Low-cost web-based Supervisory Control and Data Acquisition system for a microgrid testbed: A case study in design and implementation for academic and research applications

Vargas‐Salgado, Carlos; Águila-León, Jesús; Chiñas-Palacios, Cristian; Hurtado-Pérez, Elías

doi:10.1016/j.heliyon.2019.e02474

Cited by 55 publications

(33 citation statements)

References 27 publications

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“…From this, a reasonable inference can be made that, in 2024, approximately 1.4 to 3.6 million EVs will be integrated into Korean power systems. In scenario (3) and (4), the EV is assumed as the classic EV which can only charge from the grid. To obtain an hourly charging load, it is assumed that EV charges 8.7 kWh in a day on average with a 2.3 kW converter, therefore, they charge for 4 hours per day on average.…”

Section: Numerical Resultsmentioning

confidence: 99%

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Integration of Smart Grid Resources into Generation and Transmission Planning Using an Interval-Stochastic Model

Moon

Joo

2020

Energies

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In the power industry, the deployment of smart grid resources in power systems has become an issue of major interest. The deployment of smart grid resources represents an additional uncertainty in the integrated generation and transmission planning that raises uncertainties in investment-related decision making. This paper presents a new power system planning method for the integration of electric vehicles (EVs) and wind power generators into power systems. An interval-stochastic programming method is used to account for the heterogeneous uncertainties attributable to natural variability and lack of knowledge. The numerical results compare the multiple integration scenarios and verifies the effectiveness of the proposed method in terms of cost distribution and regret cost.

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Section: Numerical Resultsmentioning

confidence: 99%

“…The studies for integrating new energy resources have been conducted. An open source-based hardware platform [2] and monitoring, control system was developed [3,4]. While digitalizing the power grid, a secure authentication for new energy sources was also studied [5].…”

Section: Introductionmentioning

confidence: 99%

Integration of Smart Grid Resources into Generation and Transmission Planning Using an Interval-Stochastic Model

Moon

Joo

2020

Energies

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“…As BESS, VRFB storage has been used in this work because of its several advantages like scalability and longest cycle life compared to the other conventional battery storages (Li-ion, Lead Acid, etc.). The proposed microgrid energy monitoring and control architecture consist of four major subsystems; 1) Low-cost energy meter for real-time data acquisition for multiple RE sources, grid and load, 2) Monitoring and control using Raspberry-Pi (Single Board Computer) platform and MODBUS over TCP/IP platform, 3) Cloud-based [37] , [38] , [39] , [40] remote monitoring unit (RMU) using Message Queuing Telemetry Transport (MQTT) server and ThingSpeak [ 41 , 42 ] Middleware, 4) Capacity measurement of biogas production along with biogas engine Start/Stop control. It is to be noted that the HyperText Transfer Protocol (HTTP) has been one of the most popular servers for remote monitoring and its various applications.…”

Section: Introductionmentioning

confidence: 99%

Internet of things based smart energy management in a vanadium redox flow battery storage integrated bio-solar microgrid

Samanta

Bhattacharjee

Pramanik

et al. 2020

Journal of Energy Storage

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Highlights First time the solar-biogas-VRFB storage integrated IoT based smart microgrid is implemented. Optimized energy management has been demonstrated for the local community. Raspberry-Pi based low cost smart communication platform is used to monitor and control microgrid operation in real time. Available solar PV power is effectively utilized even during sudden grid outage at day time. 24 × 7 energy security is ensured by intelligent scheduling of RE sources and storage.

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“…Hence, energy trading strategies are inevitable to integrate RES in existing power system for the fulfillment of economical and environment friendly power demand. The researchers have proposed tools, platform and strategies to provide optimized energy management on the demand-side by evaluating and analyzing data for academic research in SG [16][17][18].…”

Section: Introductionmentioning

confidence: 99%

Cost Efficient Real Time Electricity Management Services for Green Community Using Fog

et al. 2020

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The computing devices in data centers of cloud and fog remain in continues running cycle to provide services. The long execution state of large number of computing devices consumes a significant amount of power, which emits an equivalent amount of heat in the environment. The performance of the devices is compromised in heating environment. The high powered cooling systems are installed to cool the data centers. Accordingly, data centers demand high electricity for computing devices and cooling systems. Moreover, in Smart Grid (SG) managing energy consumption to reduce the electricity cost for consumers and minimum rely on fossil fuel based power supply (utility) is an interesting domain for researchers. The SG applications are time-sensitive. In this paper, fog based model is proposed for a community to ensure real-time energy management service provision. Three scenarios are implemented to analyze cost efficient energy management for power-users. In first scenario, community’s and fog’s power demand is fulfilled from the utility. In second scenario, community’s Renewable Energy Resources (RES) based Microgrid (MG) is integrated with the utility to meet the demand. In third scenario, the demand is fulfilled by integrating fog’s MG, community’s MG and the utility. In the scenarios, the energy demand of fog is evaluated with proposed mechanism. The required amount of energy to run computing devices against number of requests and amount of power require cooling down the devices are calculated to find energy demand by fog’s data center. The simulations of case studies show that the energy cost to meet the demand of the community and fog’s data center in third scenario is 15.09% and 1.2% more efficient as compared to first and second scenarios, respectively. In this paper, an energy contract is also proposed that ensures the participation of all power generating stakeholders. The results advocate the cost efficiency of proposed contract as compared to third scenario. The integration of RES reduce the energy cost and reduce emission of CO 2 . The simulations for energy management and plots of results are performed in Matlab. The simulation for fog’s resource management, measuring processing, and response time are performed in CloudAnalyst.

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Low-cost web-based Supervisory Control and Data Acquisition system for a microgrid testbed: A case study in design and implementation for academic and research applications

Cited by 55 publications

References 27 publications

Integration of Smart Grid Resources into Generation and Transmission Planning Using an Interval-Stochastic Model

Integration of Smart Grid Resources into Generation and Transmission Planning Using an Interval-Stochastic Model

Internet of things based smart energy management in a vanadium redox flow battery storage integrated bio-solar microgrid

Cost Efficient Real Time Electricity Management Services for Green Community Using Fog

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