• Title/Summary/Keyword: Once through

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Temperature control for once through boiler (관류형 보일러의 온도제어)

  • 김은기
    • 제어로봇시스템학회:학술대회논문집
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    • 1991.10a
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    • pp.900-904
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    • 1991
  • It is important and difficult to control the steam temperature in the once through boiler. Generally, steam temperature of once through boiler not only is controlled by boiler spray water flow, but also is influenced by feed water flow and fuel flow. So we have to make the same gain of fuel flow controller and feed water flow controller. This paper is shown the design and test of steam temperature and feed water flow control system for once through boiler in pusan thermal power plant.

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A Study of Superheater Temperature Control on an Once Through Boiler in Thermal Power Plant (화력발전소 관류보일러의 과열기 온도제어에 관한 연구)

  • Lee, Jo-Hyun;Jeong, Tae-Won
    • The Transactions of The Korean Institute of Electrical Engineers
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    • v.58 no.10
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    • pp.2022-2027
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    • 2009
  • An supercritical once through boiler system has been used in the korea standard-type thermal power plant. It is critical in boiler operation that superheater temperature should be controlled within the specified limit. In this paper, control logic scheme is suggested for superheater temperature in once through boiler. Finally the simulation result using process model based simulator shows the validity of suggested control logic.

Dynamic Modeling of the Korean Nuclear Euel Cycle

  • Jeong, Chang-Joon;Park, Joo-Hwan;Park, Hangbok
    • Proceedings of the Korean Radioactive Waste Society Conference
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    • 2004.06a
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    • pp.386-395
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    • 2004
  • The Korean fuel cycle scenario has been modeled by using the dynamic analysis method. For once-through fuel cycle model, the nuclear power plant construction plan was considered, and the nuclear demand growth rate from the year 2016 was assumed to be 1%. After setup the once-thorough fuel cycle model, the DUPIC and fast reactor scenarios were modeled to investigate the environmental effect of each fuel cycle. Through the calculation of the amount of spent fuel, and the amounts of plutonium and minor actinides were estimated and compared to those of the once-through fuel cycle. The results of the once-through fuel cycle shows that the demand grows to 64 GWe and the total amount of the spent fuel would be 100 kt in the year 2100, while the total spent fuel can be reduced by 50% when the DUPIC scenario is implemented

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DYNAMIC MODELING AND ANALYSIS OF ALTERNATIVE FUEL CYCLE SCENARIOS IN KOREA

  • Jeong, Chang-Joon;Choi, Hang-Bok
    • Nuclear Engineering and Technology
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    • v.39 no.1
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    • pp.85-94
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    • 2007
  • The Korean nuclear fuel cycle was modeled by the dynamic analysis method, which was applied to the once-through and alternative fuel cycles. First, the once-through fuel cycle was analyzed based on the Korean nuclear power plant construction plan up to 2015 and a postulated nuclear demand growth rate of zero after 2015. Second, alternative fuel cycles including the direct use of spent pressurized water reactor fuel in Canada deuterium uranium reactors (DUPIC), a sodium-cooled fast reactor and an accelerator driven system were assessed and the results were compared with those of the once-through fuel cycle. The once-through fuel cycle calculation showed that the nuclear power demand would be 25 GWe and the amount of the spent fuel will be ${\sim}65000$ tons by 2100. The alternative fuel cycle analyses showed that the spent fuel inventory could be reduced by more than 30% and 90% through the DUPIC and fast reactor fuel cycles, respectively, when compared with the once-through fuel cycle. The results of this study indicate that both spent fuel and uranium resources can be effectively managed if alternative reactor systems are timely implemented along with the existing reactors.

A Nonlinear Dynamic Model of a Once-Through Supercritical Boiler (초임계압 관류형 보일러의 비선형모델에 관한 연구)

  • Yoon, S.H.;Lee, S.C.
    • Proceedings of the KIEE Conference
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    • 1997.11a
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    • pp.238-241
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    • 1997
  • The recent trend toward increased use of the once-through supercritical boiler worldwide is mainly due to its rapid response. The transient behavior of the steam generator are essential in the study of the system performance of power plants as well as for the design of their appropriate control systems. In this paper, a mathmatical model of the once-through supercritical pressure boiler is obtained by simulating a set of nonlinear differential and algebraic equations.

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Modelling and Verification of Once-Through Subcritical Heat Recovery Steam Generator (관류형 아임계압 배열회수보일러의 열성능 모델링과 검증)

  • Lee, Chae-Soo;Choi, Young-Jun;Kim, Hyun-Gee;Yang, Ok-Chul;Chong, Chae-Hon
    • Proceedings of the KSME Conference
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    • 2004.11a
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    • pp.1692-1697
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    • 2004
  • The once-through heat recovery steam generator is ideally matched to very high temperature and pressure, well into the supercritical range. Moreover this type of boiler is structurally simpler than drum type boiler. In drum type boiler, each tube play a well-defined role: water preheating, vaporization, superheating. Empirical equations are available to predict the average heat transfer coefficient for each regime. For once-through heat recovery steam generator, this is no more the case and mathematical models have to be adapted to account for the disappearance of drum type economizer, boiler, superheater. General equations have to be used for each tube of boiler, and actual heat transfer condition in each tube has to be identified.

