Abstract: This paper investigates the effect of selected strategies of distributed energy resources (DER) on an energy cost function, which optimizes the allocation of distributed energy resources for a mid-rise apartment building. This is achieved by comparison of parameter optimization results for both a high- and low-level optimizer respectively. The optimization process is carried out using the following approach: (1) a two-objective function is constructed with one objective function similar to that of the high-level optimizer (DER-CAM); (2) an evolutionary algorithm (EA) with modified selection capability is used to optimize the two-objective function problem in (1) for 4 selected cases of DER utilization previously optimized in DER-C...
The addition of storage technologies such as flow batteries, conventional batteries, and heat storag...
Technically, residential energy management systems are fundamental sectors in the smart grids for im...
In this Chapter, we consider a microgrid with a certain number of distributed energy resources (DER)...
This paper investigates the effect of selected strategies of distributed energy resources (DER) on a...
The expansion and operation of electric power systems have always been viewed as a critical economic...
[EN] In this paper, a new algorithm for optimal management of distributed energy resources in facili...
In an optimally designed grid-connected system with distributed energy resources where the grid play...
The operation strategies of a distributed energy system (DES) are usually proposed according to the ...
Primary energy consumption has increased exponentially in the last decades due to global economic gr...
Energy is an area of human activities that contains production, trading, transmission, distribution,...
In order to fully exploit the potential of renewable energy resources (RERs) for building applicatio...
As a promising approach for sustainable development, distributed energy systems have receive increas...
Distributed power supply with the use of renewable energy sources and intelligent energy flow manage...
The optimal combination of energy conversion and storage technologies with local energy demand is a ...
AbstractSome types of storage equipment, such as thermal energy storage (TES) and batteries, have re...
The addition of storage technologies such as flow batteries, conventional batteries, and heat storag...
Technically, residential energy management systems are fundamental sectors in the smart grids for im...
In this Chapter, we consider a microgrid with a certain number of distributed energy resources (DER)...
This paper investigates the effect of selected strategies of distributed energy resources (DER) on a...
The expansion and operation of electric power systems have always been viewed as a critical economic...
[EN] In this paper, a new algorithm for optimal management of distributed energy resources in facili...
In an optimally designed grid-connected system with distributed energy resources where the grid play...
The operation strategies of a distributed energy system (DES) are usually proposed according to the ...
Primary energy consumption has increased exponentially in the last decades due to global economic gr...
Energy is an area of human activities that contains production, trading, transmission, distribution,...
In order to fully exploit the potential of renewable energy resources (RERs) for building applicatio...
As a promising approach for sustainable development, distributed energy systems have receive increas...
Distributed power supply with the use of renewable energy sources and intelligent energy flow manage...
The optimal combination of energy conversion and storage technologies with local energy demand is a ...
AbstractSome types of storage equipment, such as thermal energy storage (TES) and batteries, have re...
The addition of storage technologies such as flow batteries, conventional batteries, and heat storag...
Technically, residential energy management systems are fundamental sectors in the smart grids for im...
In this Chapter, we consider a microgrid with a certain number of distributed energy resources (DER)...