• 항공우주기술
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• 제10권1호
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• pp.129-135
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• 2011

본 연구는 중앙 물분사 방식을 채택한 액체로켓엔진 후류의 냉각에 대해 전산유체역학을 통한 특성을 고찰하였다. 중앙 물분사 방식의 냉각은 측면 물분사 방식과는 달리, 잘 알려져 있지 않기 때문에 다양한 물분사량과 유량을 통해 효율적으로 후류를 냉각시킬 수 있는 조건을 찾았으며, 해석을 통해 후류의 변화 특성을 살펴보았다. 이로부터 물분사 유량이 총추진제 유량의 2배 이상, 위치는 L/De=1.2일 때가 적당함을 알 수 있었다.

• Journal of Mechanical Science and Technology
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• 제19권5호
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• pp.1148-1157
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• 2005

In the present study, the unsteady Hartmann flow of a dusty viscous incompressible electrically conducting fluid under the influence of an exponentially decreasing pressure gradient is studied without neglecting the ion slip. The parallel plates are assumed to be porous and subjected to a uniform suction from above and injection from below. The fluid is acted upon by an external uniform magnetic field which is applied perpendicular to the plates. An analytical solution for the governing equations of motion is obtained to yield the velocity distributions for both the fluid and dust particles.

• 한국생산제조학회지
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• 제21권5호
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• pp.767-772
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• 2012

Generally, abrasive fluid jet polishing system has been used for polishing of complex shape or freeform surface which has steep local slopes. In the system, abrasive fluid jet is injected through a nozzle at high pressure; however, it is inevitable to lose its coherence as the jet exits a nozzle. This problem causes incorrect polishing results because of unstable and unpredictable workpiece material removal at the impact zone. In order to solve this problem, MR fluid jet polishing method has been developed using a mixture of abrasive and MR fluid which can maintain highly collimated and coherent jet by applied magnetic field. Thus, in this study, an injection nozzle and an electromagnetic module, most important parts in the MR polishing system, were designed and verified by magnetic field and flow analysis. As the results of experiments, it can be confirmed that stable fluid jets for polishing were generated since smooth W-shapes and uniform spot size were observed regardless of standoff distance changes.

• 지질공학
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• 제32권4호
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• pp.643-659
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• 2022

최근 지중저장기술(예, 온실가스 심지층 처분, 인공지열저류층 발전 등)이 활발히 수행됨에 따라, 유체 주입과 저장부지 안정성 사이의 역학적 관계에 관한 정량적 이해의 중요성이 인지되고 있다. 지중 유체 주입은 공극압 및 지중응력 교란과 지층의 역학적 불안정성을 야기할 수 있어, 유체 주입에 대한 다공탄성 수치 모형 구축이 요구된다. 본 연구에서는 순차적인 COMSOL-PyLith-COMSOL 유체 주입-유발지진 다공탄성 수치 모사를 수행한다. 유한요소 상용 소프트웨어인 COMSOL을 이용해 단층에 가해지는 쿨롱 파괴 응력(CFS) 변화를 시간에 따라 추적하였고, CFS 변화량이 임계값(예, 0.1 MPa)을 초과할 경우, 모형의 정보(기하구조, 물성 등)를 유한요소 오픈소스 코드인 PyLith로 이동시키는 알고리즘을 구축했다. PyLith는 단층의 미끄러짐을 모사하고, 미끌림에 의한 변위장을 획득한다. 이후 변위장을 COMSOL로 이동시켜 지진에 의한 응력 및 표면 변위를 계산한다. 수치 모사 결과, 주입 기간 중엔 주입정 근거리에서 큰 변화(공극압, CFS 변화 등)를 보였고, 주입 종류 후에는 잔류 응력이 원거리 영역으로 확산하는 양상이 나타났다. 이는 주입 종료 후 지속적인 모니터링의 필요성을 제안한다. 또한, 단층과 주입층 물성(예, 투수계수, Biot-Willis 계수)에 따른 CFS 변화량 비교는 주입정 위치 선정 시 주입층 및 주변 지층에 대한 물성 파악이 중요함을 의미한다. 단층 미끄러짐 양에 따른 표면 변위 및 이암층에 가해지는 편차응력은 다양한 단층 미끌림 시나리오 설정의 필요성을 지시한다.

