Demand Side Management (DSM) is a means to gain more control over energy demand to address some of the challenges of power grids. Demand Response (DR) is an approach to DSM that aims to influence the operation times of appliances; DR is often recommended for residences. Meanwhile, residents can undermine DR if it is not convenient. Therefore, there is need for tools to aid decision-making on the appropriate DR program for residences. Whilst models are used to explore DR programs, most do not measure, visualise or analyse the convenience of residents, although some models make assumptions about convenience. This paper explores convenience of a residence as timeliness by simulating four scenarios of DR programs in a single residence, using th...
Nowadays Demand Response (DR) in Finland is market based, and such approach as controlling of domest...
To achieve a high level of reliability and robustness in power systems, the grid is usually designed...
The residential load sector plays a vital role in terms of its impact on overall power balance, stab...
Demand Side Management (DSM) is a means to gain more control over energy demand to address some of t...
In the Demand Side Management (DSM) context, residential customers have the potential for reducing c...
When consumers’ use of electricity is mainly driven by convenience, coincident demand occurs, result...
Alongside the well understood need to reduce overall electricity consumption, there is an increasing...
This paper investigates research work related to the modelling and simulation of household electrici...
While the traditional goal of an electric power system has been to control supply to fulfill demand,...
The current lifestyle of humanity relies heavily on energy consumption, thus rendering it an inevita...
Abstract Demand Response (DR) facilitates the monitoring and management of appliances in energy grid...
The climate change crisis requires immediate action on a global and national scale to mitigate the G...
Residential Demand Side Management (DSM) strategies increase the efficiency of the smart grid. Howev...
Electric power systems are undergoing a paradigm shift where an increasing number of variable renewa...
The energy sector, and buildings in particular, are one of the main contributors to climate change. ...
Nowadays Demand Response (DR) in Finland is market based, and such approach as controlling of domest...
To achieve a high level of reliability and robustness in power systems, the grid is usually designed...
The residential load sector plays a vital role in terms of its impact on overall power balance, stab...
Demand Side Management (DSM) is a means to gain more control over energy demand to address some of t...
In the Demand Side Management (DSM) context, residential customers have the potential for reducing c...
When consumers’ use of electricity is mainly driven by convenience, coincident demand occurs, result...
Alongside the well understood need to reduce overall electricity consumption, there is an increasing...
This paper investigates research work related to the modelling and simulation of household electrici...
While the traditional goal of an electric power system has been to control supply to fulfill demand,...
The current lifestyle of humanity relies heavily on energy consumption, thus rendering it an inevita...
Abstract Demand Response (DR) facilitates the monitoring and management of appliances in energy grid...
The climate change crisis requires immediate action on a global and national scale to mitigate the G...
Residential Demand Side Management (DSM) strategies increase the efficiency of the smart grid. Howev...
Electric power systems are undergoing a paradigm shift where an increasing number of variable renewa...
The energy sector, and buildings in particular, are one of the main contributors to climate change. ...
Nowadays Demand Response (DR) in Finland is market based, and such approach as controlling of domest...
To achieve a high level of reliability and robustness in power systems, the grid is usually designed...
The residential load sector plays a vital role in terms of its impact on overall power balance, stab...