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Tariff calculation for time series consumption data.

Motivation

Calculating tariffs is a common task for technoeconomic modelling, particularly in industries like energy and water.

The ts-tariffs library aims to provide convenient, easy-to-use tools for dealing with tariffs in modelling projects.

The goal of this library is to expand its coverage of tariff structures as widely as possible, and where coverage is not provided, to act as a stable, extensible toolbase for the creation of bespoke tariff models

While coverage of tariff types will increase over time, the scope of this library will remain narrow to ensure maintanability.

Installation

pip install ts-tariffs

Coverage

ts-tariffs can presently deal with common tariffs (so far all derived from electricity billing, but some are applicable more broadly):

  • Connection charges
  • Single rate charges
  • Time of use charges
  • Demand charges, including those which are specify time of use
  • Block charges
  • Capacity charges

Soon to come:

  • Critical peak charges

Coverage will continue to be expanded - feature pull requests are encouraged for all timeseries tariff types

How to

Create Tariffs

Tariffs can be instantiated by individually specifying parameters:

from ts_tariffs.tariffs import (
    SingleRateTariff, 
    ConnectionTariff, 
    TouTariff, 
    DemandTariff, 
    BlockTariff, 
    CapacityTariff,
)
from ts_tariffs.ts_utils import SampleRate

single_rate_tariff = SingleRateTariff(
    name='single_rate_tariff',
    charge_type="SingleRateTariff",
    rate=0.07,
    consumption_unit='kWh',
    rate_unit='dollars / kWh',
    sample_rate=SampleRate(multiplier=30, base_freq='minutes'),
    adjustment_factor=1.05
)

Or can be easily instantiated given a dict of appropriate structure:

single_rate_dict = {
    "name": "single_rate_tariff",
    "charge_type": "SingleRateTariff",
    "rate": 0.07,
    "consumption_unit": "kWh",
    "sample_rate": {
        "multiplier": 30,
        "base_freq": "minutes"
    },
    "rate_unit": "dollars / kWh",
    "adjustment_factor": 1.005
}

tou_tariff_dict = {
    "name": "retail_tou",
    "charge_type": "TouTariff",
    "consumption_unit": "kWh",
    "sample_rate": {
        "multiplier": 30,
        "base_freq": "minutes"
    },
    "rate_unit": "dollars / kWh",
    "adjustment_factor": 1.005,
    "tou": {
        "time_bins": [
            7,
            21,
            24
        ],
        "bin_rates": [
            0.06,
            0.10,
            0.06
        ],
        "bin_labels": [
            "off-peak",
            "peak",
            "off-peak"
        ]
    },
}
connection_tariff_dict = {
    "name": "connection_tariff",
    "charge_type": "ConnectionTariff",
    "rate": 315.0,
    "consumption_unit": "day",
    "frequency_applied": "day",
    "sample_rate": {
        "multiplier": 30,
        "base_freq": "minutes"
    },
    "rate_unit": "dollars / day",
    "adjustment_factor": 1.0
}

single_rate_tariff = SingleRateTariff.from_dict(single_rate_dict)
tou_tariff = TouTariff.from_dict(tou_tariff_dict)
connection_tariff = ConnectionTariff.from_dict(connection_tariff_dict)
Create consumption meter data

The ts-tariffs library provides a MeterData object for handling timeseries consumption data. It accepts a pd.Series with a datetime index as a representation of consumtion.

The sample rate must be specified manually with a timedelta or SampleRate object (in future versions this may end up being inferred from the series index, but there are presently issues with this approach).

