IRJET- Smart Residence Energy Optimization System (original) (raw)
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IRJET, 2020
The proposed work is based on to monitor the energy consumption and energy management through Internet of Things (IoT). Electricity is one of the key factors in human life to survive on the earth. Most of our work requires electricity so it's important to save electricity. Without electricity life will be like heart without heartbeats. Energy saving is one of the main challenge in our day to day life. Energy saving can be done only when the energy consumed by the load is monitored. Once the load is monitored, suitable control methods can be adopted to operate the load in the optimized way to save energy. Even though there are lot of technologies and solutions available to effectively monitor, control and save energy consumption of load in a house or an industry, the Internet of Things technology is proposed to monitor, control and minimize energy consumption of load. The proposal is to design and develop an Internet of Things based Energy Management System in which the data is collected from smart energy meter using GPRS network and displayed on web page. The proposed system is suitable for data collection and control the load in the Internet of Things environment.
IRJET- Hybrid Model of Smart Energy Consumption Monitoring System
IRJET, 2020
Electricity is one of the most essential invention that human being has got from science and technology. But people are not aware of the importance of electricity and its demand. In industries electricity consumption is increasing anonymously. Due to huge amount spent over electricity bill there is a need for monitoring system. This monitoring system is combined with special features that provides a end to end monitoring with data backup system.
IRJET- Energy Efficient Smart Home Automation
IRJET, 2021
Living in digital age, various things are getting available for us in an instant click. It has become essential for us to conserve energy we consume on daily usage through electrical appliances by handling it the effective way. For that purpose, we have come up with an IOT based system to control electrical appliances with the help of various sensors and a central microprocessor that is with a NodeMcuESP8266 or a generic Arduino-UNO. A Blynk server has been used in the process to obtain data from the sensor and process it accordingly. It this system we have made sure not only to control the electrical appliances based on the data received from the sensor and acting accordingly, we have also left a scope to control it manually as per user's convenience for remote control access. Based on the data received from the sensors, various actions can be taken further like emergency alerts.
IRJET-IoT based Smart Energy Meter
IRJET, 2021
One avenue through which today's energy problems can be addressed is through the reduction of the energy usage in households. The existing system provides the feedback at the end of the month in the form of bill and consumed kilowatt hours (kWh). The Arduino based wireless power meter is a noninvasive power meter. Current is measured using split core current transformer. This data is then transmitted over a Wi-Fi connection to the base station. The project aims to provide a clear picture of a home's current usage, and through this data provide an estimate to power consumption. The goal of provided such a data to a user is that they will optimize and reduce their power usage.
IRJET- INTELLIGENT UTILITY METER
IRJET, 2020
To sustain our life electricity is incredibly important. Nowadays most people suffer from energy bill rises. This paper analyzes residential appliances excess energy usage, based on the electrical appliances ' average current value. In the generated WebPages, the day-today power usage data is modified and accessed by user and EB officials. The ultimate aim of this paper is to develop and incorporate the stand-alone system to identify excess energy usage and eliminate inefficient system fault. A standalone system with Node MCU leads with IoT concept was developed using sensor connectivity. The device's benefit is economical, and to prevent depletion of electricity.
IRJET- Automatic Control of Power with Energy Saving through Sensor in Smart Home Appliances
IRJET, 2020
Fan speed is controlled by changing the voltage level across them using triacs which avoids the losses of potentiometer regulators. Many times we leave the room and hall without switching off lights and fans, thus electricity is wasted. If it is six degrees or more below the threshold the fans are turned off. If the natural light intensity is below the preset threshold value then the lights are turned on and vice versa. Room temperature readings are taken from an sensor and compared with the user defined threshold value. This system saves energy by efficient power management of a room which employs certain controlling mechanisms managed by a microcontroller. The mechanisms include light control relative to the natural light intensity in the room, fan control relative to the room temperature and motion detection for determining absence of occupants in the room. Motion detection is achieved by using a sensor. The system reads light intensity level from an voltage divider circuit. At intermediate temperatures the fans run at intermediate speeds. If the readings are above or equal to the threshold value then the fans run at full speed. Lastly, the user defined thresholds are changed using a keypad. If the room stays unoccupied for a preset amount of time the loads are turned off to prevent wastage.
