computed property, `timezone`,
determines the time zone based on latitude and longitude.
Attributes:
latitude (Optional[float]): Latitude in degrees, must be between -90 and 90.
longitude (Optional[float]): Longitude in degrees, must be between -180 and 180.
Properties:
timezone (Optional[str]): Computed time zone string based on the specified latitude
and longitude.
:::{table} general
:widths: 10 20 10 5 5 30
:align: left
| Name | Environment Variable | Type | Read-Only | Default | Description |
| ---- | -------------------- | ---- | --------- | ------- | ----------- |
| version | `EOS_GENERAL__VERSION` | `str` | `rw` | `0.1.0+dev` | Configuration file version. Used to check compatibility. |
| data_folder_path | `EOS_GENERAL__DATA_FOLDER_PATH` | `Optional[pathlib.Path]` | `rw` | `None` | Path to EOS data directory. |
| data_output_subpath | `EOS_GENERAL__DATA_OUTPUT_SUBPATH` | `Optional[pathlib.Path]` | `rw` | `output` | Sub-path for the EOS output data directory. |
| latitude | `EOS_GENERAL__LATITUDE` | `Optional[float]` | `rw` | `52.52` | Latitude in decimal degrees, between -90 and 90, north is positive (ISO 19115) (°) |
| longitude | `EOS_GENERAL__LONGITUDE` | `Optional[float]` | `rw` | `13.405` | Longitude in decimal degrees, within -180 to 180 (°) |
| timezone | | `Optional[str]` | `ro` | `N/A` | Compute timezone based on latitude and longitude. |
| data_output_path | | `Optional[pathlib.Path]` | `ro` | `N/A` | Compute data_output_path based on data_folder_path. |
| config_folder_path | | `Optional[pathlib.Path]` | `ro` | `N/A` | Path to EOS configuration directory. |
| config_file_path | | `Optional[pathlib.Path]` | `ro` | `N/A` | Path to EOS configuration file. |
:::
### Example Input
```{eval-rst}
.. code-block:: json
{
"general": {
"version": "0.1.0+dev",
"data_folder_path": null,
"data_output_subpath": "output",
"latitude": 52.52,
"longitude": 13.405
}
}
```
### Example Output
```{eval-rst}
.. code-block:: json
{
"general": {
"version": "0.1.0+dev",
"data_folder_path": null,
"data_output_subpath": "output",
"latitude": 52.52,
"longitude": 13.405,
"timezone": "Europe/Berlin",
"data_output_path": null,
"config_folder_path": "/home/user/.config/net.akkudoktoreos.net",
"config_file_path": "/home/user/.config/net.akkudoktoreos.net/EOS.config.json"
}
}
```
## Cache Configuration
:::{table} cache
:widths: 10 20 10 5 5 30
:align: left
| Name | Environment Variable | Type | Read-Only | Default | Description |
| ---- | -------------------- | ---- | --------- | ------- | ----------- |
| subpath | `EOS_CACHE__SUBPATH` | `Optional[pathlib.Path]` | `rw` | `cache` | Sub-path for the EOS cache data directory. |
| cleanup_interval | `EOS_CACHE__CLEANUP_INTERVAL` | `float` | `rw` | `300` | Intervall in seconds for EOS file cache cleanup. |
:::
### Example Input/Output
```{eval-rst}
.. code-block:: json
{
"cache": {
"subpath": "cache",
"cleanup_interval": 300.0
}
}
```
## Energy Management Configuration
:::{table} ems
:widths: 10 20 10 5 5 30
:align: left
| Name | Environment Variable | Type | Read-Only | Default | Description |
| ---- | -------------------- | ---- | --------- | ------- | ----------- |
| startup_delay | `EOS_EMS__STARTUP_DELAY` | `float` | `rw` | `5` | Startup delay in seconds for EOS energy management runs. |
| interval | `EOS_EMS__INTERVAL` | `Optional[float]` | `rw` | `None` | Intervall in seconds between EOS energy management runs. |
| mode | `EOS_EMS__MODE` | `Optional[akkudoktoreos.core.emsettings.EnergyManagementMode]` | `rw` | `None` | Energy management mode [OPTIMIZATION | PREDICTION]. |
:::
### Example Input/Output
```{eval-rst}
.. code-block:: json
{
"ems": {
"startup_delay": 5.0,
"interval": 300.0,
"mode": "OPTIMIZATION"
}
}
```
## Logging Configuration
:::{table} logging
:widths: 10 20 10 5 5 30
:align: left
| Name | Environment Variable | Type | Read-Only | Default | Description |
| ---- | -------------------- | ---- | --------- | ------- | ----------- |
| console_level | `EOS_LOGGING__CONSOLE_LEVEL` | `Optional[str]` | `rw` | `None` | Logging level when logging to console. |
| file_level | `EOS_LOGGING__FILE_LEVEL` | `Optional[str]` | `rw` | `None` | Logging level when logging to file. |
| file_path | | `Optional[pathlib.Path]` | `ro` | `N/A` | Computed log file path based on data output path. |
:::
### Example Input
```{eval-rst}
.. code-block:: json
{
"logging": {
"console_level": "TRACE",
"file_level": "TRACE"
}
}
```
### Example Output
```{eval-rst}
.. code-block:: json
{
"logging": {
"console_level": "TRACE",
"file_level": "TRACE",
"file_path": "/home/user/.local/share/net.akkudoktoreos.net/output/eos.log"
}
}
```
## Base configuration for devices simulation settings
:::{table} devices
:widths: 10 20 10 5 5 30
:align: left
| Name | Environment Variable | Type | Read-Only | Default | Description |
| ---- | -------------------- | ---- | --------- | ------- | ----------- |
| batteries | `EOS_DEVICES__BATTERIES` | `Optional[list[akkudoktoreos.devices.devices.BatteriesCommonSettings]]` | `rw` | `None` | List of battery devices |
| max_batteries | `EOS_DEVICES__MAX_BATTERIES` | `Optional[int]` | `rw` | `None` | Maximum number of batteries that can be set |
| electric_vehicles | `EOS_DEVICES__ELECTRIC_VEHICLES` | `Optional[list[akkudoktoreos.devices.devices.BatteriesCommonSettings]]` | `rw` | `None` | List of electric vehicle devices |
| max_electric_vehicles | `EOS_DEVICES__MAX_ELECTRIC_VEHICLES` | `Optional[int]` | `rw` | `None` | Maximum number of electric vehicles that can be set |
| inverters | `EOS_DEVICES__INVERTERS` | `Optional[list[akkudoktoreos.devices.devices.InverterCommonSettings]]` | `rw` | `None` | List of inverters |
| max_inverters | `EOS_DEVICES__MAX_INVERTERS` | `Optional[int]` | `rw` | `None` | Maximum number of inverters that can be set |
| home_appliances | `EOS_DEVICES__HOME_APPLIANCES` | `Optional[list[akkudoktoreos.devices.devices.HomeApplianceCommonSettings]]` | `rw` | `None` | List of home appliances |
| max_home_appliances | `EOS_DEVICES__MAX_HOME_APPLIANCES` | `Optional[int]` | `rw` | `None` | Maximum number of home_appliances that can be set |
| measurement_keys | | `Optional[list[str]]` | `ro` | `N/A` | Return the measurement keys for the resource/ device stati that are measurements. |
