Energy Management System for Analysis and Reporting in the Advanced Metering

Smart load management system with an advanced metering infrastructure operates to monitor the electricity consumption by the load and transferring data to the utility grid. It has direct benefit to the end-users by managing the load. This system has incorporated with home appliance for achieving the goal of home energy management system (HEMS) such as efficient energy utilization of house by avoiding the wastage. Efficient loading system can strengthen the efficient power utilization and thus can save the economy greatly. Air conditioner (AC), thermostat associated with a room were selected for this purpose as they have the high demand of electricity consumption. This study mainly focuses on developing the mathematical model and simulate it for the considered home appliances to assess the trend of electricity consumption. Research proved that, considering the ambient temperature developed model can provide the specific instructions for automatic controlling of the appliances which will save the electricity consumption and utility bill of end-users compare to the manual operation of the system. Matlab /Simulink software was used to implement and justify the model.

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A Design Scheme of Energy Management System for Low-Carbon Community in Smart Grid Environment

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.260-261.820 ◽

2012 ◽

Vol 260-261 ◽

pp. 820-824

Author(s):

Shuang Hu Wang ◽

Yong Yi Wu

Keyword(s):

Smart Grid ◽

Energy Management ◽

Management System ◽

Distribution Automation ◽

Automation System ◽

Energy Management System ◽

Low Carbon ◽

Automation Systems ◽

Machine Interface ◽

Advanced Metering

Using double-network, double-machine technology, the hardware framework of the energy management system is designed. The software framework scheme is proposed according to different layers. By designing graph, report, alarm, database management, man-machine interface and privilege subsystems on supporting platform, various services are presented. The proposed energy management system integrated many automation systems, such as Distribution Automation system, Advanced Metering Infrastructure and so on. The senior application functions of the energy management system are introduced. Adopting smart grid technology, the proposed scheme provides a new solution to better manage, use, save and monitor energy especially renewable energy. Because of its obvious advantages in enhancing energy efficiency, the introduced energy management system is expected to be widely used in low-carbon community.

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Home energy management system internetworking with advanced metering infrastructure

2012 International Conference on ICT Convergence (ICTC) ◽

10.1109/ictc.2012.6386843 ◽

2012 ◽

Cited By ~ 2

Author(s):

Jeong In Lee ◽

Chang Sik Choi ◽

Wan Ki Park ◽

Il Woo Lee

Keyword(s):

Energy Management ◽

Management System ◽

Energy Management System ◽

Advanced Metering Infrastructure ◽

Home Energy Management ◽

Home Energy Management System ◽

Advanced Metering

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Energy Management System for Integration of Different Renewable Energy System into Microgrids

International Journal of Advanced Trends in Computer Science and Engineering ◽

10.30534/ijatcse/2021/1061022021 ◽

2021 ◽

Vol 10 (2) ◽

pp. 1234-1242

Keyword(s):

Power Generation ◽

Renewable Energy ◽

Energy Management ◽

Management System ◽

Energy System ◽

Economic Benefits ◽

Energy Management System ◽

Data Set ◽

Battery State Of Charge ◽

Advanced Metering

Renewable energy (RE) is currently being used on a wide scale to meet the rising demand for energy, minimise pollution in environmental, and achieve sustainable social and economic benefits. This paper focuses on the design and development of EMS that can ensure the safe operation of island microgrids (MGs) in the event of possible imbalances between load demand and power generation. Energy management system (EMS) performs optimized calculations for the low priority loads that need to be shut down and the charging and discharging cycle of the batteries in the microgrid (MG). The non-linear model predictive control (NMPC) algorithm was selected to implement energy management system, which processes a data set consisting of power generation, load measurement, battery state of charge (SOC), and set of operating constraints. Energy management system was designed under assumption of installing Advanced Metering Infrastructure (AMI) in MG. Energy management system (EMS) was tested on a simulation platform that integrates a model of the microgrid (MG) component and its distributed controller (DC). The simulation results demonstrate the effectiveness of this method, because even when there is a fault in one of the distributed controllers, key variables such as the voltage and frequency amplitude of the microgrid (MG) will operate within a secured interval.

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Review of Energy Management System Approaches in Microgrids

Energies ◽

10.3390/en14175459 ◽

2021 ◽

Vol 14 (17) ◽

pp. 5459

Author(s):

Amrutha Raju B ◽

Sandeep Vuddanti ◽

Surender Reddy Salkuti

Keyword(s):

Energy Management ◽

Management System ◽

Distribution Systems ◽

Local Area ◽

Energy Management System ◽

Medium Voltage ◽

Structure Control ◽

Management Approaches ◽

Advanced Metering ◽

Microgrid Control

To sustain the complexity of growing demand, the conventional grid (CG) is incorporated with communication technology like advanced metering with sensors, demand response (DR), energy storage systems (ESS), and inclusion of electric vehicles (EV). In order to maintain local area energy balance and reliability, microgrids (MG) are proposed. Microgrids are low or medium voltage distribution systems with a resilient operation, that control the exchange of power between the main grid, locally distributed generators (DGs), and consumers using intelligent energy management techniques. This paper gives a brief introduction to microgrids, their operations, and further, a review of different energy management approaches. In a microgrid control strategy, an energy management system (EMS) is the key component to maintain the balance between energy resources (CG, DG, ESS, and EVs) and loads available while contributing the profit to utility. This article classifies the methodologies used for EMS based on the structure, control, and technique used. The untapped areas which have scope for investigation are also mentioned.

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