Design of an energy management system for an autonomous hybrid micro-grid based on Labview IDE

Cheddadi, Youssef; Gaga, Ahmed; Errahimi, Fatima; Sbai, Najia Es

doi:10.1109/irsec.2015.7454965

Cited by 9 publications

(3 citation statements)

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“…In recent times, theoretical research such as [7] - [9], have been carried out to explore the efficiency limits and to optimize and control electrical energy managements under different power grid networks and usage scenarios. These include the real-life energy management system reported in [10] and the autonomous hybrid microgrid system presented in [11]. The systems are reported to be capable of managing electrical energy sources and energy consumption rates and the data they obtain/generate are usually logged in real time to remote servers.…”

Section: Introductionmentioning

confidence: 99%

“…The systems are reported to be capable of managing electrical energy sources and energy consumption rates and the data they obtain/generate are usually logged in real time to remote servers. For example, the system in [11] is reported to be fully autonomous and does not give room for user alteration of its operations. It may be inferred that the complexity of operation of such systems do not make them easy to be adopted in regions with poor or no internet connectivity.…”

Section: Introductionmentioning

confidence: 99%

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Design of a gsm-based remotely operated electrical energy management system

Mfonobong,

Owoh,

Ekpe

2023

Nig. J. Tech.

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Electrical energy is a scarce resource in most developing countries. This has prompted numerous research into ways in which commercially deployed wireless communication technologies can be used to monitor, control and manage such energy. Analysis of many of such electrical energy management systems reveal inherent complexities in their deployment and operation. This has therefore motivated the proposal of a remotely operated electrical energy management system (ROEEMS). The proposed system is designed to manage electrical energy from three different sources such as commercial grid, photovoltaic arrays, and portable generator, and give an output depending on requirements of its operator. ROEEMS has been designed to overcome some challenges in existing systems such as system complexity and security demands (as is typical of Internet and server-based systems). The proposed design allows ROEEMS to achieve a truly remote operation mode while requiring limited operator skills and a comparatively reduced cost of installation and operation.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Design of a gsm-based remotely operated electrical energy management system

Mfonobong,

Owoh,

Ekpe

2023

Nig. J. Tech.

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“…Solar and wind energy generate technical energy management challenges due to their intermittent nature, making it necessary to implement control and supervision strategies, which must comply with the restrictions imposed by the demand, generation, and storage systems [7]. In this context, digital simulation platforms in real-time are being used to evaluate requirements of these generation systems connected to the network and the performance of their control systems [8][9][10][11][12].…”

Section: Introductionmentioning

confidence: 99%

Rapid Prototyping of a Hybrid PV–Wind Generation System Implemented in a Real-Time Digital Simulation Platform and Arduino

Pagola¹,

Capilla

Segundo

et al. 2019

Electronics

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The growing penetration of generation systems based on renewable energy in electric power systems is undeniable. These generation systems have many benefits, but also many challenges from the technical point of view. One of the biggest problems in the case of solar photovoltaic (PV) and wind energy is the intermittency of the raw material, thus hybrid generation systems that contain both sources are being used to complement electric power generation. To analyze the problems of this type of hybrid generation systems, it is necessary to develop models and test systems that allows to study their dynamic behavior. Reported in this paper is the implementation of a full hybrid PV–wind generation system model in a real-time digital simulation platform, and the development of the electronic converter controls. These controllers were implemented in digital devices (Arduino Due) and connected to the simulation platform to test their performance in real-time. In addition, the procedure followed for the development and implementation of the controllers is presented. The proposed test system can be used in renewable energy integration studies and the development of new control strategies.

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