• Progress in Medical Physics
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• v.16 no.1
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• pp.24-31
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• 2005

The stereotactic radiosurgery (SRS) describes a method of delivering a high dose of radiation to a small tar-get volume in the brain, generally in a single fraction, while the dose delivered to the surrounding normal tissue should be minimized. To perform automatic plan of the SRS, a new method of multi-isocenter/shot linear accelerator (linac) and gamma knife (GK) radiosurgery treatment plan was developed, based on a physical lattice structure in target. The optimal radiosurgical plan had been constructed by many beam parameters in a linear accelerator or gamma knife-based radiation therapy. In this work, an isocenter/shot was modeled as a sphere, which is equal to the circular collimator/helmet hole size because the dimension of the 50% isodose level in the dose profile is similar to its size. In a computer-aided system, it accomplished first an automatic arrangement of multi-isocenter/shot considering two parameters such as positions and collimator/helmet sizes for each isocenter/shot. Simultaneously, an irregularly shaped target was approximated by cubic structures through computation of voxel units. The treatment planning method by the technique was evaluated as a dose distribution by dose volume histograms, dose conformity, and dose homogeneity to targets. For irregularly shaped targets, the new method performed optimal multi-isocenter packing, and it only took a few seconds in a computer-aided system. The targets were included in a more than 50% isodose curve. The dose conformity was ordinarily acceptable levels and the dose homogeneity was always less than 2.0, satisfying for various targets referred to Radiation Therapy Oncology Group (RTOG) SRS criteria. In conclusion, this approach by physical lattice structure could be a useful radiosurgical plan without restrictions in the various tumor shapes and the different modality techniques such as linac and GK for SRS.

• Transactions of the Korean Society for Noise and Vibration Engineering
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• v.23 no.8
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• pp.759-769
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• 2013

Electronic equipment has been applied to virtually every area associated with commercial, industrial, and military applications. Specifically, electronics have been incorporated into avionics components installed in aircraft. This equipment is exposed to dynamic loads such as vibration, shock, and acceleration. Especially, avionics components installed in a helicopter are subjected to simultaneous sine and random base excitations. These are denoted as sine on random vibrations according to MIL-STD-810F, Method 514.5. In the past, isolators have been applied to avionics components to reduce vibration and shock. However, an isolator applied to an avionics component installed in a helicopter can amplify the vibration magnitude, and damage the chassis, circuit card assembly, and the isolator itself via resonance at low-frequency sinusoidal vibrations. The objective of this study is to investigate the dynamic characteristics of an avionics component installed in a helicopter and the structural dynamic modification of its tray plate without an isolator using both a finite element analysis and experiments. The structure is optimized by dynamic loads that are selected by comparing the vibration, shock, and acceleration loads using vibration and shock response spectra. A finite element model(FEM) was constructed using a simplified geometry and valid element types that reflect the dynamic characteristics. The FEM was verified by an experimental modal analysis. Design parameters were extracted and selected to modify the structural dynamics using topology optimization, and design of experiments(DOE). A prototype of a modified model was constructed and its feasibility was evaluated using an FEM and a performance test.

• KSCE Journal of Civil and Environmental Engineering Research
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• v.3 no.2
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• pp.1-15
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• 1983

This paper has concentrated on estimating the possibility and mathematical analysis for the application of BFB to the treatment of nightsoil with low dilution rate. The experiment for the study of this purpose was conducted by continuous type reactor at $20^{\circ}C$, varying F/M ratio from 0.12 to 0.37 and dilution ratio from 2 to 10, and in it provided matted reticulated polypropylene sheets for the solid supports. The obtained results showed that the application of BFB to the treatment of nightsoil would be more effective than any other biological treatment process. Also, it has observed that the optimum dilution ratio was about 5 times and the optimum HRT was about 17 hours, and then it was estimated that the reactor volume and the quantity of weak water could be reduced to the extent of 70 percent and 80 percent. The experimental results of BFB could be analysed by the mathematical models applied to complete mixing activated sludge process. The substrate removal rates which were obtained by McKinney's($K_m$) and EcKenfelder's($K_e$) equation was 1.784/hr and $2.0{\times}10l/mg{\cdot}day$, and substrate was removed very rapidly compared to those of conventional type biological treatment processes. The biomass yield coefficient($a_5$), the endogeneous respiration rate(b), the synthesis oxygen demand rate($a{_5}^{\prime}$), and the endogeneous respiration oxygen demand rate(b') were 0.349, 0.0237/day, 0.495 and 0.0336, respectively.

