• Title/Summary/Keyword: Electric Power Plant

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Development of Web-based Power Plant Simulator System (원격 훈련용 발전 시뮬레이터 개발)

  • Byun, Seung-Hyun;Kang, Hae-su;Woo, Joo-Hee;Lee, Jee-Hoon;Kim, Duck-Ho
    • KEPCO Journal on Electric Power and Energy
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    • v.7 no.2
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    • pp.277-283
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    • 2021
  • Power plant simulators have been used for operator training, control verification and engineering verification. In general, simulators can be used in the place where they are installed by only single user group at a time. Considering high cost of simulator development, a lot of available scenarios, the diversity of user level and accessibility based on users' work location, development of simulator system that can be used by multiple user groups regardless of location is required in order to enhance utilization of simulators. In this paper, the simulator system that can be used by multiple user group simultaneously without location limitation is proposed. The simulator system is composed of simulator servers, database servers, HMI servers, a web server, web clients. Simulator server consists of control model, process model that are developed for Circulating Fluidized Bed power plant located overseas. A web server manages user accounts, operation procedures, multiple server access between web client group and simulator server group. In other words, a web server makes a user group select a simulator server at a time. The developed simulator system is integrated after implementing process model, control model, HMI, and web server. Web client systems are installed on local site where power plant is located, while simulator servers, HMI servers, database servers, and a web server are located in KEPCO RI. The developed simulator system is verified by steady-state test, malfunction test and so on via remote access.

Application of Dynamic Model for Steam Turbine and its Parameter Estimation in a Fossil Fired Power Plant

  • Choi, Inkyu;Woo, Joohee;Kim, Byoungchul;Son, Gihun
    • KEPCO Journal on Electric Power and Energy
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    • v.2 no.3
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    • pp.409-413
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    • 2016
  • The 500 MW rated steam turbine model in coal fired power plant is developed to be used for validation and verification of controller rather than for the education of operator. The valve, steam turbine, reheater and generator are modeled and integrated into the simulator. And the data from the plant heat balance diagram are used for estimation of the model parameters together with actual operating data. It is found that the outputs of model such as pressure, temperature and speed are similar to the operating ones. So, it is expected that the developed model will play a very big role in controller development.

Experimental Study on Combined Ocean Thermal Energy Conversion with Waste Heat of Power Plant

  • Jung, Hoon;Jo, Jongyoung;Chang, Junsung;Lee, Sanghyup
    • KEPCO Journal on Electric Power and Energy
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    • v.5 no.3
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    • pp.215-222
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    • 2019
  • This work is experimental study of 10 kW specialized Combined Ocean Thermal Energy Conversion. We propose a C-OTEC technology that directly uses exhaust thermal energy from power station condensers to heat the working fluid (R134a), and tests the feasibility of such power station by designing, manufacturing, installing, and operating a 10 kW-pilot facility. Power generation status was monitored by using exhaust thermal energy from an existing power plant located on the east coast of the Korean peninsula, heat exchange with 300 kW of heat capacity, and a turbine, which can exceed enthalpy efficiency of 45%. Output of 8.5 kW at efficiency of 3.5% was monitored when the condenser temperature and seawater temperature are $29^{\circ}C$ and $7.5^{\circ}C$, respectively. The evaluation of the impact of large-capacity C-OTEC technology on power station confirmed the increased value of the technology on existing power generating equipment by improving output value and reducing hot waste water. Through the research result, the technical possibility of C-OTEC has been confirmed, and it is being conducted at 200 kW-class to gain economic feasibility. Based on the results, authors present an empirical study result on the 200 kW C-OTEC design and review the impact on power plant.

Performance Analysis of Upgrading Process with Amine-Based CO2 Capture Pilot Plant

  • Kwak, No-Sang;Lee, Junghyun;Lee, Dong Woog;Lee, Ji Hyun;Shim, Jae-Goo
    • KEPCO Journal on Electric Power and Energy
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    • v.4 no.1
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    • pp.33-38
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    • 2018
  • This study applied upgrades to the processes of a 10 MW wet amine $CO_2$ capture pilot plant and conducted performance evaluation. The 10 MW $CO_2$ Capture Pilot Plant is a facility that applies 1/50 of the combustion flue gas produced from a 500 MW coal-fired power plant, and is capable of capturing up to 200 tons of $CO_2$. This study aimed to quantitatively measure efficiency improvements of post-combustion $CO_2$ capture facilities resulting from process upgrades to propose reliable data for the first time in Korea. The key components of the process upgrades involve absorber intercooling, lean/rich amine exchanger efficiency improvements, reboiler steam TVR (Thermal Vapor Recompression), and lean amine MVR (Mechanical Vapor Recompression). The components were sequentially applied to test the energy reduction effect of each component. In addition, the performance evaluation was conducted with the absorber $CO_2$ removal efficiency maintained at the performance evaluation standard value proposed by the IEA-GHG ($CO_2$ removal rate: 90%). The absorbent used in the study was the highly efficient KoSol-5 that was developed by KEPCO (Korea Electric Power Corporation). From the performance evaluation results, it was found that the steam consumption (regeneration energy) for the regeneration of the absorbent decreased by $0.38GJ/tonCO_2$ after applying the process upgrades: from $2.93GJ/ton\;CO_2$ to $2.55GJ/tonCO_2$. This study confirmed the excellent performance of the post-combustion wet $CO_2$ capture process developed by KEPCO Research Institute (KEPRI) within KEPCO, and the process upgrades validated in this study are expected to substantially reduce $CO_2$ capture costs when applied in demonstration $CO_2$ capture plants.