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Development of Dynamic Simulation Software for Power Plant and its Application to Once-Through Boiler (플랜트 동특성 해석용 소프트웨어 개발 및 초임계압 관류형 보일러에의 적용)

  • Lee, Ki-Hyun;Lee, Dong-Su;Cho, Chang-Ho
    • Proceedings of the KSME Conference
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    • 2000.11b
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    • pp.656-661
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    • 2000
  • In the recent trend of electric power supply market, a variable pressure operation supercritical once-through steam generator is highlighted as a thermal power plant for cycling load because of its superiority in load regulation. Almost all thermal power plants of the future are expected to be variable pressure operation supercritical once-through units. APESS(Advanced Plant Engineering & Simulation System) is a dynamic simulation software for power plant which is under being developed by Korea Heavy Industries & Construction Co., Ltd. This paper present the introduction of APESS and the result of simulation for variable pressure operation supercritical once-through steam generator.

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Design of digital nuclear power small reactor once-through steam generator control system

  • Qian, Hong;Zou, Mingyao
    • Nuclear Engineering and Technology
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    • v.54 no.7
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    • pp.2435-2443
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    • 2022
  • The once-through steam generator used in the small modular reactor needs to consider the stability of the outlet steam pressure and steam superheat of the secondary circuit to achieve better operating efficiency. For this reason, this paper designs a controllable operation scheme for the steam pressure and superheat of the small reactor once-through steam generator. On this basis, designs a variable universe fuzzy controller, first, design the fuzzy control rules to make the controller adjust the PI controller parameters according to the change of the error; secondly, use the domain adjustment factor to further subdivide the input and output domain of the fuzzy controller according to the change of the error, to improve the system control performance. The simulation results show that the operation scheme proposed in this paper have better system performance than the original scheme of the small reactor system, and controller proposed in this paper have better control performance than traditional PI controller and fuzzy PI controller, what's more, the designed control system also showed better anti-disturbance performance in lifting experiment between 100% and 80% working conditions. Finally, the experimental platform formed by connecting the digital small reactor with Matlab/Simulink through OPC(OLE for Process Control) communication technology also verified the feasibility of the proposed scheme.

Reinforcement learning-based control with application to the once-through steam generator system

  • Cheng Li;Ren Yu;Wenmin Yu;Tianshu Wang
    • Nuclear Engineering and Technology
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    • v.55 no.10
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    • pp.3515-3524
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    • 2023
  • A reinforcement learning framework is proposed for the control problem of outlet steam pressure of the once-through steam generator(OTSG) in this paper. The double-layer controller using Proximal Policy Optimization(PPO) algorithm is applied in the control structure of the OTSG. The PPO algorithm can train the neural networks continuously according to the process of interaction with the environment and then the trained controller can realize better control for the OTSG. Meanwhile, reinforcement learning has the characteristic of difficult application in real-world objects, this paper proposes an innovative pretraining method to solve this problem. The difficulty in the application of reinforcement learning lies in training. The optimal strategy of each step is summed up through trial and error, and the training cost is very high. In this paper, the LSTM model is adopted as the training environment for pretraining, which saves training time and improves efficiency. The experimental results show that this method can realize the self-adjustment of control parameters under various working conditions, and the control effect has the advantages of small overshoot, fast stabilization speed, and strong adaptive ability.

Development of a thermal-hydraulic analysis code for once-through steam generators using straight tubes for SMRs (일체형 원자로용 관류식 직관형 증기발생기 열수력 해석 코드 개발)

  • Park, Youngjae;Kim, Iljin;Kang, Kyungjun;Kang, Hanok;Kim, Youngin;Kim, Hyungdae
    • Journal of Energy Engineering
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    • v.24 no.2
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    • pp.91-102
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    • 2015
  • A thermal-hydraulic design and performance analysis computer code for a once-through steam generator using straight tubes is developed. To benchmark the developed physical models and computer code, an once-through steam generator developed by other designer is simulated and the calculated results are compared with the design data. Also, the same steam generator is analyzed with the best-estimate thermal-hydraulic system code, MARS, for the code-to-code validation. The overall characteristics of heat transfer area, pressure and temperature distributions calculated by the developed code show general agreements with the published design data as well as the analysis results of MARS. It is demonstrated that the developed code can be utilized for diverse purposes, such as, sensitivity analyses and optimum thermal design of a once-through steam generator.