• Title/Summary/Keyword: Boiler-turbine system

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Structural Integrity Evaluation of Large Main Steam Piping by Water Hammering (수격 현상에 근거한 대형 주증기관의 구조건전성 평가)

  • Jo, Jong-Hyun;Lee, Young-Shin;Kim, Yeon-Whan;Jin, Hai Lan
    • Transactions of the Korean Society of Mechanical Engineers A
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    • v.36 no.9
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    • pp.1103-1108
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    • 2012
  • A main steam pipe system is a branch pipe that connects a boiler with a turbine. Water hammering analysis is very important for limiting the damage caused to pipe systems by operation conditions. Water hammering created by an unsteady flow in pipeline systems can cause excessive change in pressure, vibration, and noise. The main steam pipe structure should be designed to safely maintain the pressure pulsation and several vibrations under operation environments. This study evaluated the structural integrity of a main steam pipe during suspended and normal operation by using the ASME fatigue life methodology and finite element analysis. In the analysis, water hammering was used for transient analysis. The calculated alternating stress and fatigue stress were compared with the applicable limits of ASME fatigue life. All the evaluation results satisfied the requirements of the ASME fatigue life.

Thermodynamic Analysis on Hybrid Turbo Expander - Heat Pump System for Natural Gas Pressure Regulation (히트펌프를 적용한 터보팽창기 천연가스 정압기지의 열역학적 분석)

  • Sung, Taehong;Kim, Kyoung Hoon;Han, Sangjo;Kim, Kyung Chun
    • Journal of the Korean Institute of Gas
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    • v.18 no.4
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    • pp.13-20
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    • 2014
  • In natural gas distribution system, gas pressure is regulated correspond to requirement using throttle valve which is releasing huge pressure energy as useless form. The waste pressure can be recovered by using turbo machinery devices such as a turbo expander. In this process, excessive temperature drop occurs due to Joule-Thompson effect during the expansion process. Installing natural gas boiler before or after the turbo expander prevents temperature drop. Fuel cell or gas engine hybrid system further improve the efficiency, but 1~2% of total transporting natural gas is used for operating the hybrid system. In this study, a heat pump system is proposed as a preheating device which can be operated without using transporting natural gas. Thermodynamic analysis on evaporating and condensing temperatures and refrigerants is conducted. Results show that R717 is proper refrigerant for the hybrid system with high COP and low turbine work within the defined operating conditions. In domestic usage in Korea, the heat pump system has more economic feasibility owing to natural gas being imported with a high price of LNG form.

Failure Analysis on High Pressure Steam Piping of 500 MW Thermal Power Plant (500 MW 화력발전소 고압 증기 배관 손상 원인 분석)

  • Kim, Jeongmyun;Jeong, Namgeun;Yang, Kyeonghyun;Park, Mingyu;Lee, Jaehong
    • KEPCO Journal on Electric Power and Energy
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    • v.5 no.4
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    • pp.323-330
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    • 2019
  • The 500 MW Korean standard coal-fired power plant is the largest standardized power plant in Korea and has played a pivotal role in domestic power generation for over 20 years. In addition to the aging degradation due to long term operation, the probability of failure of power generation facilities is increasing due to frequent startup and stop caused by the lower utilization rate due to air pollution problem caused by coal-fired power plants. Among them, steam piping plays an important role in transferring high-temperature & pressure steam produced in a boiler to turbine for power generation. In recent years, failure of steam piping of large coal-fired power plant has frequently occurred. Therefore, in this study, failure analysis of high pressure piping weld was conducted. We identify the damage caused by high stress due to abnormal supporting structure of the piping and suggest improved supporting structure to eliminate high stress through microstructure analysis and piping stress analysis to prevent the occurrence of the similar failure of other power plant in the case of repetitive damage to the main steam piping system of the 500 MW Korean standard coal-fired power plant.