A smart energy management system for monitoring and controlling time of power consumption (original) (raw)

Smart Meter for Energy Management

In this paper, we aim to design a smart meter for energy management system using microcontroller to collect the statistics of power consumptions, power quality and is able to interface devices for load displacement. The device is characterized by easy access to the information and the combination of a smart meter and data communication, capability allow local and remote access. In this way it is possible to manage the power consumption of the power system to leading an overall reduction in consumption and costs. Web server allow with the collection the information and analysis the data's to present the visual presentation now and then, so better energy management scheme can be implemented.

Energy Management System in Smart Grid: An Overview

The rapid economic development is causing huge stresses in the existing generation, transmission and distribution systems as they are not able to keep pace with the increasing demand. Installation and incorporation of a large number of electrical power generation units with increased capacities to deal with the surging demand has an adverse impact on the environment therefore an efficient Energy Management is imperative. Smart Grid may be the answer to this expected energy crisis and management. Conventional instrumentation has proven inadequate for the purpose of managing the extensive and complex power systems. The electric grid to increase overall system efficiency and reliability. Much of the technology currently in use by the grid is outdated and in many cases unreliable. The smart grid implements a two way communications and also facilitate the two way flow of energy. A smart grid is an intelligent electricity network that integrates the actions of all users connected to it and makes use of advanced information, control, and communications technologies to save energy, reduce cost and increase reliability and transparency. Smart Grid has two major aspects, the smart grid (Generation, transmission and distribution system) on one hand and programmable smart appliances on the other. This review paper presents literature survey conducted on different energy management systems fetching the data from the generation to consumption by using different means and approaches. The Smart Energy Management System is developed with ability to record, store, and process power consumption data of every major appliance in the house and Industries. The power consumption data is accessible through the Web portal and on handheld devices. Homeowners and Industries can track their power usage by device, room, equipment, Plant or appliance, which helps better regulate power consumption. In this article, we survey the literature till early 2015 on the enabling technologies for the Smart Grid. Out of three major systems, namely the smart infrastructure system, the smart management system, and the smart protection system, We explore the energy management system(EMS). Again out of various management objectives in smart management system, such as improving energy efficiency, profiling demand, maximizing utility, reducing cost, and controlling emission we explore to integrate home and building energy management systems (HEMS, BEMS), solar PV technology, and energy storage with the microgrid.

Smart Energy Meter with Advanced Features and Billing System

2019

The paper presents designing, implementation of the cost effective Energy Meter having demand side load management with flexible tariff plan. Smart Energy Meter with the enabling feature of Automatic Meter Reading (AMR) and storing data in SD card, communication of billing information with the consumer and utility through GSM network, tampering detection and notify both consumer and utility through Short Massaging Service (SMS). Advanced feature of this meter is demand side load management during peak and off-peak hours. Using load management customer can go into daily cost reduction process. In load management, consumer load limit is flexibly reduced during peak hours and by increasing this limit SEM automatically cut off the load. In case of any fault SEM also automatically disconnect the complete load through relay operation..

Introduction To Smart Energy Management Systems

International Journal for Research in Applied Science and Engineering Technology (IJRASET), 2022

Home and business owners have always been concerned about energy and electricity usage. As resources become scarcer and power rates rise, it's more vital than ever for households and companies to understand how they use energy and how to use it most efficiently. Installing an energy management system, which helps the user understand when they consume the most energy are the best tactics they can employ to conserve, is one way they can achieve this. We'll utilize telemetric communication to measure how much energy is used in the house and automatically issue a bill. This will aid in minimizing energy usage in the home because the owner will be constantly informed of the number of units that are being utilized. The main goal is to create the bill automatically by checking the house's electricity consumption in order to eliminate human labor and to gain forecast insights into energy consumption. The computations will be carried out automatically, and the bill will be updated online via an Internet of Things network. The amount of the bill can be reviewed remotely by the user.

A Residential Energy Management System

This paper proposes an energy management system to be used in a smart grid setting to optimize the use of manageable residential loads. The current state of the prototype development is described and a brief introduction to the control approach is made. The communication modules and the main features of the algorithms embedded in the energy manag e-ment system to make optimal decisions concerning electricity usage are depicted. This system should be able to monitor the power requested to the grid by appliances and simultaneously receive input information provided by the end-user and the grid in order to design optimal decisions for end-use loads. The energy management system will receive data such as electricity prices, weather conditions, indoor temperatures and end-user's preferences concerning time slots for scheduling appliances and admissible temperature range variation for thermostatically controlled loads. Sensors play a key role in the monitoring process due to the poten...

