Novel remote monitoring platform for RES-hydrogen based smart microgrid

[Display omitted] •A remote monitoring platform is developed to monitor an experimental smart microgrid.•Smart microgrid integrates renewable energy sources (solar and wind) and hydrogen.•The platform is implemented using open-source tool Easy Java/Javascript Simulations.•Remote user accesses online...

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Vydáno v:Energy conversion and management Ročník 148; s. 489 - 505
Hlavní autoři: González, I., Calderón, A.J., Andújar, J.M.
Médium: Journal Article
Jazyk:angličtina
Vydáno: Oxford Elsevier Ltd 15.09.2017
Elsevier Science Ltd
Témata:
Authoring
Computer applications
Computer simulation
computer software
cost effectiveness
Data acquisition
Distributed generation
Easy Java/Javascript Simulations
Electric power grids
Electricity distribution
energy flow
Energy storage
Hydrogen
Hydrogen storage
Java
Mathematical analysis
monitoring
Numerical analysis
Remote monitoring
Renewable energy sources
Smart grid
Smart microgrid
Solar energy
Source code
Studies
Visualization
wind
PVG
OPC
EJsS
Hydrogen
DPS
PLC
Easy Java/Javascript Simulations
VNC
EMDL
WG
PPS
SG
RESs
PEMEL
ICTs
SCADA
EESS
HMI
SOC
FLBC
JIL
SMG
Smart microgrid
Smart grid
PCC
Renewable energy sources
CCS
PEMFC
VI
RMP
DAQ
HESS
HTSE
Remote monitoring
ISSN:0196-8904, 1879-2227
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Shrnutí:[Display omitted] •A remote monitoring platform is developed to monitor an experimental smart microgrid.•Smart microgrid integrates renewable energy sources (solar and wind) and hydrogen.•The platform is implemented using open-source tool Easy Java/Javascript Simulations.•Remote user accesses online to graphical/numerical information of all components.•Results show proper operation of the SMG and prove effective real-time monitoring. In the context of the future power grids – Smart Grids (SGs) – Smart MicroGrids (SMGs) play a paramount role. These ones are very specific portions of the SGs that deal with integration of small-rated distributed energy and storage resources closer to the loads – chiefly within the distribution domain. Data acquisition and monitoring tasks are vital functions that must be developed at every stage of the grid for a proper operation. This paper presents a remote monitoring platform (RMP) to monitor an experimental SMG. It integrates Renewable Energy Sources (RESs) (solar and wind) and hydrogen to operate in isolated regime. The RMP has been developed using the open-source authoring tool Easy Java/Javascript Simulations (EJsS). The interface has been designed to be intuitive and easy-to-use, providing real-time information of all the involved magnitudes over the network. Scalability, easy development, portability and cost effective are the main features of the proposed framework. The microgrid and the proposed monitoring platform are described and the successful results are reported. The remote user executes a ready-to-use file with low computational requirements and is enabled to graphically and numerically track the SMG behaviour. These results prove the suitability of the RMP as an effective means for continuous visualization of the coordinated energy flows of a real SMG.
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ISSN:0196-8904
1879-2227
DOI:10.1016/j.enconman.2017.06.031