David Infield scite author profile

The pattern of electricity use in an individual domestic dwelling is highly dependent upon the activities of the occupants and their associated use of electrical appliances. This paper presents a high-resolution model of domestic electricity use, that is based upon a combination of patterns of active occupancy (i.e. when people are at home and awake), and daily activity profiles that characterise how people spend their time performing certain activities. One-minute resolution synthetic electricity demand data is created through the simulation of appliance use; the model covers all major appliances commonly found in the domestic environment. In order to validate the model, electricity demand was recorded over the period of a year within 22 dwellings in the East Midlands, UK. A thorough quantitative comparison is made between the synthetic and measured data sets, showing them to have similar statistical characteristics. A freely downloadable example of the model is made available and may be configured to the particular requirements of users or incorporated into other models.

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Energy Storage and Its Use With Intermittent Renewable Energy

Barton

Infield

2004

IEEE Trans. On Energy Conversion

1,213

538

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Stabilization of Grid Frequency Through Dynamic Demand Control

Short

Infield

Freris

2007

IEEE Trans. Power Syst.

596

394

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Frequency stability in electricity networks is essential to the maintenance of supply quality and security. This paper investigates whether a degree of built-in frequency stability could be provided by incorporating dynamic demand control into certain consumer appliances. Such devices would monitor system frequency (a universally available indicator of supply-demand imbalance) and switch the appliance on or off accordingly, striking a compromise between the needs of the appliance and the grid. A simplified computer model of a power grid was created incorporating aggregate generator inertia, governor action and load-frequency dependence plus refrigerators with dynamic demand controllers. Simulation modelling studies were carried out to investigate the system's response to a sudden loss of generation, and to fluctuating wind power. The studies indicated a significant delay in frequency-fall and a reduced dependence on rapidly deployable backup generation.Index Terms-Dynamic demand, dynamic demand control, demand-side management, frequency control, integration of renewable power generation, intelligent load, power system stability, refrigerators.

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David Infield

Domestic electricity use: A high-resolution energy demand model

Energy Storage and Its Use With Intermittent Renewable Energy

Stabilization of Grid Frequency Through Dynamic Demand Control

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