:::
### Example Input
```{eval-rst}
.. code-block:: json
{
"devices": {
"batteries": [
{
"device_id": "battery1",
"capacity_wh": 8000,
"charging_efficiency": 0.88,
"discharging_efficiency": 0.88,
"levelized_cost_of_storage_kwh": 0.0,
"max_charge_power_w": 5000,
"min_charge_power_w": 50,
"charge_rates": null,
"min_soc_percentage": 0,
"max_soc_percentage": 100,
"measurement_key_soc_factor": "battery1-soc-factor",
"measurement_key_power_l1_w": "battery1-power-l1-w",
"measurement_key_power_l2_w": "battery1-power-l2-w",
"measurement_key_power_l3_w": "battery1-power-l3-w",
"measurement_key_power_3_phase_sym_w": "battery1-power-3-phase-sym-w",
"measurement_keys": [
"battery1-soc-factor",
"battery1-power-l1-w",
"battery1-power-l2-w",
"battery1-power-l3-w",
"battery1-power-3-phase-sym-w"
]
}
],
"max_batteries": 1,
"electric_vehicles": [
{
"device_id": "battery1",
"capacity_wh": 8000,
"charging_efficiency": 0.88,
"discharging_efficiency": 0.88,
"levelized_cost_of_storage_kwh": 0.0,
"max_charge_power_w": 5000,
"min_charge_power_w": 50,
"charge_rates": null,
"min_soc_percentage": 0,
"max_soc_percentage": 100,
"measurement_key_soc_factor": "battery1-soc-factor",
"measurement_key_power_l1_w": "battery1-power-l1-w",
"measurement_key_power_l2_w": "battery1-power-l2-w",
"measurement_key_power_l3_w": "battery1-power-l3-w",
"measurement_key_power_3_phase_sym_w": "battery1-power-3-phase-sym-w",
"measurement_keys": [
"battery1-soc-factor",
"battery1-power-l1-w",
"battery1-power-l2-w",
"battery1-power-l3-w",
"battery1-power-3-phase-sym-w"
]
}
],
"max_electric_vehicles": 1,
"inverters": [],
"max_inverters": 1,
"home_appliances": [],
"max_home_appliances": 1
}
}
```
### Example Output
```{eval-rst}
.. code-block:: json
{
"devices": {
"batteries": [
{
"device_id": "battery1",
"capacity_wh": 8000,
"charging_efficiency": 0.88,
"discharging_efficiency": 0.88,
"levelized_cost_of_storage_kwh": 0.0,
"max_charge_power_w": 5000,
"min_charge_power_w": 50,
"charge_rates": null,
"min_soc_percentage": 0,
"max_soc_percentage": 100,
"measurement_key_soc_factor": "battery1-soc-factor",
"measurement_key_power_l1_w": "battery1-power-l1-w",
"measurement_key_power_l2_w": "battery1-power-l2-w",
"measurement_key_power_l3_w": "battery1-power-l3-w",
"measurement_key_power_3_phase_sym_w": "battery1-power-3-phase-sym-w",
"measurement_keys": [
"battery1-soc-factor",
"battery1-power-l1-w",
"battery1-power-l2-w",
"battery1-power-l3-w",
"battery1-power-3-phase-sym-w"
]
}
],
"max_batteries": 1,
"electric_vehicles": [
{
"device_id": "battery1",
"capacity_wh": 8000,
"charging_efficiency": 0.88,
"discharging_efficiency": 0.88,
"levelized_cost_of_storage_kwh": 0.0,
"max_charge_power_w": 5000,
"min_charge_power_w": 50,
"charge_rates": null,
"min_soc_percentage": 0,
"max_soc_percentage": 100,
"measurement_key_soc_factor": "battery1-soc-factor",
"measurement_key_power_l1_w": "battery1-power-l1-w",
"measurement_key_power_l2_w": "battery1-power-l2-w",
"measurement_key_power_l3_w": "battery1-power-l3-w",
"measurement_key_power_3_phase_sym_w": "battery1-power-3-phase-sym-w",
"measurement_keys": [
"battery1-soc-factor",
"battery1-power-l1-w",
"battery1-power-l2-w",
"battery1-power-l3-w",
"battery1-power-3-phase-sym-w"
]
}
],
"max_electric_vehicles": 1,
"inverters": [],
"max_inverters": 1,
"home_appliances": [],
"max_home_appliances": 1,
"measurement_keys": [
"battery1-soc-factor",
"battery1-power-l1-w",
"battery1-power-l2-w",
"battery1-power-l3-w",
"battery1-power-3-phase-sym-w",
"battery1-soc-factor",
"battery1-power-l1-w",
"battery1-power-l2-w",
"battery1-power-l3-w",
"battery1-power-3-phase-sym-w"
]
}
}
```
### Home Appliance devices base settings
:::{table} devices::home_appliances::list
:widths: 10 10 5 5 30
:align: left
| Name | Type | Read-Only | Default | Description |
| ---- | ---- | --------- | ------- | ----------- |
| device_id | `str` | `rw` | `<unknown>` | ID of device |
| consumption_wh | `int` | `rw` | `required` | Energy consumption [Wh]. |
| duration_h | `int` | `rw` | `required` | Usage duration in hours [0 ... 24]. |
| time_windows | `Optional[akkudoktoreos.utils.datetimeutil.TimeWindowSequence]` | `rw` | `None` | Sequence of allowed time windows. Defaults to optimization general time window. |
| measurement_keys | `Optional[list[str]]` | `ro` | `N/A` | Measurement keys for the home appliance stati that are measurements. |
:::
#### Example Input
```{eval-rst}
.. code-block:: json
{
"devices": {
"home_appliances": [
{
"device_id": "battery1",
"consumption_wh": 2000,
"duration_h": 1,
"time_windows": {
"windows": [
{
"start_time": "10:00:00.000000 Europe/Berlin",
"duration": "2 hours",
"day_of_week": null,
"date": null,
"locale": null
}
]
}
},
{
"device_id": "ev1",
"consumption_wh": 2000,
"duration_h": 1,
"time_windows": {
"windows": [
{
"start_time": "10:00:00.000000 Europe/Berlin",
"duration": "2 hours",
"day_of_week": null,
"date": null,
"locale": null
}
]
}
},
{
"device_id": "inverter1",
"consumption_wh": 2000,
"duration_h": 1,
"time_windows": {
"windows": [
{
"start_time": "10:00:00.000000 Europe/Berlin",
"duration": "2 hours",
"day_of_week": null,
"date": null,
"locale": null
}
]
}
},
{
"device_id": "dishwasher",
"consumption_wh": 2000,
"duration_h": 1,
"time_windows": {
"windows": [
{
"start_time": "10:00:00.000000 Europe/Berlin",
"duration": "2 hours",
"day_of_week": null,
"date": null,
"locale": null
}
]
}
}
]
}
}
```
#### Example Output
```{eval-rst}
.. code-block:: json
{
"devices": {
"home_appliances": [
{
"device_id": "battery1",
"consumption_wh": 2000,
"duration_h": 1,
"time_windows": {
"windows": [
{
"start_time": "10:00:00.000000 Europe/Berlin",
"duration": "2 hours",
"day_of_week": null,
"date": null,
"locale": null
}
]
},
"measurement_keys": []
},
{
"device_id": "ev1",
"consumption_wh": 2000,
"duration_h": 1,
"time_windows": {
"windows": [
{
"start_time": "10:00:00.000000 Europe/Berlin",
"duration": "2 hours",
"day_of_week": null,
"date": null,
"locale": null
}
]
},
"measurement_keys": []
},
{
"device_id": "inverter1",
"consumption_wh": 2000,
"duration_h": 1,
"time_windows": {
"windows": [
{
"start_time": "10:00:00.000000 Europe/Berlin",
"duration": "2 hours",
