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test_energy_storage.py
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test_energy_storage.py
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# -*- coding: utf-8 -*-
"""
Created on Mon Jul 29 13:25:23 2019
@author: Sascha Birk
"""
from vpplib.environment import Environment
from vpplib.user_profile import UserProfile
from vpplib.electrical_energy_storage import ElectricalEnergyStorage
from vpplib.photovoltaic import Photovoltaic
import pandas as pd
import matplotlib.pyplot as plt
# environment
start = "2015-06-01 00:00:00"
end = "2015-06-07 23:45:00"
year = "2015"
# user_profile
latitude = 50.941357
longitude = 6.958307
# PV
unit = "kW"
name = "bus"
module_lib = "SandiaMod"
module = "Canadian_Solar_CS5P_220M___2009_"
inverter_lib = "cecinverter"
inverter = "Connect_Renewable_Energy__CE_4000__240V_"
surface_tilt = 20
surface_azimuth = 200
modules_per_string = 4
strings_per_inverter = 2
temp_lib = 'sapm'
temp_model = 'open_rack_glass_glass'
# storage
timebase = 15
charge_efficiency = 0.98
discharge_efficiency = 0.98
max_power = 4 # kW
capacity = 4 # kWh
max_c = 1 # factor between 0.5 and 1.2
# test
timestamp_int = 48
timestamp_str = "2015-06-01 12:00:00"
environment = Environment(timebase=timebase, start=start, end=end, year=year)
environment.get_pv_data(file="./input/pv/dwd_pv_data_2015.csv")
user_profile = UserProfile(
identifier=name, latitude=latitude, longitude=longitude
)
# create pv object and timeseries
pv = Photovoltaic(
unit=unit,
identifier=(name + "_pv"),
environment=environment,
user_profile=user_profile,
module_lib=module_lib,
module=module,
inverter_lib=inverter_lib,
inverter=inverter,
surface_tilt=surface_tilt,
surface_azimuth=surface_azimuth,
modules_per_string=modules_per_string,
strings_per_inverter=strings_per_inverter,
temp_lib=temp_lib,
temp_model=temp_model
)
pv.prepare_time_series()
# create storage object
storage = ElectricalEnergyStorage(
unit=unit,
identifier=(name + "_storage"),
environment=environment,
user_profile=user_profile,
capacity=capacity,
charge_efficiency=charge_efficiency,
discharge_efficiency=discharge_efficiency,
max_power=max_power,
max_c=max_c,
)
baseload = pd.read_csv("./input/baseload/df_S_15min.csv")
baseload.drop(columns=["Time"], inplace=True)
baseload.set_index(environment.pv_data.index, inplace=True)
# combine baseload and pv timeseries to get residual load
house_loadshape = pd.DataFrame(baseload["0"].loc[start:end] / 1000)
house_loadshape["pv_gen"] = pv.timeseries.loc[start:end]
house_loadshape["residual_load"] = (
baseload["0"].loc[start:end] / 1000 - pv.timeseries.bus_pv
)
# assign residual load to storage
storage.residual_load = house_loadshape.residual_load
def test_prepare_time_series(storage):
storage.prepare_time_series()
print("prepare_time_series:")
print(storage.timeseries.head())
storage.timeseries.plot(figsize=(16, 9))
plt.show()
def test_value_for_timestamp(storage, timestamp):
timestepvalue = storage.value_for_timestamp(timestamp)
print("\nvalue_for_timestamp:\n", timestepvalue)
def test_observationsForTimestamp(storage, timestamp):
print("observations_for_timestamp:")
observation = storage.observations_for_timestamp(timestamp)
print(observation, "\n")
def test_operate_storage(storage, timestamp):
print("operate_storage:")
state_of_charge, res_load = storage.operate_storage(
storage.residual_load.loc[timestamp]
)
print("state_of_charge: ", state_of_charge)
print("res_load: ", res_load)
test_prepare_time_series(storage)
test_value_for_timestamp(storage, timestamp_int)
test_value_for_timestamp(storage, timestamp_str)
test_observationsForTimestamp(storage, timestamp_int)
test_observationsForTimestamp(storage, timestamp_str)
test_operate_storage(storage, timestamp_str)