• 제목/요약/키워드: manufacturing-cell design

검색결과 188건 처리시간 0.03초

구조 안전성을 고려한 수소 연료 전지차 용기 밸브의 솔레노이드 액추에이터 설계 (Design of Solenoid Actuator for FCV Cylinder Valve Considering Structural Safety)

  • 이효렬;안중환;신진오;김화영
    • 한국생산제조학회지
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    • 제25권3호
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    • pp.157-163
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    • 2016
  • Green vehicles include electric vehicles, natural gas vehicles, fuel cell vehicles (FCV), and vehicles running on fuel such as a biodiesel or an ethanol blend. An FCV is equipped with a cylinder valve installed in an ultra-high pressure vessel to control the hydrogen flow. For this purpose, an optimum design of the solenoid actuator is necessary to ensure reliability when driving an FCV. In this study, an electromagnetic field analysis for ensuring reliable operation of the solenoid actuator was conducted by using Maxwell V15. The electromagnetic field analysis was performed by magnetostatic technique, according to the distance between magnetic poles in order to predict the attraction force. Finally, the attraction force was validated through comparison between the Maxwell results and measurement results. From the results, the error of attraction force ranged from 4.53 % to 9.05 % at testing conditions.

Solar Cell Wafer용 Squaring & Grinding Machine의 진동 억제를 위한 설계 변경 (Design Alterations of a Squaring & Grinding Machine for the Solar Cell Wafer to Suppress Vibrations)

  • 신호범;노승훈;윤현진;길사근;김영조;김건형;한대성
    • 반도체디스플레이기술학회지
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    • 제16권3호
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    • pp.47-52
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    • 2017
  • Solar cell industry requires high technologies to stabilize apparatuses for the wafer manufacturing. Vibrations of squaring & grinding machines are one of the most critical factors for causing residual stresses of ingots, which are the main reasons of the breakage in the following processes such as wire sawing, cleaning, and modularity. In this study, the structure of a squaring & grinding machine has been analyzed through experiments and computer simulations to figure out the ways to suppress the vibrations effectively, and further to minimize the breakage of wafers. The result shows that simple design changes of applying a few ribs can improve the stability of the machine.

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미래 국방 무인 이동체를 위한 NaBH4 수소 발생 시스템 기반 연료전지 시스템 설계 및 검증 (Design and Validation of a Fuel Cell System with a NaBH4 Hydrogen Generation System for Future Defense Unmanned Vehicles)

  • 윤성모;김민재;황채민;이태훈;유수상;오택현
    • 한국수소및신에너지학회논문집
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    • 제35권2호
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    • pp.152-161
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    • 2024
  • In this study, a fuel cell system for future defense unmanned vehicles was designed and validated. A Co/Al2O3-Ni foam catalyst for NaBH4 hydrolysis was characterized using several analytical methods. A NaBH4 hydrogen generation system with the Co/Al2O3-Ni foam catalyst continuously generated hydrogen at elevated reaction temperatures. The fuel cell system with the NaBH4 hydrogen generation system was designed and tested. The performance of the fuel cell system was comparable to that of the fuel cell system using pure hydrogen. Therefore, the fuel cell system with the NaBH4 hydrogen generation system is a suitable power source for future defense unmanned vehicles owing to its easy refueling and simple system.

TPMS 단위체 설계에 따른 공기의 자가 순환 특성 변화 고찰 (A Study on Influence of Design of Unit Cell for TPMS on Self-circulation Characteristics of Air)

  • 범종찬;이광규;안동규
    • 소성∙가공
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    • 제33권4호
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    • pp.241-247
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    • 2024
  • The triply periodic minimum surface (TPMS) shape with a complex geometry can easily manufactured from additive manufacturing processes. The TPMS shape has a high surface-to-volume ratio. In addition, the TPMS shape increases the possibility of the self-circulation when the fluid flows inside the TPMS structure. Due to these reason, the performance of the fluid flow filter can be greatly improved when the TPMS structure is applied to the filter. The aim of this paper is to investigate the influence of the design of the unit cell for TPMS on self-circulation characteristics of air using computational fluid dynamics (CFD). From the results of the CFD, the effects of the shape and the dimension of the unit cell for TPMS on the self-circulation pattern and the pressure difference are examined. Finally, a proper design of the TPMS is discussed from the viewpoint of self-circulation of air.

혈관모사 마이크로채널이 장착된 3D 종양 세포 배양 시스템의 제작 및 검증 연구 (Fabrication and validation study of a 3D tumor cell culture system equipped with bloodvessle-mimik micro-channel)

  • 박정연;고범석;김기영;이동목;윤길상
    • Design & Manufacturing
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    • 제15권2호
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    • pp.11-16
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    • 2021
  • Recently, three-dimensional (3D) cell culture systems, which are superior to conventional two-dimensional (2D) vascular systems that mimic the in vivo environment, are being actively studied to reproduce drug responses and cell differentiation in organisms. Conventional two-dimensional cell culture methods (scaffold-based and non-scaffold-based) have a limited cell growth rate because the culture cannot supply the culture medium as consistently as microvessels. To solve this problem, we would like to propose a 3D culture system with an environment similar to living cells by continuously supplying the culture medium to the bottom of the 3D cell support. The 3D culture system is a structure in which microvascular structures are combined under a scaffold (agar, collagen, etc.) where cells can settle and grow. First, we have manufactured molds for the formation of four types of microvessel-mimicking chips: width / height ①100 ㎛ / 100 ㎛, ②100 ㎛ / 50 ㎛, ③ 150 ㎛ / 100 ㎛, and ④ 200 ㎛ / 100 ㎛. By injection molding, four types of microfluidic chips were made with GPPS (general purpose polystyrene), and a 100㎛-thick PDMS (polydimethylsiloxane) film was attached to the top of each microfluidic chip. As a result of observing the flow of the culture medium in the microchannel, it was confirmed that when the aspect ratio (height/width) of the microchannel is 1.5 or more, the fluid flows from the inlet to the outlet without a backflow phenomenon. In addition, the culture efficiency experiments of colorectal cancer cells (SW490) were performed in a 3D culture system in which PDMS films with different pore diameters (1/25/45 ㎛) were combined on a microfluidic chip. As a result, it was found that the cell growth rate increased up to 1.3 times and the cell death rate decreased by 71% as a result of the 3D culture system having a hole membrane with a diameter of 10 ㎛ or more compared to the conventional commercial. Based on the results of this study, it is possible to expand and build various 3D cell culture systems that can maximize cell culture efficiency by cell type by adjusting the shape of the microchannel, the size of the film hole, and the flow rate of the inlet.