"day_of_week": null,
"date": null,
"locale": null
}
]
},
"measurement_keys": []
},
{
"device_id": "dishwasher",
"consumption_wh": 2000,
"duration_h": 1,
"time_windows": {
"windows": [
{
"start_time": "10:00:00.000000 Europe/Berlin",
"duration": "2 hours",
"day_of_week": null,
"date": null,
"locale": null
}
]
},
"measurement_keys": []
}
]
}
}
```
### Inverter devices base settings
:::{table} devices::inverters::list
:widths: 10 10 5 5 30
:align: left
| Name | Type | Read-Only | Default | Description |
| ---- | ---- | --------- | ------- | ----------- |
| device_id | `str` | `rw` | `<unknown>` | ID of device |
| max_power_w | `Optional[float]` | `rw` | `None` | Maximum power [W]. |
| battery_id | `Optional[str]` | `rw` | `None` | ID of battery controlled by this inverter. |
| measurement_keys | `Optional[list[str]]` | `ro` | `N/A` | Measurement keys for the inverter stati that are measurements. |
:::
#### Example Input
```{eval-rst}
.. code-block:: json
{
"devices": {
"inverters": [
{
"device_id": "battery1",
"max_power_w": 10000.0,
"battery_id": null
},
{
"device_id": "ev1",
"max_power_w": 10000.0,
"battery_id": "battery1"
},
{
"device_id": "inverter1",
"max_power_w": 10000.0,
"battery_id": "battery1"
},
{
"device_id": "dishwasher",
"max_power_w": 10000.0,
"battery_id": "battery1"
}
]
}
}
```
#### Example Output
```{eval-rst}
.. code-block:: json
{
"devices": {
"inverters": [
{
"device_id": "battery1",
"max_power_w": 10000.0,
"battery_id": null,
"measurement_keys": []
},
{
"device_id": "ev1",
"max_power_w": 10000.0,
"battery_id": "battery1",
"measurement_keys": []
},
{
"device_id": "inverter1",
"max_power_w": 10000.0,
"battery_id": "battery1",
"measurement_keys": []
},
{
"device_id": "dishwasher",
"max_power_w": 10000.0,
"battery_id": "battery1",
"measurement_keys": []
}
]
}
}
```
### Battery devices base settings
:::{table} devices::batteries::list
:widths: 10 10 5 5 30
:align: left
| Name | Type | Read-Only | Default | Description |
| ---- | ---- | --------- | ------- | ----------- |
| device_id | `str` | `rw` | `<unknown>` | ID of device |
| capacity_wh | `int` | `rw` | `8000` | Capacity [Wh]. |
| charging_efficiency | `float` | `rw` | `0.88` | Charging efficiency [0.01 ... 1.00]. |
| discharging_efficiency | `float` | `rw` | `0.88` | Discharge efficiency [0.01 ... 1.00]. |
| levelized_cost_of_storage_kwh | `float` | `rw` | `0.0` | Levelized cost of storage (LCOS), the average lifetime cost of delivering one kWh [€/kWh]. |
| max_charge_power_w | `Optional[float]` | `rw` | `5000` | Maximum charging power [W]. |
| min_charge_power_w | `Optional[float]` | `rw` | `50` | Minimum charging power [W]. |
| charge_rates | `Optional[list[float]]` | `rw` | `None` | Charge rates as factor of maximum charging power [0.00 ... 1.00]. None denotes all charge rates are available. |
| min_soc_percentage | `int` | `rw` | `0` | Minimum state of charge (SOC) as percentage of capacity [%]. This is the target SoC for charging |
| max_soc_percentage | `int` | `rw` | `100` | Maximum state of charge (SOC) as percentage of capacity [%]. |
| measurement_key_soc_factor | `str` | `ro` | `N/A` | Measurement key for the battery state of charge (SoC) as factor of total capacity [0.0 ... 1.0]. |
| measurement_key_power_l1_w | `str` | `ro` | `N/A` | Measurement key for the L1 power the battery is charged or discharged with [W]. |
| measurement_key_power_l2_w | `str` | `ro` | `N/A` | Measurement key for the L2 power the battery is charged or discharged with [W]. |
| measurement_key_power_l3_w | `str` | `ro` | `N/A` | Measurement key for the L3 power the battery is charged or discharged with [W]. |
| measurement_key_power_3_phase_sym_w | `str` | `ro` | `N/A` | Measurement key for the symmetric 3 phase power the battery is charged or discharged with [W]. |
| measurement_keys | `Optional[list[str]]` | `ro` | `N/A` | Measurement keys for the battery stati that are measurements.
Battery SoC, power. |
:::
#### Example Input
```{eval-rst}
.. code-block:: json
{
"devices": {
"batteries": [
{
"device_id": "battery1",
"capacity_wh": 8000,
"charging_efficiency": 0.88,
"discharging_efficiency": 0.88,
"levelized_cost_of_storage_kwh": 0.12,
"max_charge_power_w": 5000.0,
"min_charge_power_w": 50.0,
"charge_rates": [
0.0,
0.25,
0.5,
0.75,
1.0
],
"min_soc_percentage": 10,
"max_soc_percentage": 100
},
{
"device_id": "ev1",
"capacity_wh": 8000,
"charging_efficiency": 0.88,
"discharging_efficiency": 0.88,
"levelized_cost_of_storage_kwh": 0.12,
"max_charge_power_w": 5000.0,
"min_charge_power_w": 50.0,
"charge_rates": null,
"min_soc_percentage": 10,
"max_soc_percentage": 100
},
{
"device_id": "inverter1",
"capacity_wh": 8000,
"charging_efficiency": 0.88,
"discharging_efficiency": 0.88,
"levelized_cost_of_storage_kwh": 0.12,
"max_charge_power_w": 5000.0,
"min_charge_power_w": 50.0,
"charge_rates": null,
"min_soc_percentage": 10,
"max_soc_percentage": 100
},
{
"device_id": "dishwasher",
"capacity_wh": 8000,
"charging_efficiency": 0.88,
"discharging_efficiency": 0.88,
"levelized_cost_of_storage_kwh": 0.12,
"max_charge_power_w": 5000.0,
"min_charge_power_w": 50.0,
"charge_rates": null,
"min_soc_percentage": 10,
"max_soc_percentage": 100
}
]
}
}
```
#### Example Output
```{eval-rst}
.. code-block:: json
{
"devices": {
"batteries": [
{
"device_id": "battery1",
"capacity_wh": 8000,
"charging_efficiency": 0.88,
"discharging_efficiency": 0.88,
"levelized_cost_of_storage_kwh": 0.12,
"max_charge_power_w": 5000.0,
"min_charge_power_w": 50.0,
"charge_rates": [
0.0,
0.25,
0.5,
0.75,
1.0
],
"min_soc_percentage": 10,
"max_soc_percentage": 100,
"measurement_key_soc_factor": "battery1-soc-factor",
"measurement_key_power_l1_w": "battery1-power-l1-w",
"measurement_key_power_l2_w": "battery1-power-l2-w",
"measurement_key_power_l3_w": "battery1-power-l3-w",
"measurement_key_power_3_phase_sym_w": "battery1-power-3-phase-sym-w",
"measurement_keys": [
"battery1-soc-factor",
"battery1-power-l1-w",
"battery1-power-l2-w",
"battery1-power-l3-w",
"battery1-power-3-phase-sym-w"
]
},
{
"device_id": "ev1",
"capacity_wh": 8000,
"charging_efficiency": 0.88,
"discharging_efficiency": 0.88,
"levelized_cost_of_storage_kwh": 0.12,
"max_charge_power_w": 5000.0,
