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Adapt uvicorn log level to allowed levels. Ensure that EOSdash is started after EOS configuration is available. Signed-off-by: Bobby Noelte <b0661n0e17e@gmail.com>
17 KiB
17 KiB
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 |
| electric_vehicles | EOS_DEVICES__ELECTRIC_VEHICLES |
Optional[list[akkudoktoreos.devices.devices.BatteriesCommonSettings]] |
rw |
None |
List of electric vehicle devices |
| home_appliances | EOS_DEVICES__HOME_APPLIANCES |
Optional[list[akkudoktoreos.devices.devices.HomeApplianceCommonSettings]] |
rw |
None |
List of home appliances |
| inverters | EOS_DEVICES__INVERTERS |
Optional[list[akkudoktoreos.devices.devices.InverterCommonSettings]] |
rw |
None |
List of inverters |
| max_batteries | EOS_DEVICES__MAX_BATTERIES |
Optional[int] |
rw |
None |
Maximum number of batteries that can be set |
| max_electric_vehicles | EOS_DEVICES__MAX_ELECTRIC_VEHICLES |
Optional[int] |
rw |
None |
Maximum number of electric vehicles that can be set |
| max_home_appliances | EOS_DEVICES__MAX_HOME_APPLIANCES |
Optional[int] |
rw |
None |
Maximum number of home_appliances that can be set |
| max_inverters | EOS_DEVICES__MAX_INVERTERS |
Optional[int] |
rw |
None |
Maximum number of inverters 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
{
"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": [
0.0,
0.1,
0.2,
0.3,
0.4,
0.5,
0.6,
0.7,
0.8,
0.9,
1.0
],
"min_soc_percentage": 0,
"max_soc_percentage": 100
}
],
"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": [
0.0,
0.1,
0.2,
0.3,
0.4,
0.5,
0.6,
0.7,
0.8,
0.9,
1.0
],
"min_soc_percentage": 0,
"max_soc_percentage": 100
}
],
"max_electric_vehicles": 1,
"inverters": [],
"max_inverters": 1,
"home_appliances": [],
"max_home_appliances": 1
}
}
Example Output
{
"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": [
0.0,
0.1,
0.2,
0.3,
0.4,
0.5,
0.6,
0.7,
0.8,
0.9,
1.0
],
"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": [
0.0,
0.1,
0.2,
0.3,
0.4,
0.5,
0.6,
0.7,
0.8,
0.9,
1.0
],
"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"
]
}
}
Inverter devices base settings
:::{table} devices::inverters::list :widths: 10 10 5 5 30 :align: left
| Name | Type | Read-Only | Default | Description |
|---|---|---|---|---|
| ac_to_dc_efficiency | float |
rw |
1.0 |
Efficiency of AC to DC conversion for grid-to-battery AC charging (0-1). Set to 0 to disable AC charging. Default 1.0 (no additional inverter loss). |
| battery_id | Optional[str] |
rw |
None |
ID of battery controlled by this inverter. |
| dc_to_ac_efficiency | float |
rw |
1.0 |
Efficiency of DC to AC conversion for battery discharging to AC load/grid (0-1). Default 1.0 (no additional inverter loss). |
| device_id | str |
rw |
<unknown> |
ID of device |
| max_ac_charge_power_w | Optional[float] |
rw |
None |
Maximum AC charging power in watts. null means no additional limit. Set to 0 to disable AC charging. |
| max_power_w | Optional[float] |
rw |
None |
Maximum power [W]. |
| measurement_keys | Optional[list[str]] |
ro |
N/A |
Measurement keys for the inverter stati that are measurements. |
| ::: |
Example Input
{
"devices": {
"inverters": [
{
"device_id": "battery1",
"max_power_w": 10000.0,
"battery_id": null,
"ac_to_dc_efficiency": 0.95,
"dc_to_ac_efficiency": 0.95,
"max_ac_charge_power_w": null
}
]
}
}
Example Output
{
"devices": {
"inverters": [
{
"device_id": "battery1",
"max_power_w": 10000.0,
"battery_id": null,
"ac_to_dc_efficiency": 0.95,
"dc_to_ac_efficiency": 0.95,
"max_ac_charge_power_w": null,
"measurement_keys": []
}
]
}
}
Home Appliance devices base settings
:::{table} devices::home_appliances::list :widths: 10 10 5 5 30 :align: left
| Name | Type | Read-Only | Default | Description |
|---|---|---|---|---|
| consumption_wh | int |
rw |
required |
Energy consumption [Wh]. |
| device_id | str |
rw |
<unknown> |
ID of device |
| duration_h | int |
rw |
required |
Usage duration in hours [0 ... 24]. |
| measurement_keys | Optional[list[str]] |
ro |
N/A |
Measurement keys for the home appliance stati that are measurements. |
| time_windows | Optional[akkudoktoreos.utils.datetimeutil.TimeWindowSequence] |
rw |
None |
Sequence of allowed time windows. Defaults to optimization general time window. |
| ::: |
Example Input
{
"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
}
]
}
}
]
}
}
Example Output
{
"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": []
}
]
}
}
Battery devices base settings
:::{table} devices::batteries::list :widths: 10 10 5 5 30 :align: left
| Name | Type | Read-Only | Default | Description |
|---|---|---|---|---|
| capacity_wh | int |
rw |
8000 |
Capacity [Wh]. |
| charge_rates | Optional[list[float]] |
rw |
[0.0, 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, 1.0] |
Charge rates as factor of maximum charging power [0.00 ... 1.00]. None triggers fallback to default charge-rates. |
| charging_efficiency | float |
rw |
0.88 |
Charging efficiency [0.01 ... 1.00]. |
| device_id | str |
rw |
<unknown> |
ID of device |
| 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]. |
| max_soc_percentage | int |
rw |
100 |
Maximum state of charge (SOC) as percentage of capacity [%]. |
| 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_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_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_keys | Optional[list[str]] |
ro |
N/A |
Measurement keys for the battery stati that are measurements. |
| min_charge_power_w | Optional[float] |
rw |
50 |
Minimum charging power [W]. |
| min_soc_percentage | int |
rw |
0 |
Minimum state of charge (SOC) as percentage of capacity [%]. This is the target SoC for charging |
| ::: |
Example Input
{
"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
}
]
}
}
Example Output
{
"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"
]
}
]
}
}