• 한국유체기계학회 논문집
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• 제19권5호
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• pp.50-60
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• 2016

A design methodology of the modeled test facility to conserve an injection performance of a passive safety injection system is proposed. This safety injection system is composed of a core makeup tank and a safety injection tank. Individual tanks are connected with pressure balance line on the top side and injection line on the bottom side. It is important to conserve the scaled initial injection flow rate and total injection time since this system can be operated by small gravity head without any active pumps. Differential pressure distribution of the injection line induced by the gravity head is determined by the vertical length and elevation of each tank. However, the total injection time is adjustable by the flow resistance coefficient of the injection line. The scaling methodology for the tank and flow resistance coefficient is suggested. A key point of this test facility design is a scaling analysis for the flow resistance coefficient. The scaling analysis proposed on this paper is based on the volume scaling law with the same vertical length to the prototype and can be extended to a model with a reduced vertical length. A set of passive injection test were performed for the tanks with the same volume and the different length. The test results on the initial flow rate and total injection time showed the almost same injection characteristics and they were in good agreement with the design values.

• Design & Manufacturing
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• 제12권1호
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• pp.18-25
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• 2018

Both injection and injection molding dies have evolved into advanced technology. Product quality is also evolving day after day. Therefore, the conditions of the injection mold and the injection conditions are becoming important. In order to improve the quality of the product, the Hardware part of the mold has developed as an advanced technology, and the Software part has also developed with advanced technology. This study deals with the cooling part, which is part of the hardware. In addition to fluid cooling, which is commonly used in the industry, by using gas cooling identify the phenomena that appear on the surface of the product and the critical point strain of the product to find the optimal cooling. Electronic parts and automobile parts whose surface condition is important, the cooling process is important to such a degree that they are divided with good products and defective products according to the cooling process at the time of injection. By controlling this important cooling and reducing the injection time with additional cooling, the product quality can be increased to the highest production efficiency. In addition, high efficiency can be achieved without additional investment costs. This study was conducted to apply these various advantages in the field.

• Structural Engineering and Mechanics
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• 제59권1호
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• pp.37-57
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• 2016

Reservoir geomechanics can play an important role in hydrocarbon recovery mechanism. In $CO_2$-EOR process, reservoir geomechanics analysis is concerned with the simultaneous study of fluid flow and the mechanical response of the reservoir under $CO_2$ injection. Accurate prediction of geomechanical effects during $CO_2$ injection will assist in modeling the Carbon dioxide recovery process and making a better design of process and production equipment. This paper deals with the implementation of a program (FORTRAN 90 interface code), which was developed to couple conventional reservoir (ECLIPSE) and geomechanical (ABAQUS) simulators, using a partial coupling algorithm. A geomechanics reservoir partially coupled approach is presented that allows to iteratively take the impact of geomechanics into account in the fluid flow calculations and therefore performs a better prediction of the process. The proposed approach is illustrated on a realistic field case. The reservoir geomechanics coupled models show that in the case of lower maximum bottom hole injection pressure, the cumulative oil production is more than other scenarios. Moreover at the high injection pressures, the production rates will not change with the injection bottom hole pressure variations. Also the FEM analysis of the reservoir showed that at $CO_2$ injection pressure of 11000 Psi the plastic strain has been occurred in the some parts of the reservoir and the related stress path show a critical behavior.