"min_charge_power_w": 50.0,
"charge_rates": null,
"min_soc_percentage": 10,
"max_soc_percentage": 100,
"measurement_key_soc_factor": "ev1-soc-factor",
"measurement_key_power_l1_w": "ev1-power-l1-w",
"measurement_key_power_l2_w": "ev1-power-l2-w",
"measurement_key_power_l3_w": "ev1-power-l3-w",
"measurement_key_power_3_phase_sym_w": "ev1-power-3-phase-sym-w",
"measurement_keys": [
"ev1-soc-factor",
"ev1-power-l1-w",
"ev1-power-l2-w",
"ev1-power-l3-w",
"ev1-power-3-phase-sym-w"
]
},
{
"device_id": "inverter1",
"capacity_wh": 8000,
"charging_efficiency": 0.88,
"discharging_efficiency": 0.88,
"levelized_cost_of_storage_kwh": 0.12,
"max_charge_power_w": 5000.0,
"min_charge_power_w": 50.0,
"charge_rates": null,
"min_soc_percentage": 10,
"max_soc_percentage": 100,
"measurement_key_soc_factor": "inverter1-soc-factor",
"measurement_key_power_l1_w": "inverter1-power-l1-w",
"measurement_key_power_l2_w": "inverter1-power-l2-w",
"measurement_key_power_l3_w": "inverter1-power-l3-w",
"measurement_key_power_3_phase_sym_w": "inverter1-power-3-phase-sym-w",
"measurement_keys": [
"inverter1-soc-factor",
"inverter1-power-l1-w",
"inverter1-power-l2-w",
"inverter1-power-l3-w",
"inverter1-power-3-phase-sym-w"
]
},
{
"device_id": "dishwasher",
"capacity_wh": 8000,
"charging_efficiency": 0.88,
"discharging_efficiency": 0.88,
"levelized_cost_of_storage_kwh": 0.12,
"max_charge_power_w": 5000.0,
"min_charge_power_w": 50.0,
"charge_rates": null,
"min_soc_percentage": 10,
"max_soc_percentage": 100,
"measurement_key_soc_factor": "dishwasher-soc-factor",
"measurement_key_power_l1_w": "dishwasher-power-l1-w",
"measurement_key_power_l2_w": "dishwasher-power-l2-w",
"measurement_key_power_l3_w": "dishwasher-power-l3-w",
"measurement_key_power_3_phase_sym_w": "dishwasher-power-3-phase-sym-w",
"measurement_keys": [
"dishwasher-soc-factor",
"dishwasher-power-l1-w",
"dishwasher-power-l2-w",
"dishwasher-power-l3-w",
"dishwasher-power-3-phase-sym-w"
]
}
]
}
}
```
## Measurement Configuration
:::{table} measurement
:widths: 10 20 10 5 5 30
:align: left
| Name | Environment Variable | Type | Read-Only | Default | Description |
| ---- | -------------------- | ---- | --------- | ------- | ----------- |
| load_emr_keys | `EOS_MEASUREMENT__LOAD_EMR_KEYS` | `Optional[list[str]]` | `rw` | `None` | The keys of the measurements that are energy meter readings of a load [kWh]. |
| grid_export_emr_keys | `EOS_MEASUREMENT__GRID_EXPORT_EMR_KEYS` | `Optional[list[str]]` | `rw` | `None` | The keys of the measurements that are energy meter readings of energy export to grid [kWh]. |
| grid_import_emr_keys | `EOS_MEASUREMENT__GRID_IMPORT_EMR_KEYS` | `Optional[list[str]]` | `rw` | `None` | The keys of the measurements that are energy meter readings of energy import from grid [kWh]. |
| pv_production_emr_keys | `EOS_MEASUREMENT__PV_PRODUCTION_EMR_KEYS` | `Optional[list[str]]` | `rw` | `None` | The keys of the measurements that are PV production energy meter readings [kWh]. |
| keys | | `list[str]` | `ro` | `N/A` | The keys of the measurements that can be stored. |
:::
### Example Input
```{eval-rst}
.. code-block:: json
{
"measurement": {
"load_emr_keys": [
"load0_emr"
],
"grid_export_emr_keys": [
"grid_export_emr"
],
"grid_import_emr_keys": [
"grid_import_emr"
],
"pv_production_emr_keys": [
"pv1_emr"
]
}
}
```
### Example Output
```{eval-rst}
.. code-block:: json
{
"measurement": {
"load_emr_keys": [
"load0_emr"
],
"grid_export_emr_keys": [
"grid_export_emr"
],
"grid_import_emr_keys": [
"grid_import_emr"
],
"pv_production_emr_keys": [
"pv1_emr"
],
"keys": [
"grid_export_emr",
"grid_import_emr",
"load0_emr",
"pv1_emr"
]
}
}
```
## General Optimization Configuration
:::{table} optimization
:widths: 10 20 10 5 5 30
:align: left
| Name | Environment Variable | Type | Read-Only | Default | Description |
| ---- | -------------------- | ---- | --------- | ------- | ----------- |
| horizon_hours | `EOS_OPTIMIZATION__HORIZON_HOURS` | `Optional[int]` | `rw` | `24` | The general time window within which the energy optimization goal shall be achieved [h]. Defaults to 24 hours. |
| interval | `EOS_OPTIMIZATION__INTERVAL` | `Optional[int]` | `rw` | `3600` | The optimization interval [sec]. |
| algorithm | `EOS_OPTIMIZATION__ALGORITHM` | `Optional[str]` | `rw` | `GENETIC` | The optimization algorithm. |
| genetic | `EOS_OPTIMIZATION__GENETIC` | `Optional[akkudoktoreos.optimization.optimization.GeneticCommonSettings]` | `rw` | `None` | Genetic optimization algorithm configuration. |
:::
### Example Input/Output
```{eval-rst}
.. code-block:: json
{
"optimization": {
"horizon_hours": 24,
"interval": 3600,
"algorithm": "GENETIC",
"genetic": {
"individuals": 400,
"generations": 400,
"seed": null,
"penalties": {
"ev_soc_miss": 10
}
}
}
}
```
### General Genetic Optimization Algorithm Configuration
:::{table} optimization::genetic
:widths: 10 10 5 5 30
:align: left
| Name | Type | Read-Only | Default | Description |
| ---- | ---- | --------- | ------- | ----------- |
| individuals | `Optional[int]` | `rw` | `300` | Number of individuals (solutions) to generate for the (initial) generation [>= 10]. Defaults to 300. |
| generations | `Optional[int]` | `rw` | `400` | Number of generations to evaluate the optimal solution [>= 10]. Defaults to 400. |
| seed | `Optional[int]` | `rw` | `None` | Fixed seed for genetic algorithm. Defaults to 'None' which means random seed. |
| penalties | `Optional[dict[str, Union[float, int, str]]]` | `rw` | `None` | A dictionary of penalty function parameters consisting of a penalty function parameter name and the associated value. |
:::
#### Example Input/Output
```{eval-rst}
.. code-block:: json
{
"optimization": {
"genetic": {
"individuals": 300,
"generations": 400,
"seed": null,
"penalties": {
"ev_soc_miss": 10
}
}
}
}
```
## General Prediction Configuration
This class provides configuration for prediction settings, allowing users to specify
parameters such as the forecast duration (in hours).
Validators ensure each parameter is within a specified range.
Attributes:
hours (Optional[int]): Number of hours into the future for predictions.
Must be non-negative.
historic_hours (Optional[int]): Number of hours into the past for historical data.