• Progress in Medical Physics
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• v.22 no.1
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• pp.35-41
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• 2011

For overall system test, hidden-target test have been used using film which leads to inherent analysis error. The purpose of our study is to quantify this error and to propose gel dosimeter based verification technique for 3-dimensional target point error. The phantom was made for simulation of human head and this has ability to equip 10 gel-dosimeter. $BANGkit^{TM}$ which we are able to manufacture whenever it is needed as well as to easily change the container with different shapes was used as a gel dosimeter. The 10 targets were divided into two groups based on shapes of areas with a planned 50% isodose line. All treatment and analysis was performed three times using Novalis and $BrainSCAN^{TM}$. The target point error is $0.77{\pm}0.15mm$ for 10 targets and directional target point error in each direction is $0.54{\pm}0.23mm$, $0.37{\pm}0.08mm$, $0.33{\pm}0.10mm$ in AP (anterior-posterior), LAT (lateral), and VERT (vertical) direction, respectively. The result of less than 1 mm shows that the treatment was performed through each precise step in treatment procedure. In conclusion, the 3-dimensional target point verification technique can be one of the techniques for overall system test.

• Transactions of the Korean Society of Mechanical Engineers B
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• v.34 no.4
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• pp.409-416
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• 2010

The use of oxy-fuel combustion and flue gas recirculation (FGR) for $CO_2$ reduction has been studied by many researchers. This study focused on the characteristics of oxy-fuel combustion and the effects of $CO_2$ addition from the point of view of oxygen feeding ratio (OFR) and the position of $CO_2$ addition in order to reproduce an FGR system with a triple concentric multi-jet burner. Oxy-fuel combustion was stable at all OFRs at a fuel flow-rate of 15 lpm, which corresponds to an equivalence ratio of 0.93; however, the structure and length of the flame varied at different OFRs. When $CO_2$ was added in oxy-fuel combustion, various stability modes such as stable, transient, quasistable, unstable, and blow-out were observed. The temperature in the combustion chamber decreased upon $CO_2$ addition in all conditions, and the maximum reduction in temperature was below 1800 K. $CO_2$ concentration with respect to height varied with the volume percent of $CO_2$ at the nozzle tip.

• Journal of Korean Society of Coastal and Ocean Engineers
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• v.28 no.3
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• pp.132-145
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• 2016

In case of the seabed around and under gravity structures such as submerged breakwater is exposed to a large wave action long period, the excess pore pressure will be generated significantly due to pore volume change associated with rearrangement soil grains. This effect will lead a seabed liquefaction around and under structures as a result from decrease in the effective stress. Under the seabed liquefaction occurred and developed, the possibility of structure failure will be increased eventually. In this study, to evaluate the liquefaction potential on the seabed quantitatively, numerical analysis was conducted using the expanded 2-dimensional numerical wave tank model and the finite element elasto-plastic model. Under the condition of the regular wave field, the time and spatial series of the deformation of submerged breakwater, the pore water pressure (oscillatory and residual components) and pore water pressure ratio in the seabed were estimated.

• KSCE Journal of Civil and Environmental Engineering Research
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• v.5 no.4
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• pp.31-44
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• 1985

The application of anaerobic attached microbial films in the expanded bed process has recently been examined at high temperatures ($55^{\circ}C$) and with particulate matter. Extrapolation of the kinetics suggested that waste activated sludge (WAS) could be efficiently digested at hydraulic retention times as short as six hours in the expanded bed process. This would represent a 99 percent digester reactor volume reduction and would introduce interesting solids management alternatives if such a high rate process were developed. This paper presents a summary of a 1.5 year study of the feasibility of such a process. Three continuously fed $55^{\circ}C$ laboratory reactor systems were used to define the kinetics and the site of reactions-control completely mixed reactors were compared to the expanded beds (AAFEB) with and without a hydrolysis unit preceding the attached film unit. Well defined laboratory-generated WAS was compared to actual WAS from a domestic sewage treatment facility. Sixty percent of the biodegradable organics were converted in an AAFEB at a 15-hour hydraulic retention time without hydrolysis, whereas greater than 95 perccent of the biodegradable organics were stabilized in a two-stage system consisting of a 3-day HRT hydrolysis reactor followed by a 15-hour HRT AAFEB. The limitations of this high rate process and its potential application are discussed.

