• Title/Summary/Keyword: gas pipe

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Development and Measurement Error Compensation of Odometer System for Intelligent PIG (인텔리전트 피그를 위한 주행거리계의 개발 및 측정오차 보상)

  • Kim D.K.;Park S.S,;Cho S.H.;Yoo H.R.;Park D.J.;Koo S.J.;Rho Y.W.;Kho Y.T
    • Journal of the Korean Institute of Gas
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    • v.6 no.1 s.17
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    • pp.17-23
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    • 2002
  • This paper introduces the spring-mounted odometer system which maintains the correct contact with the pipe wall and measures the distance along the pipe. The odometer wheel is designed to keep contact to the pipelines inner wall and to generate fifty rectangular pulses per one turn(159.5681mm) during pigging. The pipeline has the defects in various types such as buckles, winkles, cracks, dents, welding point and so on. Specially girth welding points which exist each 12m of the pipeline, much affects the operational environment of the odometer. The measurement error of the distance along the pipe is accumulated, for the measurement error of wheel's circumference and the pipeline inner environment. So, this paper proposes the method for the error compensation based on the analysis of the odometer's behavior around the girth welding point of pipe. The experimental results show that developed odometer system can be used for the intelligent pig with good performances.

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An Experimental Study on the Mechanical Impact (Third Party Damage) of High Pressure Gas Pipe (고압가스배관의 기계적 충격(타공사)에 대한 실험적 연구)

  • Lee, Kyung-eun;Kim, Jeong Hwan;Ha, Yu-jin;Kil, Seong-he
    • Journal of the Korean Institute of Gas
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    • v.21 no.6
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    • pp.8-14
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    • 2017
  • One of the main causes of gas pipeline accidents is mechanical impact(third party damage). The majority of high pressure gas pipelines buried in major domestic industrial complexes are old pipes which have being operated over 20 years. Therefore, if an accident occurs, there will be a full scale accident because there is no additional inspection and reinforcement time. In this study, the defects on the piping during the mechanical impact were studied through the third party damage(excavation) experiments. Experiments were carried out using the 21 ton excavator which is operated in the actual excavation work and the type of pipe to be struck are ASTM A106 Grade.B and ASTM A53 Grade.B. As a result, when the bucket used during excavator operation is a sawtooth bucket, the defect is more bigger. And the smaller the diameter of the pipe, the smaller the depth and length of the defect. Also, it was confirmed that the impact height had no effect on the defects on the buried pipe, during the excavation work.

A Study on the Damage Evaluation of Polyethylene Pipe by Squeeze-off (스퀴즈오프에 따른 PE배관의 손상평가 연구)

  • Ho seong Seo;Hwa young Lee;Jae-hun Lee
    • Journal of the Korean Institute of Gas
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    • v.27 no.2
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    • pp.1-6
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    • 2023
  • PE piping, which has advantages in terms of construction convenience and economy, is widely used for underground burial in the domestic urban gas field. These PE pipes use squeeze-off in many sites to block gas flow during maintenance and repair work. Squeeze-off refers to a method of compressing a PE pipe to block fluid flow, and damage may occur due to the nature of construction in which the pipe is deformed by physical force. In order to prevent damage to PE pipes due to squeeze-off, the main points to be reflected in the squeeze-off operation procedures such as proper compression range, use pressure, and diameter were derived through damage assessment and confidential test according to the compression rate. The compression experiment for PE pipe damage assessment was conducted while changing the compression rate (20%~40%), the pressure of use (2.8 kPa, 25 kPa, 70 kPa), and the pipe diameters (63 mm, 90 mm, 110 mm). As a result of damage assessment according to the compression rate, damage occurred in pipes with compression rates of 45%(110mm) and 73%(63mm), which are for analyzing the effect of excessive compression. In addition, the leakage test was conducted using Ar(argon) during the squeeze-off, and as a result of the experiment, leakage occurred under the conditions of 70kPa and 110mm of pipe. As a result of this study, it was confirmed that squeeze-off for airtightness should be carried out in pipes within a range not exceeding 25 kPa and 90 mm pipes, and the appropriate compression rate to prevent damage to PE pipes is 30%.

Parameters study on lateral buckling of submarine PIP pipelines

  • Zhang, Xinhu;Duan, Menglan;Wang, Yingying;Li, Tongtong
    • Ocean Systems Engineering
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    • v.6 no.1
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    • pp.99-115
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    • 2016
  • In meeting the technical needs for deepwater conditions and overcoming the shortfalls of single-layer pipes for deepwater applications, pipe-in-pipe (PIP) systems have been developed. While, for PIP pipelines directly laid on the seabed or with partial embedment, one of the primary service risks is lateral buckling. The critical axial force is a key factor governing the global lateral buckling response that has been paid much more attention. It is influenced by global imperfections, submerged weight, stiffness, pipe-soil interaction characteristics, et al. In this study, Finite Element Models for imperfect PIP systems are established on the basis of 3D beam element and tube-to-tube element in Abaqus. A parameter study was conducted to investigate the effects of these parameters on the critical axial force and post-buckling forms. These parameters include structural parameters such as imperfections, clearance, and bulkhead spacing, pipe/soil interaction parameter, for instance, axial and lateral friction properties between pipeline and seabed, and load parameter submerged weight. Python as a programming language is been used to realize parametric modeling in Abaqus. Some conclusions are obtained which can provide a guide for the design of PIP pipelines.