Must be non-negative.
Validators:
validate_hours (int): Ensures `hours` is a non-negative integer.
validate_historic_hours (int): Ensures `historic_hours` is a non-negative integer.
:::{table} prediction
:widths: 10 20 10 5 5 30
:align: left
| Name | Environment Variable | Type | Read-Only | Default | Description |
| ---- | -------------------- | ---- | --------- | ------- | ----------- |
| hours | `EOS_PREDICTION__HOURS` | `Optional[int]` | `rw` | `48` | Number of hours into the future for predictions |
| historic_hours | `EOS_PREDICTION__HISTORIC_HOURS` | `Optional[int]` | `rw` | `48` | Number of hours into the past for historical predictions data |
:::
### Example Input/Output
```{eval-rst}
.. code-block:: json
{
"prediction": {
"hours": 48,
"historic_hours": 48
}
}
```
## Electricity Price Prediction Configuration
:::{table} elecprice
:widths: 10 20 10 5 5 30
:align: left
| Name | Environment Variable | Type | Read-Only | Default | Description |
| ---- | -------------------- | ---- | --------- | ------- | ----------- |
| provider | `EOS_ELECPRICE__PROVIDER` | `Optional[str]` | `rw` | `None` | Electricity price provider id of provider to be used. |
| charges_kwh | `EOS_ELECPRICE__CHARGES_KWH` | `Optional[float]` | `rw` | `None` | Electricity price charges [€/kWh]. Will be added to variable market price. |
| vat_rate | `EOS_ELECPRICE__VAT_RATE` | `Optional[float]` | `rw` | `1.19` | VAT rate factor applied to electricity price when charges are used. |
| provider_settings | `EOS_ELECPRICE__PROVIDER_SETTINGS` | `ElecPriceCommonProviderSettings` | `rw` | `required` | Provider settings |
:::
### Example Input/Output
```{eval-rst}
.. code-block:: json
{
"elecprice": {
"provider": "ElecPriceAkkudoktor",
"charges_kwh": 0.21,
"vat_rate": 1.19,
"provider_settings": {
"ElecPriceImport": null
}
}
}
```
### Common settings for elecprice data import from file or JSON String
:::{table} elecprice::provider_settings::ElecPriceImport
:widths: 10 10 5 5 30
:align: left
| Name | Type | Read-Only | Default | Description |
| ---- | ---- | --------- | ------- | ----------- |
| import_file_path | `Union[str, pathlib.Path, NoneType]` | `rw` | `None` | Path to the file to import elecprice data from. |
| import_json | `Optional[str]` | `rw` | `None` | JSON string, dictionary of electricity price forecast value lists. |
:::
#### Example Input/Output
```{eval-rst}
.. code-block:: json
{
"elecprice": {
"provider_settings": {
"ElecPriceImport": {
"import_file_path": null,
"import_json": "{\"elecprice_marketprice_wh\": [0.0003384, 0.0003318, 0.0003284]}"
}
}
}
}
```
### Electricity Price Prediction Provider Configuration
:::{table} elecprice::provider_settings
:widths: 10 10 5 5 30
:align: left
| Name | Type | Read-Only | Default | Description |
| ---- | ---- | --------- | ------- | ----------- |
| ElecPriceImport | `Optional[akkudoktoreos.prediction.elecpriceimport.ElecPriceImportCommonSettings]` | `rw` | `None` | ElecPriceImport settings |
:::
#### Example Input/Output
```{eval-rst}
.. code-block:: json
{
"elecprice": {
"provider_settings": {
"ElecPriceImport": null
}
}
}
```
## Feed In Tariff Prediction Configuration
:::{table} feedintariff
:widths: 10 20 10 5 5 30
:align: left
| Name | Environment Variable | Type | Read-Only | Default | Description |
| ---- | -------------------- | ---- | --------- | ------- | ----------- |
| provider | `EOS_FEEDINTARIFF__PROVIDER` | `Optional[str]` | `rw` | `None` | Feed in tariff provider id of provider to be used. |
| provider_settings | `EOS_FEEDINTARIFF__PROVIDER_SETTINGS` | `FeedInTariffCommonProviderSettings` | `rw` | `required` | Provider settings |
:::
### Example Input/Output
```{eval-rst}
.. code-block:: json
{
"feedintariff": {
"provider": "FeedInTariffFixed",
"provider_settings": {
"FeedInTariffFixed": null,
"FeedInTariffImport": null
}
}
}
```
### Common settings for feed in tariff data import from file or JSON string
:::{table} feedintariff::provider_settings::FeedInTariffImport
:widths: 10 10 5 5 30
:align: left
| Name | Type | Read-Only | Default | Description |
| ---- | ---- | --------- | ------- | ----------- |
| import_file_path | `Union[str, pathlib.Path, NoneType]` | `rw` | `None` | Path to the file to import feed in tariff data from. |
| import_json | `Optional[str]` | `rw` | `None` | JSON string, dictionary of feed in tariff forecast value lists. |
:::
#### Example Input/Output
```{eval-rst}
.. code-block:: json
{
"feedintariff": {
"provider_settings": {
"FeedInTariffImport": {
"import_file_path": null,
"import_json": "{\"fead_in_tariff_wh\": [0.000078, 0.000078, 0.000023]}"
}
}
}
}
```
### Common settings for elecprice fixed price
:::{table} feedintariff::provider_settings::FeedInTariffFixed
:widths: 10 10 5 5 30
:align: left
| Name | Type | Read-Only | Default | Description |
| ---- | ---- | --------- | ------- | ----------- |
| feed_in_tariff_kwh | `Optional[float]` | `rw` | `None` | Electricity price feed in tariff [€/kWH]. |
:::
#### Example Input/Output
```{eval-rst}
.. code-block:: json
{
"feedintariff": {
"provider_settings": {
"FeedInTariffFixed": {
"feed_in_tariff_kwh": 0.078
}
}
}
}
```
### Feed In Tariff Prediction Provider Configuration
:::{table} feedintariff::provider_settings
:widths: 10 10 5 5 30
:align: left
| Name | Type | Read-Only | Default | Description |
| ---- | ---- | --------- | ------- | ----------- |
| FeedInTariffFixed | `Optional[akkudoktoreos.prediction.feedintarifffixed.FeedInTariffFixedCommonSettings]` | `rw` | `None` | FeedInTariffFixed settings |
| FeedInTariffImport | `Optional[akkudoktoreos.prediction.feedintariffimport.FeedInTariffImportCommonSettings]` | `rw` | `None` | FeedInTariffImport settings |
:::
#### Example Input/Output
```{eval-rst}
.. code-block:: json
{
"feedintariff": {
"provider_settings": {
"FeedInTariffFixed": null,
"FeedInTariffImport": null
}
}
}
```
## Load Prediction Configuration
:::{table} load
:widths: 10 20 10 5 5 30
:align: left
| Name | Environment Variable | Type | Read-Only | Default | Description |
| ---- | -------------------- | ---- | --------- | ------- | ----------- |
| provider | `EOS_LOAD__PROVIDER` | `Optional[str]` | `rw` | `None` | Load provider id of provider to be used. |
| provider_settings | `EOS_LOAD__PROVIDER_SETTINGS` | `LoadCommonProviderSettings` | `rw` | `required` | Provider settings |
