Revision as of 19:37, 3 October 2019 edit Processautomation (talk \| contribs) 9 edits No edit summary Tags: Mobile edit Mobile web edit ← Previous edit		Revision as of 14:11, 8 May 2023 edit undo Yousufnadeem (talk \| contribs) 12 edits →Process automation and energy efficiency Next edit →
Line 18: == Process automation and energy efficiency == Process automation systems typically consist of several components that work together to control and monitor the process. These components may include: Factory owners want their equipment to deliver the highest output with as little production cost as possible. In many industries including oil, gas and petrochemicals, energy costs can represent 30 to 50 percent of the total production cost. <ref>https://qm-systems.com/bespoke-automation/</ref> 1:Sensors: Sensors measure various parameters such as temperature, pressure, flow rate, and chemical composition. These sensors generate signals that are transmitted to the controller. 2:Controllers: Controllers are devices that receive input signals from the sensors and use that information to make decisions about adjusting the process. Controllers can be simple or complex, depending on the complexity of the process being controlled. In process automation, the computer program uses measurements to show not only how the plant is working but to simulate different operating modes and find the optimal strategy for the plant. A unique characteristic of this software is its ability to "learn" and predict trends, helping speed up the response time to changing conditions. 3:Actuators: Actuators are devices that are used to adjust the process based on the decisions made by the controller. For example, an actuator may be used to adjust the flow rate of a fluid or to adjust the position of a valve. The software and controls regulate equipment to run at the optimum speed that requires the least energy. They also ensure the consistency of quality, meaning less energy is wasted producing products that turn out to be defective, and they forecast when maintenance is needed so less time and energy is spent stopping and restarting equipment for routine inspections. 4:Operator interfaces: Operator interfaces are used by human operators to monitor the process and make manual adjustments if necessary. These interfaces may include computer screens, buttons, and other controls. Major blocks of PAS are: microprocessors, micro controllers and micro computers, multiprocessors, [[LAN]]s, [[SCADA]], [[Remote terminal unit\|RTUs (remote terminal units)]] and analog and digital I/O modules 5:Communication networks: Communication networks are used to interconnect the various components of the automation system. These networks may use wired or wireless connections and may be based on standard protocols such as Ethernet or wireless communication protocols. Process automation systems can be used in various industries, including chemical, oil and gas, pharmaceutical, food and beverage, and many others. These systems can help industries to operate more efficiently, reduce costs, and improve safety by reducing the risk of human error. [[Category:Industrial automation]]

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