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Flexible futures: The potential for electrical energy demand response in New Zealand

Baxter Williams, D. G. Bishop

2024Energy Policy14 citationsDOIOpen Access PDF

Abstract

Demand response (DR) is the shifting of electricity demand to align with generation or other constraints, which can extend the lifetime of network components and increase the use of renewable energy. DR implementation depends on technical, economic, and behavioural factors, alongside country-specific factors. In this work, the existing and emerging DR potential in New Zealand is calculated, based on technological capacities. New Zealand is shown to have abundant DR potential, equivalent to 69% of national electrical energy demand, which can be harnessed through retrofitting and incentivisation. The residential, commercial, industrial, and agricultural sectors each offer considerable DR potential, with water heating, refrigeration systems, and electric motors key candidates. Electric vehicles and the electrification of industrial process heat in line with New Zealand's decarbonisation goals will offer additional DR potential, equivalent to 23% of existing electricity demand. Specific policy recommendations are provided, including the incorporation of controllability into emerging electrification projects to facilitate their use for DR. These findings suggest DR can be a solution for electricity load management in New Zealand and other countries, and provide a framework for policy makers, network operators, and electricity companies to target DR implementation, enhancing energy system resilience and sustainability. • A generalised process is presented to determine demand response potential. • Up to 69% of New Zealand's electricity demand is suitable for demand response. • Demand response is abundant across all sectors. • Electrification of transport and industrial heating can increase demand response. • Adoption of future technologies should consider controllability.

Topics & Concepts

Futures contractDemand responseEnergy demandEnergy (signal processing)EconomicsNatural resource economicsEngineeringElectricityFinancial economicsElectrical engineeringPhysicsQuantum mechanicsSmart Grid Energy ManagementEnergy Efficiency and ManagementIntegrated Energy Systems Optimization