• Proceedings of the Korean Vacuum Society Conference
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• 2012.08a
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• pp.259-260
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• 2012

산업화가 발달됨에 따라 대기 오염 물질은 점차 증가하고 있는 추세에 있고 특히 기름 및 석탄 연소 보일러, 자동차, 제철, 시멘트 플렌트, 소각로 등은 미세 분진을 발생시키는 주원인이 되어 왔다. 최근 대기환경법은 오염 분진의 중량 규제로부터 $10{\mu}m$ 미만의 PM10에서 $2.5{\mu}m$ 미만의 PM2.5의 미세 분진에 대한 규제로 점차 심화되고 있으나, 이러한 미세분진은 고전적인 제거 방법으로는 매우 어려우며 고가의 HEPA 필터를 사용하여야 한다. 한편 코로나 방전을 이용하는 전기 집진은 미세 먼지 제거에 매우 효율적이어서 $1{\mu}m$ 미만의 미세 분지도 99%까지 제거가 가능하다는 장점이 있지만 입자크기가 클 경우에는 효율이 떨어지는 단점이 있다. 한편 사이클론 집진기는 매우 오래전부터 개발되어 사용되어 왔는데 가격이 저렴하고 운영비가 적게 들며 $10{\mu}m$ 이상의 먼지는 99% 이상 제거가 가능하여 산업현장에서 오랜 기간 사용되어 왔지만 입자크기가 $10{\mu}m$ 미만으로 가면 집진율이 급격히 떨어지는 단점을 가지고 있다. 본 연구에서는 기존의 사이클론 집진기의 구조를 기본으로하여 사이클론 집진기 내부에 플라즈마 방전을 설치하여 원심력에 의한 집진과 코로나 방전에 의한 전기 집진을 동시에 수행할 수 있도록 하이브리드 사이클론 집진기를 제작하였다. 제작된 사이클론 집진기는 직경 30 cm 높이 120 cm의 사이클론 구조를 가지고 있으며 1 hp의 터보송풍기를 장착하여 $20m^3$/min 이상의 유량을 처리할 수 있도록 설계 제작되었다. 제작된 하이브리드 사이클론 집진기의 성능을 평가하기 위하여 $10m^3$의 체적을 가지는 테스트 챔버 내부에 사이클론 집진기를 설치하고 향을 태워 미세 먼지를 발생시킨 후 다양한 조건에서 집진 성능을 측정하여 보았다. 미세 먼지의 경우 사이클론을 작동시키지 않아도 테스트 챔버 벽면에 흡착되어 초기에는 급격히 감소하는 경향을 보여주나 일정 시간이 경과한 후에는 매우 느리게 감소하는 현상이 관찰 되었다. 코로나 방전을 하지 않고 오존 파괴기에 활성탄만 충진한 상태에서 사이크론을 작동시킬 경우 지속적으로 천천히 감소하는 경향을 보여주었으며, 코로나 플라즈마를 방전시킨 경우 미세 먼지는 HEPA filter를 장착한 것보다도 조금 빠르게 미세먼지를 제거하였다. 챔버 내부의 미세먼지가 초기 값의 1/10에 도달하는 시간은 코로나 방전 전류가 증가할수록 짧아지는 경향을 보여주었으며 최적 조건에서 100초 이내에 90% 이상 제거가 가능하였다. 하이브리드 사이클론 집진기는 집진 뿐 만 아리라 VOC 성분도 분해가 가능하여 유해물질을 제거하는 능력이 있다. 유해 가스 제거 능력을 실험하기 위하여 분진제거 실험에 사용된 챔버 안에 아세톤을 증발시켜 50 ppm이 되도록 한 후 다양한 조건에서 유해물질 제거 실험을 수행하였다. 미세먼지와는 달리 장비를 작동하지 않을 경우 매우 느리게 아세톤 농도가 감소하였다. 이는 미세 먼지와는 달리 흡착이 발생하지 않고, 측정 챔버 자체가 완전한 밀폐가 이루어지지 않아 자연적으로 조금씩 외부로 누출되기 때문으로 판단된다. 코로나 플라즈마만 방전시켰을 경우 초기 농도의 80%가 제거되는데 걸리는 시간은 약 28분 정도로 코로나 플라즈마가 VOC 제거에 효과가 있음은 확인하였으나 제거율이 그리 높지 않음을 알 수 있었다. 한편 오존 파괴를 위해 활성탄으로 충진 된 오존파괴기를 통과시킨 경우는 약 12분 경과 후 80%가 제거됨을 확인할 수 있었으나 그 이후에는 VOC의 감소가 매우 느리게 진행됨을 알 수 있었다. 한편 활성탄 대신 $MnO_2$ 복합촉매로 충진 된 오존파괴기를 통과한 경우 약 3분 정도 경과 후 80%의 아세톤이 제거됨을 관찰할 수 있었으며 코로나 플라즈마를 작동시키면서 $MnO_2$ 복합촉매로 충진 된 오존파괴기를 통과시킨 경우 약 2분 정도 경과 80% 이상의 아세톤이 제거되어 코로나 플라즈마와 복합촉매를 사용할 경우 VOC 성분이 효과적으로 제거됨을 알 수 있었다.

