Energy Management for Prepaid Customers: A Linear Optimization Approach

With increasing energy prices, low income households are known to forego or minimize the use of electricity to save on energy costs. If a household is on a prepaid electricity program, it can be automatically and immediately disconnected from service if there is no balance in its prepaid account. Su...

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Bibliographic Details
Published in:arXiv.org 2024-08
Main Authors: Marathe, Maitreyee, Roald, Line A
Format: Article
Language:English
Subjects:
Electric power demand
Energy costs
Energy management
Household appliances
Households
Integer programming
Linear programming
Mixed integer
Optimization
Prepaid services
Residential energy
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Summary:With increasing energy prices, low income households are known to forego or minimize the use of electricity to save on energy costs. If a household is on a prepaid electricity program, it can be automatically and immediately disconnected from service if there is no balance in its prepaid account. Such households need to actively ration the amount of energy they use by deciding which appliances to use and for how long. We present a tool that helps households extend the availability of their critical appliances by limiting the use of discretionary ones, and prevent disconnections. The proposed method is based on a linear optimization problem that only uses average power demand as an input and can be solved to optimality using a simple greedy approach. We compare the model with two mixed-integer linear programming models that require more detailed demand forecasts and optimization solvers for implementation. In a numerical case study based on real household data, we assess the performance of the different models under different accuracy and granularity of demand forecasts. Our results show that our proposed linear model is much simpler to implement, while providing similar performance under realistic circumstances.
ISSN:2331-8422