Remote Operation and Monitoring of Power plant Equipment using IOT Environment (original) (raw)
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This project is an industrial boiler temperature controller that controls the temperature of the heating element of a device according to its requirements the system uses solar power as the power supply thus the project save the electrical power upto maximum extent The sensed and set temperature value are simultaneously displayed on the computer. it is very compact using few components and can be implemented for several application including conditioners water heater furnace, thermal baths. monitoring the boiler parameters such as temperature, pressure and humidity are of huge importance in power plant. It is not forever possible for constant monitoring in the plant location because of an insufferable industrial environment. In this project it is proposed to develop remote monitoring and control of boiler parameters using wireless communication. The proposed method provides a complete explanation for this constraint in remote monitoring by using various sensors for temperature, pressure and humidity dimension. This method uses Internet of Things (IOT) as the platform of communication. Internet of Things (IOT) will play a major role in the future concept of power plant integration. The planned method will outfit and provide a start-up beginning for this future concept.
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The reliable and quality power supply is vital for power system operation. Its importance become significant when dealing with sensitive load areas like hospitals, banks, airports, radar system, military offices and data centers. Their proper operation depends on uninterrupted and reliable power supply. In this regard, there is an emergent need to provide generator backup capacity in the events of power failure or blackout. These Generators can only be effective if they are maintained and operated properly. Problems like the remote monitoring of fuel tank, total load and the battery voltage of the generator are of main concern for better operation. To prevent these problems, the advance IOT based monitoring system is designed using an Arduino controller board. This system uses the fuel gauge for sensing the fuel level and a current transformer measures the load on generator, giving real time analogue data to the controller. The data is converted into digital through an ADC convertor and the instructions are programmed for every parameter in an IDE (Integrated Development Environment). This data can also be monitored on an android app or on laptop using esp8266 WIFI module as an interface between controller and clouds. A hardware based prototype is developed and installed on real generator. Results show real time remote monitoring of generator ensuring its reliable operation and timely indication of need of maintenance.
An Application of Cloud Computing Based Industrial Internet of Things for Generator System
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With the transformation of Industry 4.0, the current understanding of production in the industry is being reshaped together with information technologies. Internet of things and cloud computing are the most important components of this transformation. In this study, the generator system producing electricity as a simulation of an industrial system was used as the main system. 3-phase driven by an internal combustion engine, AC alternator voltage, current, frequency, alternator temperature and so on, and for the internal combustion engine that provides mechanical drive, oil / water pressure, oil / water temperature, fuel level, etc. The electrical and physical quantities are measured by means of PLC and sensors. It is provided to monitor this measurement data of the generator system both locally via HMI screen and computer screen and as a remote point in Web-based format. RS485 standard has been used together with MQTT protocol which is becoming more and more widespread nowadays and Modbus protocol which is used frequently in industrial systems in both physical and electrical measurements for user viewing and transfer to cloud information system. The measurement data were recorded in the Azure cloud computing system for the performance evaluation of the diesel fuel generator. Firstly, user interface was developed in Node-Red software running on Raspberry Pi. And as a second method, the same application structure is provided with a user interface created on Labview software running on Windows based operating system. In addition, real-time measurement analysis is provided by monitoring data remotely via the PowerBI internet platform.
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Monitoring of Boiler Parameters using Internet of Things
Boiler is the major part of industries and power plants. Mostly thermal power plants have boilers to produce electrical energy from steam. But thermal power plants are located in remote areas due to it harmful environment. By increasing the power demand and decreasing the cost for operating and maintenance are increase the reliability of the power plant. To satisfy the power need of the nation, power production is done in thermal power plant for 24 hours in 365 days without fail. But monitoring process is not possible for each and every second. Monitoring process is very important for safety of the workers and high secured operation of the power plant. The aim of the project is to develop monitoring of boiler parameters using wireless communication and to avoid the accidents in hazardous places wherever the humans not able to work. Boiler parameters are monitored by using sensors. Temperature, humidity, water level and gas are the parameters to be monitored and monitored values are visualized through think speak by using Internet of Things.