• Korean Journal of Optics and Photonics
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• v.8 no.4
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• pp.283-290
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• 1997

Scattering measurement on high reflection dielectric multilayer mirrors deposited on quartz substrate in a vacuum chamber were performed using a total integrated scattering method. Scattering of (Ta$_2$$O_5$/SiO$_2$) multilayer mirrors deposited at 250-30$0^{\circ}C$ was 0.048-0.050% and did not change with an annealing at 30$0^{\circ}C$ for 4 hours. On the other hand, scattering of (TiO$_2$/SiO$_2$) multilayer mirror at 25$0^{\circ}C$ was 0.029% and it showed the heavy tensile stress after an annealing. The rms roughness of (Ta$_2$$O_5$/SiO$_2$) multilayer mirror was almost the same as that of (TiO$_2$/SiO$_2$)multilayer mirror. The column size of Ta$_2$$O_5$ film was smaller than that of TiO$_2$film and the packing density of (Ta$_2$$O_5$/SiO$_2$) multilayer mirrors was higher than that of (TiO$_2$/SiO$_2$) multilayer mirror. It seems that the higher packing density and smaller column size of Ta$_2$$O_5$ films lead to more scattering.

• Journal of the Korean Recycled Construction Resources Institute
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• v.6 no.2
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• pp.100-107
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• 2018

The material and geometrical nonlinear finite elment analysis of UHPFRC 50M composite box girder was carried out. Constitute law in tension and compressive region of UHPFRC and HPC were modeled based on specimen test. The accuracy of nonlinear FEM analysis was verified by the experimental result of UHPFRC 50M composite girder. The UHPFRC 50M segmental composite box girder which has 1.5% steel fiber of volume fraction, 135MPa compressive strength and 18MPa tensile strength was tested. The post-tensioned UHPFRC composite girder consisted of three segment UHPFRC U-girder and High Strength Concrete reinforced slab. The parts of UHPFRC girder were modeled by 8nodes hexahedron elements and reinforcement bars and tendons were built by 2nodes linear elements by Midas FEA software. The constitutive laws of concrete materials were selected Multi-linear model both of tension and compression function under total strain crack model, which was included in classifying of smeared crack model. The nonlinearity of reinforcement elements and tendon was simulated by Von Mises criteria. The nonlinear static analysis was applied by incremental-iteration method with convergence criteria of Newton-Raphson. The validation of numerical analysis was verified by comparison with experimental result and numerical analysis result of load-deflection response, neutral axis coordinate change, and cracking pattern of girder. The load-deflection response was fitted very well with comparison to the experimental result. The finite element analysis is seen to satisfactorily predict flexural behavioral responses of post-tensioned, reinforced UHPFRC composite box girder.