IRJET- ENERGY MONITORING SYSTEM
IRJET, 2020
As the world is developing at a rate of speed of light, this development is causing more and more usage of energy. This need of energy will only increase in future as the population is growing too. This will need a backbone to support and that is the tracking of consumption of energy and management. So, we thought of creating a system to keep the track of every load or home appliance in the place. This system will be the advanced version of other metering system, consisting of Arduino, Relay and Current Sensor. The methodology followed to analyze the data of energy consumption is all based on studying the switching patterns of load using IoT. By this way we can bring down the human efforts of stealing the energy for personal uses. It can also be used for efficient use of the energy produced from renewable sources. As a result, we will be getting a meter that can keep track of power consumption of our household as well as any place like offices, malls, etc.
IRJET- SMART POWER MONITORING AND CONTROLLING THROUGH IoT
IRJET, 2020
Energy saving is one of the most challenging issue in these days. IoT is the evolving technology where the significance and utilization are increasing with each passing day. By combining these a Smart Power monitoring system designed that detects and controls the domestic electricity consumption. This paper describes the digitization of energy to control the power usage and reduce unnecessary power wastage. Several sensors are used to gather the consumption data that needs to be send to cloud using IoT. The wi-fi section performs IOT operation by sending to the cloud. This system includes programmable power output where user can limit the power usage along with a motion sensor used for automation to reduce unnecessary power leakage.
IRJET- INTELLIGENT ENERGY MONITORING SYSTEM USING WEB ACCESS
IRJET, 2020
Energy is a very important aspect for all kinds of activities. So, it is very needful to manage the energy efficiently and to conserve it intelligently. Energy management is a system used for energy consumption surveillance. It optimizes the utility of energy. The main purpose of the Intelligent Energy Management is to find solutions that manage the electricity infrastructure. The energy monitoring system is used to store and analyze all energy consumption data and their consumption pattern information is provided to the users via energy monitoring software. This useful information about energy usage will be delivered directly to the client's device. This proposed method utilizes the THINGSPEAK analytics to analyze the energy usage to give detailed report and visualization of the energy usage, for the purpose of proper home energy management. It digitizes the readings of load energy usage over the internet. The involvement of humans in electricity maintenance can be eliminated by this system.
IJERT-Energy Consumption Monitoring and Controlling using Data Visualization and IOT
International Journal of Engineering Research and Technology (IJERT), 2021
https://www.ijert.org/energy-consumption-monitoring-and-controlling-using-data-visualization-and-iot https://www.ijert.org/research/energy-consumption-monitoring-and-controlling-using-data-visualization-and-iot-IJERTV10IS050143.pdf In the Energy Management System, the fundamental limitations are exact metering, energy checking, controlling and execution of visual information for shopper load profile. The absence of validity of information procured through customary methods from an ordinary metering framework has decreased the viability of the Energy Management System. A keen IoT based Energy Management System which guarantees straightforwardness and believability of information as well as offers adaptability to the buyers by offering the office of controlling their home machines. This Project is proposed in planning a framework at home which screens the energy utilization of every gadget. Utilizing microcontroller work, consistent readings of energy meter are gathered and saved in NodeMCU, at that point the information is moved to a far-off worker of Blynk application which is an android application utilized for energy observing and controlling. This venture outfits genuine information concerning the heaps ordinarily utilized by private shoppers. Subsequently, the nonstop checking of the electrical apparatuses can be seen through the android application, besides, electricity bill of individual burden can likewise be observed. The client can likewise kill the gadget, which is devouring inordinate force. Hence, saving the energy utilization of the associated loads. Further, this work can be reached out for power utilization of entire structure and power bill can be resolved.