:::
### Example Input/Output
```{eval-rst}
.. code-block:: json
{
"load": {
"provider": "LoadAkkudoktor",
"provider_settings": {
"LoadAkkudoktor": null,
"LoadVrm": null,
"LoadImport": null
}
}
}
```
### Common settings for load data import from file or JSON string
:::{table} load::provider_settings::LoadImport
:widths: 10 10 5 5 30
:align: left
| Name | Type | Read-Only | Default | Description |
| ---- | ---- | --------- | ------- | ----------- |
| import_file_path | `Union[str, pathlib.Path, NoneType]` | `rw` | `None` | Path to the file to import load data from. |
| import_json | `Optional[str]` | `rw` | `None` | JSON string, dictionary of load forecast value lists. |
:::
#### Example Input/Output
```{eval-rst}
.. code-block:: json
{
"load": {
"provider_settings": {
"LoadImport": {
"import_file_path": null,
"import_json": "{\"load0_mean\": [676.71, 876.19, 527.13]}"
}
}
}
}
```
### Common settings for VRM API
:::{table} load::provider_settings::LoadVrm
:widths: 10 10 5 5 30
:align: left
| Name | Type | Read-Only | Default | Description |
| ---- | ---- | --------- | ------- | ----------- |
| load_vrm_token | `str` | `rw` | `your-token` | Token for Connecting VRM API |
| load_vrm_idsite | `int` | `rw` | `12345` | VRM-Installation-ID |
:::
#### Example Input/Output
```{eval-rst}
.. code-block:: json
{
"load": {
"provider_settings": {
"LoadVrm": {
"load_vrm_token": "your-token",
"load_vrm_idsite": 12345
}
}
}
}
```
### Common settings for load data import from file
:::{table} load::provider_settings::LoadAkkudoktor
:widths: 10 10 5 5 30
:align: left
| Name | Type | Read-Only | Default | Description |
| ---- | ---- | --------- | ------- | ----------- |
| loadakkudoktor_year_energy | `Optional[float]` | `rw` | `None` | Yearly energy consumption (kWh). |
:::
#### Example Input/Output
```{eval-rst}
.. code-block:: json
{
"load": {
"provider_settings": {
"LoadAkkudoktor": {
"loadakkudoktor_year_energy": 40421.0
}
}
}
}
```
### Load Prediction Provider Configuration
:::{table} load::provider_settings
:widths: 10 10 5 5 30
:align: left
| Name | Type | Read-Only | Default | Description |
| ---- | ---- | --------- | ------- | ----------- |
| LoadAkkudoktor | `Optional[akkudoktoreos.prediction.loadakkudoktor.LoadAkkudoktorCommonSettings]` | `rw` | `None` | LoadAkkudoktor settings |
| LoadVrm | `Optional[akkudoktoreos.prediction.loadvrm.LoadVrmCommonSettings]` | `rw` | `None` | LoadVrm settings |
| LoadImport | `Optional[akkudoktoreos.prediction.loadimport.LoadImportCommonSettings]` | `rw` | `None` | LoadImport settings |
:::
#### Example Input/Output
```{eval-rst}
.. code-block:: json
{
"load": {
"provider_settings": {
"LoadAkkudoktor": null,
"LoadVrm": null,
"LoadImport": null
}
}
}
```
## PV Forecast Configuration
:::{table} pvforecast
:widths: 10 20 10 5 5 30
:align: left
| Name | Environment Variable | Type | Read-Only | Default | Description |
| ---- | -------------------- | ---- | --------- | ------- | ----------- |
| provider | `EOS_PVFORECAST__PROVIDER` | `Optional[str]` | `rw` | `None` | PVForecast provider id of provider to be used. |
| provider_settings | `EOS_PVFORECAST__PROVIDER_SETTINGS` | `PVForecastCommonProviderSettings` | `rw` | `required` | Provider settings |
| planes | `EOS_PVFORECAST__PLANES` | `Optional[list[akkudoktoreos.prediction.pvforecast.PVForecastPlaneSetting]]` | `rw` | `None` | Plane configuration. |
| max_planes | `EOS_PVFORECAST__MAX_PLANES` | `Optional[int]` | `rw` | `0` | Maximum number of planes that can be set |
| planes_peakpower | | `List[float]` | `ro` | `N/A` | Compute a list of the peak power per active planes. |
| planes_azimuth | | `List[float]` | `ro` | `N/A` | Compute a list of the azimuths per active planes. |
| planes_tilt | | `List[float]` | `ro` | `N/A` | Compute a list of the tilts per active planes. |
| planes_userhorizon | | `Any` | `ro` | `N/A` | Compute a list of the user horizon per active planes. |
| planes_inverter_paco | | `Any` | `ro` | `N/A` | Compute a list of the maximum power rating of the inverter per active planes. |
:::
### Example Input
```{eval-rst}
.. code-block:: json
{
"pvforecast": {
"provider": "PVForecastAkkudoktor",
"provider_settings": {
"PVForecastImport": null,
"PVForecastVrm": null
},
"planes": [
{
"surface_tilt": 10.0,
"surface_azimuth": 180.0,
"userhorizon": [
10.0,
20.0,
30.0
],
"peakpower": 5.0,
"pvtechchoice": "crystSi",
"mountingplace": "free",
"loss": 14.0,
"trackingtype": 0,
"optimal_surface_tilt": false,
"optimalangles": false,
"albedo": null,
"module_model": null,
"inverter_model": null,
"inverter_paco": 6000,
"modules_per_string": 20,
"strings_per_inverter": 2
},
{
"surface_tilt": 20.0,
"surface_azimuth": 90.0,
"userhorizon": [
5.0,
15.0,
25.0
],
"peakpower": 3.5,
"pvtechchoice": "crystSi",
"mountingplace": "free",
"loss": 14.0,
"trackingtype": 1,
"optimal_surface_tilt": false,
"optimalangles": false,
"albedo": null,
"module_model": null,
"inverter_model": null,
"inverter_paco": 4000,
"modules_per_string": 20,
"strings_per_inverter": 2
}
],
"max_planes": 1
}
}
```
### Example Output
```{eval-rst}
.. code-block:: json
{
"pvforecast": {
"provider": "PVForecastAkkudoktor",
"provider_settings": {
"PVForecastImport": null,
"PVForecastVrm": null
},
"planes": [
{
"surface_tilt": 10.0,
"surface_azimuth": 180.0,
"userhorizon": [
10.0,
20.0,
30.0
],
"peakpower": 5.0,
"pvtechchoice": "crystSi",
"mountingplace": "free",
"loss": 14.0,
"trackingtype": 0,
"optimal_surface_tilt": false,
"optimalangles": false,
"albedo": null,
"module_model": null,
"inverter_model": null,
"inverter_paco": 6000,
"modules_per_string": 20,
"strings_per_inverter": 2
},
{
"surface_tilt": 20.0,
"surface_azimuth": 90.0,
"userhorizon": [
5.0,
15.0,
25.0
],
"peakpower": 3.5,
"pvtechchoice": "crystSi",
"mountingplace": "free",
"loss": 14.0,
"trackingtype": 1,
"optimal_surface_tilt": false,
"optimalangles": false,
"albedo": null,
"module_model": null,
"inverter_model": null,
"inverter_paco": 4000,
"modules_per_string": 20,
"strings_per_inverter": 2
}
],
"max_planes": 1,
"planes_peakpower": [
5.0,
3.5
],
"planes_azimuth": [
180.0,
90.0
],
"planes_tilt": [
10.0,
20.0
],
"planes_userhorizon": [
[
10.0,
20.0,
30.0
],
[
5.0,
15.0,
25.0
]
],
"planes_inverter_paco": [