결정질 태양전지 $SiO_2$ 박막의 Laser Patterning에 관한 연구 (A Study of Laser Patterning for $SiO_2$ Thin Film of Crystalline Solar Cells)

  • 이충석;이종찬;김경수;강형식
    • 한국레이저가공학회지
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    • 제14권3호
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    • pp.1-6
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    • 2011
  • Globally, the interest of renewable energy has become an upsurge. Especially, the solar industry is the one which is getting rapid growth rate. Many of researchers have been undertaking to improve the efficiency of solar cell to accomplish grid parity. The most of research has been concentrated on two methods, one on the selective emitter and the other is on LBSF (Local Back Surface Field) formation. Laser patterning will be needed to eliminate the thin film to form selective emitter and LBSF of solar cell. This paper reports some experimental results in laser patterning process for high-efficiency crystalline solar cell manufacturing. The experimental results indicate that the patterning quality depends on the average power and repetition rate of laser. The experimental results prove that the laser patterning process is an advantageous method to improve the efficiency of solar cell.

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Tandem형 AGV 를 통합한 셀형 제조시스템의 설계 (Design of Cellular Manufacturing Systems Integrating Automated Guided Vehicles under a Tandem Configuration)

  • 고창성
    • 한국경영과학회지
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    • 제23권1호
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    • pp.17-28
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    • 1998
  • This study suggests a procedure for designing cellular manufacturing systems (CMS) which are combined with automated guided vehicles (AGVs) using a tandem configuration. So far most of the previous studies have dealt with conventional design problems not considering the layout and the characteristics of transporters used in CMS. A mathematical model is developed using the service time to perform material transfers as a suitable meassure. The service capacity of AGVs and space limitations are also reflected in this model. As the model can be shown strongly NP-hard, a heuristic algorithm is presented, in which each cell is temporarily formed using both the set covering model and similarity coefficients, and then locations of the cells are determined by means of tabu search and finally machine perturbations are carried out. An example problem is solved to demonstrate the algorithm developed.

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주성분분석과 신경회로망의 융합을 통한 실리콘 웨이퍼의 마이크로 크랙 분류에 관한 연구 (A Study on Classification of Micro-Cracks in Silicon Wafer Through the Fusion of Principal Component Analysis and Neural Network)

  • 서형준;김경범
    • 한국정밀공학회지
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    • 제32권5호
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    • pp.463-470
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    • 2015
  • Solar cell is typical representative of renewable green energy. Silicon wafer contributes about 66 percent to its cost structure. In its manufacturing, micro-cracks are often occurred due to manufacturing process such as wire sawing, grinding and cleaning. Their detection and classification are important to process feedback information. In this paper, a classification method of micro-cracks is proposed, based on the fusion of principal component analysis(PCA) and neural network. The proposed method shows that it gives higher results than single application of two methods, in terms of shape and size classification of micro-cracks.

구조해석을 이용한 수소 연료전지 자동차 압력용기 밸브의 안전성 평가 (Safety Evaluation Based on Structural Analysis of Cylinder Valves for Fuel Cell Vehicles)

  • 이효렬;안중환;신진오;김화영
    • 한국생산제조학회지
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    • 제25권3호
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    • pp.189-197
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    • 2016
  • Green vehicles include electric vehicles, natural gas vehicles, and fuel cell vehicles (FCVs). In FCVs, pressure vessels have cylinder valves to control hydrogen flow. These valves should be of high quality in terms of safety because hydrogen is stored at ultra-high pressure in pressure vessels. Hence, safety evaluation of these valves is necessary to secure the safety of the FCV. A structural analysis of the cylinder valve was conducted in this study by using a commercial finite element analysis code. The results showed that the safety factor of valve component ranged 1.06-186.44. After categorizing, the stress components at critical points of the cylinder valve parts were evaluated using the corresponding allowable design criteria in the ASME code. The pressurization cycle test was performed as per the regulation to evaluate the safety of the valve.

모멘트 생성 함수 기법을 이용한 유연 제조 셀의 해석적 성능 평가

  • 박용수;김종원
    • 한국정밀공학회:학술대회논문집
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    • 한국정밀공학회 1996년도 춘계학술대회 논문집
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    • pp.506-511
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    • 1996
  • The performance evaluation of flexible manufacturing systems or cells at the stages of design and planning is one of important issues in manufacturing. For that reason, Guo has presented an approachbased on moment generating function and generalized stochastic PetriNets for performance analysis. In this paper, Buo's approach is extended tothe cases of flexible manufacturing cell including one machining center with a local buffer, AS/RS(Automatic Storage and Retrieval System), set-up station and AGV(Automated Guided Vehicle). Then the performance measures from this approach is compared with simulation. The major advantage ofthis method over existing performance evaluation methods is the ability to compute analytic solutions for performance measures.

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