• 터널과지하공간
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• 제32권3호
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• pp.203-218
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• 2022

본 연구에서는 유체 주입 중단과 유발 지진 규모의 관계에 대하여 수리역학적으로 분석하였다. 수리적 해석을 통해 공극압의 구배가 유체 주입 중단으로 인해 완만해짐과 동시에 주입 중단 이후에도 수 시간 동안 압력 선두에서 상당한 임계 공극압에 도달하면서 더 넓은 영역에서 추가적인 전단을 일으킬 수 있음을 확인하였다. 수리역학 복합 해석을 단순화된 균열모델에 적용함으로써 유체 주입 중단 후에 최대 규모의 지진이 발생하는 것을 모사하였고, 유체 주입을 유지하는 경우와의 비교를 통해 급작스런 유체 주입 중단이 지진 유발에 미치는 영향을 분석하였다. 또한 공극압의 분포 이외에도 단층 간의 기하학적 관계와 응력 재분배 등에 의해 임계 공극압의 구배가 변하며 이것이 유발 지진의 규모 평가에 중요하게 고려되어야 함을 확인하였다.

• The Korean Journal of Physiology
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• 제29권1호
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• pp.81-89
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• 1995

The effects of prolactin and vasopressin on the regulation of amniotic fluid (AF) volume and its $Na^{+}$ concentration $([Na^{+}])$ through the membrane surrounding the AF during increase in AF volume due to fetal urination were studied. About 70% of AF volume was replaced with normal isotonic saline solution. Isotonic saline solution (0.5 ml) containing Censored and LiCl was introduced into each amniotic sac. Vasopressin (25 ng/ml) or prolactin (1 mg/ml) of AF was then injected into experimental amniotic sac. The concentrations of Congored, $Li^{+}$, and $Na^{+}$ were measured at 30 and 60 min intervals after injection. Af samples with decreased Censored concentration ([CR]) during the period of 30 - 60 min were analyzed. The percentage change of $[Na^{+}]$ and the rate of $Li^{+}$ movement during this period were calculated, and the effects of vasopressin and prolactin on them were evaluated. Fellowing results were obtained: 1. The rate of reduction of [CR] in the AF was retarded by vasopressin or prolactin injection. 2. The rate of reduction of $[Li^{+}]$ in the AF was also retarded by vasopressin or prolactin injection. 3. The rate of reduction of $[Li^{+}]$ in the AF was less retarded by vasopressin than that of [CR]. 4. $[Na^{+}]$ changed to approach to the normal level, but this was markedly retarded by prolactin injection. 5. Direction of $Li^{+}$ movement was correlated with the change in $[Na^{+}]$ but it always moved out of the amniotic sac even when the $[Na^{+}]$ increased in vasopressin injected AF. From the above results, it is suggested that vasopressin in the AF triggers the fetus to urinate, and then the membranes surrounding the AF regulate osmolarity by efflux of $Na^{+}$. We suggest that prolactin facilitates water outflow across the amniotic membrane during increase in AF volume, in contrast to a constant volume, whereas regulation of $[Na^{+}]$ is partly restricted by prolactin.

• 한국분말재료학회지
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• 제21권6호
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• pp.407-414
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• 2014

The powder injection molding process having advantages in manufacturing three-dimensional precision parts essentially requires a debinding process before sintering to remove the binders used for preparing feedstock. In this study, powder injection molding of translucent alumina was performed, and carbon dioxide ($CO_2$) is used as a supercritical fluid that makes it possible to remove a large amount of binder, which is paraffin wax. The relationship between the optical property of translucent alumina and the debinding condition (temperature and pressure) of supercritical $CO_2$ was investigated. As temperature and pressure increased, extraction rate of the binder showed rising tendency and average grain size after sintering process was relatively fine. On the other hand, optical transmittance was reduced. As a result, the debinding condition at $50^{\circ}C$ and 20 MPa that represents the lowest extraction rate, $8.19{\times}10^{-3}m^2/sec$, corresponds to the largest grain size of $14.7{\mu}m$ and the highest optical transmittance of 45.2%.