Development of Noise Source Detection System using Array Microphone in Power Plant Equipment (배열형 음향센서를 이용한 발전설비 소음원 탐지시스템 개발)

  • Sohn, Seok-Man;Kim, Dong-Hwan;Lee, Wook-Ryun;Koo, Jae-Raeyang;Hong, Jin-Pyo
    • KEPCO Journal on Electric Power and Energy
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    • v.1 no.1
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    • pp.99-104
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    • 2015
  • In this study, it has been initiated to investigate the specific abnormal vibration signal that has been captured in the power equipment. Array Microphone can be used in order to detect the direction and the position of the noise source. It is possible to track the abnormal mechanical noise in the power plant by utilizing the program and the microphone array system developed from this research. Array microphone system can be operated as a constant monitoring system.

The Impact of Power Plants on the Environment and Region - Focus on Incheon Area according to the 3rd Electric Support Action Plan - (발전소 증설이 환경, 지역사회 및 경제에 미치는 영향 - 제 3차 전력 수급계획에 의한 인천 지역의 화력발전소 증설을 중심으로 -)

  • Jung, Chang Hoon;Pokarel, Rajib;Lee, Hee Kwan
    • Journal of Environmental Impact Assessment
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    • v.18 no.4
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    • pp.195-208
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    • 2009
  • The power plant is well known to influence air pollution as well as emission of green house gas. Because of increasing demand on electricity, the government set up the electric support action plan every 2 years. In this research, the impacts of power plants on the environment and region was studied. The study was focused on the establishment of power plant in Incheon area based on the 3rd electric support action plan. According to the 3rd electric support action plan, almost 80% of power plant in metropolitan area is planned to be built in Incheon area. The main influences of establishment of power plant are emissions of $SO_x$, $NO_x$ and PM and exceed the allocated local industry emissions, which means the emission allocation of other industry is difficult. In additions, the power plant exhaust $CO_2$ much more than other types of fuel such as waterpower generation, atomic power station. Although several supports are given in local government, these cannot cover the whole cost due to establishment of power plant. Subsequently, this study suggest the additional policy based on local consideration is needed and the current electricity distribution system should be reconsidered fundamentally in the lang term.

An Operating Strategy of In-house Power Supply Systems in the Permanent Shutdown Nuclear Power Plant (원자력발전소 영구정지 시 소내전력공급계통 운영방안)

  • Lim, Hee-Taek;Lee, Kwang-Dae;Jeon, Dang-Hee;Youn, Jong-Hyun;Joo, Ik-Deok
    • The Transactions of The Korean Institute of Electrical Engineers
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    • v.67 no.2
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    • pp.337-342
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    • 2018
  • Spent fuel is moved from the reactor into the spent fuel pool when nuclear power plant permanently shutdown. The sole function of a permanently defueled facility is to store spent fuel in a quiescent state. The function of electric system and loads are reduced. It is necessary to establish an operating strategy of electric system in the permanent shutdown nuclear plant. This paper reviews required loads and design criteria considering transition to permanent shutdown. An operating strategy of onsite electric system is proposed considering decommissioning strategy and stage of defueled condition.

Feasibility Study on the Construction of Small Hydro-Power Plants in Gumi Sewage Treatment Plant Discharge Point (구미하수처리장 방류구에서의 소수력발전 설치 및 운영에 관한 연구)

  • Nah, Dong-Hun;Lee, Seung-Hwan
    • Journal of Korean Society of Water and Wastewater
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    • v.24 no.2
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    • pp.173-181
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    • 2010
  • This study was conducted to investigate the possible installation of small hydro-power plant at the discharge point of Gumi sewage treatment plant (STP) using treated wastewater. Sufficient amount of water to transfer to electric power and the selection of proper location are two essential elements for the construction of small hydro-power facility. Preliminary analysis based on site visit and existing data in Gumi STP were made. Capacity of the small hydro-power plants and exact location were determined by geomorphological condition and flow duration characteristics. Flow duration characteristics and its duration curve were identified using monthly rainfall data in Gumi STP. Relevant facts of small hydro-power system in other STP were referred to adopt to Gumi STP situation. Flowrate of treated effluents and effective head between flow chamber and the location of hydraulic turbine in Gumi STP are found to be $3.70m^3$/sec and 3.5m respectively. Electric generation rate based on this feasibility study was estimated to be 86.3kW/h. Yearly electric generation rate was expected to be 932.4MMh. Proposed small hydro-power plant construction in Gumi STP is to be reasonable.