S. Bakhri, Sutrisno, Seflahir Dinata, S. Dibyo, Pancoko
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The development was done by applying the logic flowchart of the fuel handling HTGR with the HTR-10 as the reference. Some modification was made considering the future application in Indonesia It was demonstrated that the automation systems with Programmable Logic Controller (PLC) can control handling systems easily because each valve can be drive to open and close immediately as requested from the sensor. It was also demostrated that the timing chart monitoring confirms the control of flowchart process description for the new fresh fuel loading.One of the vital components for the pebble reactor is the fuel handling system which was employed to load, recirculate and discharge the depleted fuel during the operation of reactor. 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引用次数: 0
摘要
燃料处理系统是球堆的重要组成部分之一,在反应堆运行过程中用于装载、再循环和排放乏燃料。此前高温反应堆10mwth (HTR-10)和HTR-PM的燃料处理设计和经验对印度尼西亚高温气冷反应堆(HTGR)的发展有益,例如Reaktor Daya ekexperiment (RDE) 10mth和PELUIT 150mwth。控制是保证运行可靠性和安全性的重要因素之一,是目前发展的重点之一。因此,本文的目的是了解和开发燃油装卸自动控制系统。以HTR-10为参考,应用htr燃料处理的逻辑流程图进行了开发。考虑到未来在印度尼西亚的应用,对其进行了一些修改。结果表明,采用可编程逻辑控制器(PLC)的自动化系统可以轻松控制搬运系统,因为每个阀门都可以根据传感器的要求立即驱动开启和关闭。同时,时序图监测证实了对新燃料装载过程流程图描述的控制。燃料处理系统是球堆的重要组成部分之一,在反应堆运行过程中用于装载、再循环和排放乏燃料。此前高温反应堆10mwth (HTR-10)和HTR-PM的燃料处理设计和经验对印度尼西亚高温气冷反应堆(HTGR)的发展有益,例如Reaktor Daya ekexperiment (RDE) 10mth和PELUIT 150mwth。控制是保证运行可靠性和安全性的重要因素之一,是目前发展的重点之一。因此,本文的目的是了解和开发燃油装卸自动控制系统。以HTR-10为参考,应用htr燃料处理的逻辑流程图进行了开发。考虑到未来在印度尼西亚的应用,对其进行了一些修改,并证明了采用可编程逻辑控制器(PLC)的自动化系统…
Design and simulation of the automatic high temperature gas-cooled reactor fuel handling using programmable logic controller
One of the vital components for the pebble reactor is the fuel handling system which was employed to load, recirculate and discharge the depleted fuel during the operation of reactor. The previous fuel handling design and experience of the High Temperature Reaktor 10 MWth (HTR-10) and HTR-PM were beneficial for the development of High Temperature Gas-cooled Reaktor (HTGR) in Indonesia such as for the Reaktor Daya Eksperiment (RDE) 10 MWth and PELUIT 150 MWth. One of the focus for the development especially for the control is an important factor to ensure that the reliability and the safety during operation were guarantee. Therefore, aims of this paper is to understand and develop the automatic control system of the fuel handling. The development was done by applying the logic flowchart of the fuel handling HTGR with the HTR-10 as the reference. Some modification was made considering the future application in Indonesia It was demonstrated that the automation systems with Programmable Logic Controller (PLC) can control handling systems easily because each valve can be drive to open and close immediately as requested from the sensor. It was also demostrated that the timing chart monitoring confirms the control of flowchart process description for the new fresh fuel loading.One of the vital components for the pebble reactor is the fuel handling system which was employed to load, recirculate and discharge the depleted fuel during the operation of reactor. The previous fuel handling design and experience of the High Temperature Reaktor 10 MWth (HTR-10) and HTR-PM were beneficial for the development of High Temperature Gas-cooled Reaktor (HTGR) in Indonesia such as for the Reaktor Daya Eksperiment (RDE) 10 MWth and PELUIT 150 MWth. One of the focus for the development especially for the control is an important factor to ensure that the reliability and the safety during operation were guarantee. Therefore, aims of this paper is to understand and develop the automatic control system of the fuel handling. The development was done by applying the logic flowchart of the fuel handling HTGR with the HTR-10 as the reference. Some modification was made considering the future application in Indonesia It was demonstrated that the automation systems with Programmable Logic Controller (PLC)...
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