6000.0,
4000.0
]
}
}
```
### PV Forecast Plane Configuration
:::{table} pvforecast::planes::list
:widths: 10 10 5 5 30
:align: left
| Name | Type | Read-Only | Default | Description |
| ---- | ---- | --------- | ------- | ----------- |
| surface_tilt | `Optional[float]` | `rw` | `30.0` | Tilt angle from horizontal plane. Ignored for two-axis tracking. |
| surface_azimuth | `Optional[float]` | `rw` | `180.0` | Orientation (azimuth angle) of the (fixed) plane. Clockwise from north (north=0, east=90, south=180, west=270). |
| userhorizon | `Optional[List[float]]` | `rw` | `None` | Elevation of horizon in degrees, at equally spaced azimuth clockwise from north. |
| peakpower | `Optional[float]` | `rw` | `None` | Nominal power of PV system in kW. |
| pvtechchoice | `Optional[str]` | `rw` | `crystSi` | PV technology. One of 'crystSi', 'CIS', 'CdTe', 'Unknown'. |
| mountingplace | `Optional[str]` | `rw` | `free` | Type of mounting for PV system. Options are 'free' for free-standing and 'building' for building-integrated. |
| loss | `Optional[float]` | `rw` | `14.0` | Sum of PV system losses in percent |
| trackingtype | `Optional[int]` | `rw` | `None` | Type of suntracking. 0=fixed, 1=single horizontal axis aligned north-south, 2=two-axis tracking, 3=vertical axis tracking, 4=single horizontal axis aligned east-west, 5=single inclined axis aligned north-south. |
| optimal_surface_tilt | `Optional[bool]` | `rw` | `False` | Calculate the optimum tilt angle. Ignored for two-axis tracking. |
| optimalangles | `Optional[bool]` | `rw` | `False` | Calculate the optimum tilt and azimuth angles. Ignored for two-axis tracking. |
| albedo | `Optional[float]` | `rw` | `None` | Proportion of the light hitting the ground that it reflects back. |
| module_model | `Optional[str]` | `rw` | `None` | Model of the PV modules of this plane. |
| inverter_model | `Optional[str]` | `rw` | `None` | Model of the inverter of this plane. |
| inverter_paco | `Optional[int]` | `rw` | `None` | AC power rating of the inverter [W]. |
| modules_per_string | `Optional[int]` | `rw` | `None` | Number of the PV modules of the strings of this plane. |
| strings_per_inverter | `Optional[int]` | `rw` | `None` | Number of the strings of the inverter of this plane. |
:::
#### Example Input/Output
```{eval-rst}
.. code-block:: json
{
"pvforecast": {
"planes": [
{
"surface_tilt": 10.0,
"surface_azimuth": 180.0,
"userhorizon": [
10.0,
20.0,
30.0
],
"peakpower": 5.0,
"pvtechchoice": "crystSi",
"mountingplace": "free",
"loss": 14.0,
"trackingtype": 0,
"optimal_surface_tilt": false,
"optimalangles": false,
"albedo": null,
"module_model": null,
"inverter_model": null,
"inverter_paco": 6000,
"modules_per_string": 20,
"strings_per_inverter": 2
},
{
"surface_tilt": 20.0,
"surface_azimuth": 90.0,
"userhorizon": [
5.0,
15.0,
25.0
],
"peakpower": 3.5,
"pvtechchoice": "crystSi",
"mountingplace": "free",
"loss": 14.0,
"trackingtype": 1,
"optimal_surface_tilt": false,
"optimalangles": false,
"albedo": null,
"module_model": null,
"inverter_model": null,
"inverter_paco": 4000,
"modules_per_string": 20,
"strings_per_inverter": 2
}
]
}
}
```
### Common settings for VRM API
:::{table} pvforecast::provider_settings::PVForecastVrm
:widths: 10 10 5 5 30
:align: left
| Name | Type | Read-Only | Default | Description |
| ---- | ---- | --------- | ------- | ----------- |
| pvforecast_vrm_token | `str` | `rw` | `your-token` | Token for Connecting VRM API |
| pvforecast_vrm_idsite | `int` | `rw` | `12345` | VRM-Installation-ID |
:::
#### Example Input/Output
```{eval-rst}
.. code-block:: json
{
"pvforecast": {
"provider_settings": {
"PVForecastVrm": {
"pvforecast_vrm_token": "your-token",
"pvforecast_vrm_idsite": 12345
}
}
}
}
```
### Common settings for pvforecast data import from file or JSON string
:::{table} pvforecast::provider_settings::PVForecastImport
:widths: 10 10 5 5 30
:align: left
| Name | Type | Read-Only | Default | Description |
| ---- | ---- | --------- | ------- | ----------- |
| import_file_path | `Union[str, pathlib.Path, NoneType]` | `rw` | `None` | Path to the file to import PV forecast data from. |
| import_json | `Optional[str]` | `rw` | `None` | JSON string, dictionary of PV forecast value lists. |
:::
#### Example Input/Output
```{eval-rst}
.. code-block:: json
{
"pvforecast": {
"provider_settings": {
"PVForecastImport": {
"import_file_path": null,
"import_json": "{\"pvforecast_ac_power\": [0, 8.05, 352.91]}"
}
}
}
}
```
### PV Forecast Provider Configuration
:::{table} pvforecast::provider_settings
:widths: 10 10 5 5 30
:align: left
| Name | Type | Read-Only | Default | Description |
| ---- | ---- | --------- | ------- | ----------- |
| PVForecastImport | `Optional[akkudoktoreos.prediction.pvforecastimport.PVForecastImportCommonSettings]` | `rw` | `None` | PVForecastImport settings |
| PVForecastVrm | `Optional[akkudoktoreos.prediction.pvforecastvrm.PVForecastVrmCommonSettings]` | `rw` | `None` | PVForecastVrm settings |
:::
#### Example Input/Output
```{eval-rst}
.. code-block:: json
{
"pvforecast": {
"provider_settings": {
"PVForecastImport": null,
"PVForecastVrm": null
}
}
}
```
## Weather Forecast Configuration
:::{table} weather
:widths: 10 20 10 5 5 30
:align: left
| Name | Environment Variable | Type | Read-Only | Default | Description |
| ---- | -------------------- | ---- | --------- | ------- | ----------- |
| provider | `EOS_WEATHER__PROVIDER` | `Optional[str]` | `rw` | `None` | Weather provider id of provider to be used. |
| provider_settings | `EOS_WEATHER__PROVIDER_SETTINGS` | `WeatherCommonProviderSettings` | `rw` | `required` | Provider settings |
:::
### Example Input/Output
```{eval-rst}
.. code-block:: json
{
"weather": {
"provider": "WeatherImport",
"provider_settings": {
"WeatherImport": null
}
}
}
```
### Common settings for weather data import from file or JSON string
:::{table} weather::provider_settings::WeatherImport
:widths: 10 10 5 5 30
:align: left
| Name | Type | Read-Only | Default | Description |
| ---- | ---- | --------- | ------- | ----------- |
| import_file_path | `Union[str, pathlib.Path, NoneType]` | `rw` | `None` | Path to the file to import weather data from. |
| import_json | `Optional[str]` | `rw` | `None` | JSON string, dictionary of weather forecast value lists. |
