International Research Journal of Engineering and Technology (IRJET)
e-ISSN: 2395-0056
Volume: 11 Issue: 11 | Nov 2024
p-ISSN: 2395-0072
www.irjet.net
Industrial Automation Management using SCADA Desai Saeera Premanand Student, Department of Electronics & Telecommunication Engineering, Goa College of Engineering, Farmagudi, Ponda - Goa, INDIA ---------------------------------------------------------------------***---------------------------------------------------------------------
Abstract - Supervisory Control and Data Acquisition
configuration, commissioning, or maintenance [8]. Products for substation automation are a group of systems that offer complete automation, protection, and control over electrical substations. By offering quick communications, flexible automation, and rapid protection, these solutions are intended to increase the substation's safety and dependability [9]. They consist of a variety of gadgets, including automation controllers, power quality meters, signaling units, and more.
(SCADA) systems keep an eye on and manage vital industrial infrastructure. Ensuring the accuracy of measured values and alarm signals conveyed from the field to the SCADA control room or other remote monitoring systems and the correctness of the data displayed is imperative while commissioning or remodeling a substation. The Human Machine Interface (HMI) present in the substation shows the status and alert signals. Generally, an engineer present at the substation triggers an alert on a field device. He confirms that the local HMI is displaying the alert correctly. He then inquiries from the operator present in the control room if the same alert is displayed on the screen in the control room. This makes it a tedious task. Automating substation procedures is the goal of the proposed methodology. The principal objective of the suggested concept is to demonstrate the automation of field devices in a particular controlled system.
The aim of the proposed method is to improve systems with SCADA automation with user HMI functions to control and validate various functions of the products. Based on the above information, our objectives are as follows:
Key Words: Automation, Human Machine Interface, WinCC SCADA, InTouch SCADA, Delta PLC
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To enhance the automation of an existing system integrated with SCADA.
The research papers referred served as a foundation for understanding how to create an HMI screen with WinCC SCADA software. As per the methodology proposed in the research papers, appropriate tag development for the screen elements to mimic the industrial plant's real-time status leads to successful programming of the intended HMI [3]. A reliable connection between the PLC and the HMI is made possible by the tagging system [5]. The manual and automatic modes of operation are availed by pushing the soft-touch controls. Without human interaction, automated mode is guaranteed by proper design [4]. In this project, the automation of the certain industrial processes is implemented with the help of PLC, SCADA and its various properties. Implementation of the process automation is better for increasing the speed of the process, as well as it provides data monitoring and storage.
A substation automation system is an assembly of hardware and software parts used for both local and distant electrical system monitoring and control [1]. In addition to automating certain laborious, repetitive, and mistake-prone tasks, a substation automation system also boosts the system's overall productivity and efficiency [2]. An electrical corporation has traditionally prioritized an electrical substation's high availability and continuous operation. More errors result in more customer service interruptions and lower income, which is undesirable for any business. Industrial automation has several benefits that manufacturers, and industrial operations can use to boost operational effectiveness [3]. Data from monitoring helps ensure that new automated solutions achieve their objectives like improved worker safety, increased productivity, higher quality, and better decision making.
3. IMPLEMENTATION
A Supervisory Control and Data Acquisition (SCADA) system can automate the supervision task based on predefined parameters and algorithms [6]. It can also gather information from multiple IEDs in an electrical system using various communication methods [14]. Finally, it can control and monitor the IEDs using various visualization technologies [7]. Every substation has a Human Machine Interface (HMI) installed to give operators the local control and monitoring tools that are frequently required for substation
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To design and implement automation for substation automation products.
2. LITERATURE REVIEW
1. INTRODUCTION
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Impact Factor value: 8.315
3.1 Block diagram of the proposed idea As shown in Fig -1, the industrial substation incorporates a variety of field devices, such as Sensors, Actuators, Circuit Breakers, etc., and a group of related field devices are connected to a particular Remote Terminal Unit (RTU) [10]. The RTU serves as a gateway to transfer data between the field devices and the SCADA or vice versa. A communication
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