A developed control is proposed for the population of Water Heater Devices to provide different dynamic Frequency Services. The hierarchal control is based on two decision Layers, the aggregator Layer and the device control Layer. The aggregator Layer receives States of devices and enables/disables the device control Layer. It enables the population to respond from devices with higher to lower Water Temperature when a frequency drop. It enables devices to work independently, consequently eliminate any uncertainty associated with the response of the devices. The dynamic representation of the Electric Resistance Water Heater (ERWH) and Heat Pump Water Heater (HPWH) were achieved using Markov chain. It was demonstrated using the single machine...
AbstractThis paper presents a dynamic frequency regulation strategy which uses residential thermosta...
peer reviewedThe fast deployment of renewable energy sources requires an increasing amount of freque...
This paper proposes and analyses a new demand response technique for renewable energy regulation usi...
A developed control is proposed for the population of Water Heater Devices to provide different dyna...
Frequency is an important parameter of a power system. It is of great significance to maintain its s...
AbstractBecause they store hot water, water heaters are easily-shifted loads that can be controlled ...
The capability of domestic heat pumps to provide dynamic frequency response to an electric power sys...
Conventional sources like wind, solar and geothermal energy are available abundantly in New Zealand...
This paper investigates the model of aggregated heat pumps as a source of the flexible load in Great...
This paper investigates the model of aggregated heat pumps as a source of the flexible load in Great...
This paper introduces a control concept for aggregators to directly control a pool of residential he...
This semester project investigates strategies aimed at controlling the aggre-gate power demand of la...
International audienceThe objective of this study is to assess the impact of storage and cutoff scen...
This paper proposes and analyses a new demand response technique for renewable energy regulation usi...
A recent trend of the power system is the ever increasing number of distributed generators (DGs) uti...
AbstractThis paper presents a dynamic frequency regulation strategy which uses residential thermosta...
peer reviewedThe fast deployment of renewable energy sources requires an increasing amount of freque...
This paper proposes and analyses a new demand response technique for renewable energy regulation usi...
A developed control is proposed for the population of Water Heater Devices to provide different dyna...
Frequency is an important parameter of a power system. It is of great significance to maintain its s...
AbstractBecause they store hot water, water heaters are easily-shifted loads that can be controlled ...
The capability of domestic heat pumps to provide dynamic frequency response to an electric power sys...
Conventional sources like wind, solar and geothermal energy are available abundantly in New Zealand...
This paper investigates the model of aggregated heat pumps as a source of the flexible load in Great...
This paper investigates the model of aggregated heat pumps as a source of the flexible load in Great...
This paper introduces a control concept for aggregators to directly control a pool of residential he...
This semester project investigates strategies aimed at controlling the aggre-gate power demand of la...
International audienceThe objective of this study is to assess the impact of storage and cutoff scen...
This paper proposes and analyses a new demand response technique for renewable energy regulation usi...
A recent trend of the power system is the ever increasing number of distributed generators (DGs) uti...
AbstractThis paper presents a dynamic frequency regulation strategy which uses residential thermosta...
peer reviewedThe fast deployment of renewable energy sources requires an increasing amount of freque...
This paper proposes and analyses a new demand response technique for renewable energy regulation usi...