Manufacture and Measurement Uncertainty Analysis of a Venturi Pipe for Airflow Measurement in Altitude Engine Test (엔진 고공 시험에서 공기 유량 측정용 벤투리 파이프의 제작 및 측정 불확도 분석)

  • Yang, In-Young;Oh, Joong-Hwan
    • The KSFM Journal of Fluid Machinery
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    • v.13 no.6
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    • pp.36-41
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    • 2010
  • Design, manufacture and calibration procedures of a venturi pipe flowmeter for airflow measurement in altitude engine test were discussed. Altitude engine test using venturi pipe was given as an example. The venturi was designed per the ISO standard of ISO5167, and was intented to include the entire airflow range in the test envelope of the gas turbine engine. Measurement uncertainty analysis was performed in the design procedure to investigate the effect of venturi geometry and sensor specification upon the measurement uncertainty. Manufacturing process was designed to minimize the deviation from the geometry of design. Calibration was performed to get the relationship between the discharge coefficient and the pipe Reynolds number. Then the uncertainty was assessed again using real data acquired during engine test. Through these procedures, it was possible to maintain the uncertainty of airflow measurement under 1 % for most of the operating envelope of the gas turbine engine. The discharge coefficient of the venturi pipe showed agreement with the value suggested in the ISO standard ISO5167-4 within 0.6 %.

A Study on the Estimating Burst Pressure Distributions for Reliability Assessment of API 5L X65 Pipes (API 5L X65 배관의 신뢰도 평가를 위한 파열압력 분포 추정에 관한 연구)

  • Kim, Seong-Jun;Kim, Dohyun;Kim, Cheolman;Kim, Woosik
    • Journal of Korean Society for Quality Management
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    • v.48 no.4
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    • pp.597-608
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    • 2020
  • Purpose: The purpose of this paper is to present a probability distribution of the burst pressure of API 5L X65 pipes for the reliability assessment of corroded gas pipelines. Methods: Corrosion is a major cause of weakening the residual strength of the pipe. The mean residual strength on the corrosion defect can be obtained using the burst pressure code. However, in order to obtain the pipe reliability, a probability distribution of the burst pressure should be provided. This study is concerned with estimating the burst pressure distribution using Monte Carlo simulation. A response surface method is employed to represent the distribution parameter as a model of the corrosion defect size. Results: The experimental results suggest that the normal or Weibull distribution should be suitable as the probability distribution of the burst pressure. In particular, it was shown that the probability distribution parameters can be well predicted by using the depth and length of the corrosion defect. Conclusion: Given a corrosion defect on the pipe, its corresponding burst pressure distribution can be provided at instant. Subsequently, a reliability assessment of the pipe is conducted as well.

An Experimental Study on the Temperature-Control Performance of a Variable Conductance Heat Pipe (가변열전도성능 히트파이프(VCHP)의 온도제어 성능에 관한 실험)

  • Boo, Joon-Hong;Park, Cheol-Min
    • Proceedings of the KSME Conference
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    • 2007.05b
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    • pp.2124-2129
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    • 2007
  • A VCHP was fabricated and tested for its thermal performance. The container was made of copper, and the working fluid was water. STS-316 screen of mesh number 100 was inserted as a capillary structure. As a baseline performance, a normal heat pipe of the same dimensions was tested in advance to compare with VCHP, where an inert gas container was attached. The outer diameter of the heat pipe was 12.8 mm and the total length was 600 mm. The evaporator and the condenser lengths were both 200 mm. The thermal load ranged from 20 to 300W. Typical result revealed that the operating temperature of the VCHP stayed almost constant, while that of the normal heat pipe varied as much as 40$^{\circ}C$. Therefore, it was demonstrated that the VCHP is very effective for temperature control of heat-dissipating devices.

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Experimental Study of Heat Transfer Performance of Variable Conductance Heat Pipe with Screen Mesh Wick (Mesh Wick형 가변전열 히트파이프의 열전달 성능에 관한 실험적 연구)

  • Park, Y.S.;Byon, G.S.;Suh, J.S.;Park, K.H.;Lee, K.W.
    • Proceedings of the KSME Conference
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    • 2003.11a
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    • pp.7-12
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    • 2003
  • heat pipe with screen meshed wick. The heat pipe was designed in 200 screen meshs, 500 mm length and 12mm O.D tube of copper, water as working fluid and nitrogen as non-condensible gas. Heat pipe used in this study has evaporator, condenser and adiabatic section, respectively. Experimental data of wall temperature distribution along axial length is presented for heat transport capacity, condensor cooling water temperature change, degrees of an inclination angle, and operating temperature.

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Improvement of Gas Pipe Structure for ULCS using Flow Analysis (유동 해석을 이용한 산업용 초대형 컨테이너 선박의 가스파이프 구조개선)

  • Choi, Sungmin;Kim, Jongwon
    • Journal of the Korea Academia-Industrial cooperation Society
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    • v.20 no.4
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    • pp.9-14
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    • 2019
  • Recently, container vessels are required to be applied various technologies to improve ship life-cycle and operating efficiency for the cost decreasing of logistics. The degradation of engine efficiency due to the increasing capacity of the ship and the related equipment of facilities are applied to large-scale ships without considering the condition of ship operation by increasing the ship size and feature. In this paper, the flow analysis is performed with existing gas pipe in large-scale container ship with the operation-condition of higher capacity engine and facilities, and the results were used on the new gas pipe design for ULCS (Ultra Large Container Ship). The newly designed gas pipe can be expected to increase the operating efficiency of ULCS.