Development of a Smart Energy Monitoring System

The Philippine statistician (Quezon City), 2021

The preservation of energy and the fight against global climate change are both benefited by computationally intelligent energy forecasting techniques for effective energy management at the consumer/producer side. Worldwide energy production and consumption are quite high, necessitating intelligent approaches with practicable implementation potential for effective energy management. The development of smart energy monitoring systems has become an increasingly important area of research in recent years. With the growing concern over climate change and the need to reduce greenhouse gas emissions, it is essential to find new ways to conserve energy and promote sustainable practices. One way to achieve this goal is by using smart energy monitoring systems that enable users to monitor and control their energy consumption. In this article, we will discuss the development of a smart energy monitoring system, its components, benefits, and challenges.

Design and implementation of smart energy meter

2016 International Conference on Inventive Computation Technologies (ICICT), 2016

This work is about optimizing the existing meters that provide meter reading at the end of the month to the consumers with the help of a person who notes them down manually. This paper mainly highlights the existing methodology of electricity billing that takes place in the households and proposes a method with the aim of requiring minimum human interference and very high efficiency by incorporating data transfer via the internet. Thus without manpower power companies or organizations are able to provide services to its customers by feeding data in an integrated energy management system. The same data will be made accessible to the consumer and billing authorities over cloud. This way the customer is fully aware of his daily consumption. Energy theft is prevalent in the societies and by using this concept we can efficiently mitigate the same. The option of online payment is also included thus making it very convenient for the consumer to pay their bills. Further, using neural networks we have also analysed the trend of energy consumption or requirements of energy in the household. High fidelity billing and its related remote metering services are successfully implemented through this project.

SMART ENERGY METERING AND BILLING SYSTEM

Internet of Things (IoT) is a system with sensors, software, electronics and connectivity that provides better exchange of information between connected devices, operator. [1,2]. It reduces the effort of human by introducing machine to machine interaction. The awareness of energy consumption pattern is necessary due to growing demand for energy in day to day life [3]. The evolution of IOT offers solutions to many complex applications for smart cities. It is the ability of devices, networks and sensors to communicate with each other, with and without any human interaction [4]. In this project, a smart metering and billing system has been proposed that allows the user to monitor his/her energy usage statistics. The proposed model gives a solution to encourage people to know their energy footprint and take required action to reduce it. Arduino microcontroller is connected to the Google Firebase database. Arduino measures the energy consumption and sends the data to the firebase database. Android Studio is used to develop an Android application in which a dashboard is created. This application facilitates the Smart Metering of the consumed energy which displays the daily consumption of energy to the consumer as well as the utility. This application will help in the maintenance from the utility side using mobile phones and is accessible 24x7 depending on the user's convenience. The statistics can be used to study the energy profile in detail

The Smart Energy Meter

International Journal for Research in Applied Science & Engineering Technology, 2021

Energy conservation is the effort made to reduce the consumption of energy by using less of an energy service. This can be achieved either by using energy more efficiently or by reducing the amount of service used. Energy conservation is a part of the concept of Eco-sufficiency. Energy consumption monitoring at domestic or industrial locations is required to understand the trends over a period of time. The data acquired during monitoring is useful for taking necessary steps to save the energy. In this project we have developed a Smart Energy Meter system using GSM technology which also has a additional component added which is capacitor which can send you updates about the energy consumption at a particular interval of time and the capacitor is added as the output of the energy meter so as to lower the Electricity Bill. You will be using an Arduino development board as a processing unit.As part of this course you will learn about GSM technology, electrical loads and their measurement, Arduino development boards, Arduino environment and will implement Arduino programming for building your Smart Energy Meter system.This smart energy meter can send the amount energy consumed in a fixed period of time as a sms at regular intervals to the mobile phone. This data can be then be plotted as a graph to understand the energy consumption over a period of time.

Smart Monitoring of the Consumption of Home Electrical Energy

The proposed system offers a strategy to control the consumed electrical energy by the home appliances based on the previous power production and consumption statistical database for a case study city. According to the design, the home's appliances are divided into three level of priority but it could be more. In this article a real-time energy consumption manager (ECM) is presented to control the energy consumption based on a storage data and no real time communication is required. The offered system is not only simple and cost efficient but it also needs no grid upgrade or power line communication via the grid.