Consumption units must also be specified such that they are coherent with the tariffs that are applied to them (this is particularly important for Meters objects in which multiple tariffs can be bundled together with multi-channel meters - discussed later)

The meter_data_df below is a pd.DataFrame object with a datetime index at 30min frequency, and a consumption column called 'energy'. A MeterData object is then created as follows:

from ts_tariffs.meters import MeterData
from ts_tariffs.examples.data_getters import houshold_consumption

# Get consumption timeseries at 30min sample rate
meter_data_df = houshold_consumption(30, 'minute')

sample_rate = SampleRate(multiplier=30, base_freq='minutes')    # Alternatively you could use timedelta(minutes=30) here
my_meter_data = MeterData(
    name='energy',
    tseries=meter_data_df['energy'],
    sample_rate=sample_rate,
    units='kWh'
)
Calculate bills

You can calculate the cost of energy tariffs to meter data by calling the Tariff.apply() method*. This returns an AppliedCharge object which contains the total sum of charges, as well as other data/metadata, depending on the tariff type

*Note: Presently the Tariff.sample_rate must be in agreement with MeterData.sample_rate. Future versions may automatically resample, assuming the resample rule (e.g. mean() or sum()) can be inferred from the units

single_rate_applied_charge = single_rate_tariff.apply(my_meter_data)

A Bill object can be used to tabulate the charge totals for one or more tariffs if given a MeterData. A Bill consists of one or many AppliedCharge objects:

from ts_tariffs.billing import Bill
my_bill = Bill(
    name='my_bill',
    charges=[
        single_rate_tariff.apply(my_meter_data),
        tou_tariff.apply(my_meter_data),
        connection_tariff.apply(my_meter_data),
    ]
)
print(my_bill.as_series)
single_rate_tariff      1357.642382
retail_tou              1688.470396
connection_tariff     229635.000000
Name: my_bill, dtype: float64

Examples

Critical Peak Demand
from datetime import timedelta

from ts_tariffs.examples.data_getters import houshold_consumption

from ts_tariffs.meters import MeterData
from ts_tariffs.tariffs import CriticalPeakDemandTariff
from ts_tariffs.ts_utils import DateWindow, DatetimeWindow

data = houshold_consumption(30, 'minute')
meter = MeterData(
    'household_consumption',
    data['apparent_power'],
    timedelta(minutes=30),
    'kVA'
)

cpd_tariff = CriticalPeakDemandTariff(
    name='cpd_tariff',
    charge_type='CriticalPeakDemandTariff',
    consumption_unit='kVA',
    rate_unit='dollars /kVA',
    sample_rate=timedelta(hours=0.5),
    adjustment_factor=1.0,
    rate=19.00,
    frequency_applied='month',
    period_active=DateWindow(
        start=(2008, 4, 1),
        end=(2009, 3, 31)
    ),
    critical_period=DateWindow(
        start=(2007, 12, 1),
        end=(2008, 3, 1)
    ),
    critical_peak_windows=[
        DatetimeWindow(
            start=(2007, 12, 12, 15),
            end=(2007, 12, 12, 19)
        ),
        DatetimeWindow(
            start=(2008, 1, 5, 15),
            end=(2008, 1, 5, 19)
        ),
        DatetimeWindow(
            start=(2008, 1, 30, 15),
            end=(2008, 1, 30, 19)
        ),
        DatetimeWindow(
            start=(2008, 2, 24, 15),
            end=(2008, 2, 24, 19)
        ),
        DatetimeWindow(
            start=(2008, 3, 12, 15),
            end=(2008, 3, 12, 19)
        ),
    ]
)
applied_charge = cpd_tariff.apply(meter)
print(applied_charge)

Output

root\ariff-module\ts_tariffs\tariffs.py:263: UserWarning: The critical period tariff, cpd_tariff, was not applied to the full period_active window because the consumption MeterData did not cover the full window
AppliedCharge(name='cpd_tariff', charge_ts=year  month
2008  4        51.181886
      5        51.181886
      6        51.181886
      7        51.181886
      8        51.181886
      9        51.181886
      10       51.181886
      11       51.181886
      12       51.181886
Name: charge, dtype: float64, rate_unit='dollars /kVA', consumption_units='kVA', total=460.63697215248004)

Note that the AppliedCharge object specifies the charge for each period and the total charge

Also note that a warning was encountered indicating that the calculation was not applied to the full period_active window because of insufficient consumption data

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