:::
#### Example Input/Output
```{eval-rst}
.. code-block:: json
{
"weather": {
"provider_settings": {
"WeatherImport": {
"import_file_path": null,
"import_json": "{\"weather_temp_air\": [18.3, 17.8, 16.9]}"
}
}
}
}
```
### Weather Forecast Provider Configuration
:::{table} weather::provider_settings
:widths: 10 10 5 5 30
:align: left
| Name | Type | Read-Only | Default | Description |
| ---- | ---- | --------- | ------- | ----------- |
| WeatherImport | `Optional[akkudoktoreos.prediction.weatherimport.WeatherImportCommonSettings]` | `rw` | `None` | WeatherImport settings |
:::
#### Example Input/Output
```{eval-rst}
.. code-block:: json
{
"weather": {
"provider_settings": {
"WeatherImport": null
}
}
}
```
## Server Configuration
:::{table} server
:widths: 10 20 10 5 5 30
:align: left
| Name | Environment Variable | Type | Read-Only | Default | Description |
| ---- | -------------------- | ---- | --------- | ------- | ----------- |
| host | `EOS_SERVER__HOST` | `Optional[str]` | `rw` | `127.0.0.1` | EOS server IP address. Defaults to 127.0.0.1. |
| port | `EOS_SERVER__PORT` | `Optional[int]` | `rw` | `8503` | EOS server IP port number. Defaults to 8503. |
| verbose | `EOS_SERVER__VERBOSE` | `Optional[bool]` | `rw` | `False` | Enable debug output |
| startup_eosdash | `EOS_SERVER__STARTUP_EOSDASH` | `Optional[bool]` | `rw` | `True` | EOS server to start EOSdash server. Defaults to True. |
| eosdash_host | `EOS_SERVER__EOSDASH_HOST` | `Optional[str]` | `rw` | `None` | EOSdash server IP address. Defaults to EOS server IP address. |
| eosdash_port | `EOS_SERVER__EOSDASH_PORT` | `Optional[int]` | `rw` | `None` | EOSdash server IP port number. Defaults to EOS server IP port number + 1. |
:::
### Example Input/Output
```{eval-rst}
.. code-block:: json
{
"server": {
"host": "127.0.0.1",
"port": 8503,
"verbose": false,
"startup_eosdash": true,
"eosdash_host": "127.0.0.1",
"eosdash_port": 8504
}
}
```
## Utils Configuration
:::{table} utils
:widths: 10 20 10 5 5 30
:align: left
| Name | Environment Variable | Type | Read-Only | Default | Description |
| ---- | -------------------- | ---- | --------- | ------- | ----------- |
:::
### Example Input/Output
```{eval-rst}
.. code-block:: json
{
"utils": {}
}
```
## Full example Config
```{eval-rst}
.. code-block:: json
{
"general": {
"version": "0.1.0+dev",
"data_folder_path": null,
"data_output_subpath": "output",
"latitude": 52.52,
"longitude": 13.405
},
"cache": {
"subpath": "cache",
"cleanup_interval": 300.0
},
"ems": {
"startup_delay": 5.0,
"interval": 300.0,
"mode": "OPTIMIZATION"
},
"logging": {
"console_level": "TRACE",
"file_level": "TRACE"
},
"devices": {
"batteries": [
{
"device_id": "battery1",
"capacity_wh": 8000,
"charging_efficiency": 0.88,
"discharging_efficiency": 0.88,
"levelized_cost_of_storage_kwh": 0.0,
"max_charge_power_w": 5000,
"min_charge_power_w": 50,
"charge_rates": null,
"min_soc_percentage": 0,
"max_soc_percentage": 100,
"measurement_key_soc_factor": "battery1-soc-factor",
"measurement_key_power_l1_w": "battery1-power-l1-w",
"measurement_key_power_l2_w": "battery1-power-l2-w",
"measurement_key_power_l3_w": "battery1-power-l3-w",
"measurement_key_power_3_phase_sym_w": "battery1-power-3-phase-sym-w",
"measurement_keys": [
"battery1-soc-factor",
"battery1-power-l1-w",
"battery1-power-l2-w",
"battery1-power-l3-w",
"battery1-power-3-phase-sym-w"
]
}
],
"max_batteries": 1,
"electric_vehicles": [
{
"device_id": "battery1",
"capacity_wh": 8000,
"charging_efficiency": 0.88,
"discharging_efficiency": 0.88,
"levelized_cost_of_storage_kwh": 0.0,
"max_charge_power_w": 5000,
"min_charge_power_w": 50,
"charge_rates": null,
"min_soc_percentage": 0,
"max_soc_percentage": 100,
"measurement_key_soc_factor": "battery1-soc-factor",
"measurement_key_power_l1_w": "battery1-power-l1-w",
"measurement_key_power_l2_w": "battery1-power-l2-w",
"measurement_key_power_l3_w": "battery1-power-l3-w",
"measurement_key_power_3_phase_sym_w": "battery1-power-3-phase-sym-w",
"measurement_keys": [
"battery1-soc-factor",
"battery1-power-l1-w",
"battery1-power-l2-w",
"battery1-power-l3-w",
"battery1-power-3-phase-sym-w"
]
}
],
"max_electric_vehicles": 1,
"inverters": [],
"max_inverters": 1,
"home_appliances": [],
"max_home_appliances": 1
},
"measurement": {
"load_emr_keys": [
"load0_emr"
],
"grid_export_emr_keys": [
"grid_export_emr"
],
"grid_import_emr_keys": [
"grid_import_emr"
],
"pv_production_emr_keys": [
"pv1_emr"
]
},
"optimization": {
"horizon_hours": 24,
"interval": 3600,
"algorithm": "GENETIC",
"genetic": {
"individuals": 400,
"generations": 400,
"seed": null,
"penalties": {
"ev_soc_miss": 10
}
}
},
"prediction": {
"hours": 48,
"historic_hours": 48
},
"elecprice": {
"provider": "ElecPriceAkkudoktor",
"charges_kwh": 0.21,
"vat_rate": 1.19,
"provider_settings": {
"ElecPriceImport": null
}
},
"feedintariff": {
"provider": "FeedInTariffFixed",
"provider_settings": {
"FeedInTariffFixed": null,
"FeedInTariffImport": null
}
},
"load": {
"provider": "LoadAkkudoktor",
"provider_settings": {
"LoadAkkudoktor": null,
"LoadVrm": null,
"LoadImport": null
}
},
"pvforecast": {
"provider": "PVForecastAkkudoktor",
"provider_settings": {
"PVForecastImport": null,
"PVForecastVrm": null
},
"planes": [
{
"surface_tilt": 10.0,
"surface_azimuth": 180.0,
"userhorizon": [
10.0,
20.0,
30.0
],
"peakpower": 5.0,
"pvtechchoice": "crystSi",
"mountingplace": "free",
"loss": 14.0,
"trackingtype": 0,
"optimal_surface_tilt": false,
"optimalangles": false,
"albedo": null,
"module_model": null,
"inverter_model": null,
"inverter_paco": 6000,
"modules_per_string": 20,
"strings_per_inverter": 2
},
{
"surface_tilt": 20.0,
"surface_azimuth": 90.0,
"userhorizon": [
5.0,
15.0,
25.0
],
"peakpower": 3.5,
"pvtechchoice": "crystSi",
"mountingplace": "free",
"loss": 14.0,
"trackingtype": 1,
"optimal_surface_tilt": false,
"optimalangles": false,
"albedo": null,
"module_model": null,
"inverter_model": null,
"inverter_paco": 4000,
"modules_per_string": 20,
"strings_per_inverter": 2
}
],
"max_planes": 1
},
"weather": {
"provider": "WeatherImport",
"provider_settings": {
"WeatherImport": null
}
},
"server": {
"host": "127.0.0.1",
"port": 8503,
"verbose": false,
"startup_eosdash": true,
"eosdash_host": "127.0.0.1",
"eosdash_port": 8504
},
"utils": {}
}
```