지금까지의 지진 관련 연구는 주로 교량 받침 자체의 성능개선이 주요 관심 과제였으나, 본 논문에서는 받침 종류에 따라 교량에 미치는 전반적인 지진거동 특성을 분석하고 교량 공사비에 미치는 영향을 검토하였다. 이를 위해 실무에서 많이 적용되는 PSC I형 교량에 대해 교량받침의 종류를 변화시키며 교각 높이를 매개변수로 하여 상시 및 지진해석을 수행하였다. 특히 지진해석을 통해 산출한 단면력을 고려하여 PSC I형 교량받침의 변위, 지진하중에 의한 교각 기둥의 직경, 상부여유 간격 등의 변화를 분석하였다. 고교각인 경우 탄성받침보다는 지진격리장치를 적용하는 것이 지진에 의한 상부구조의 이동량을 줄여 신축이음장치의 규격을 줄일 수 있으므로 차량의 주행성 및 교량의 유지관리 측면에서 바람직 할 것으로 판단되었고, 교량 하부 구조 단면이 축소되어 미관개선 및 경제성 개선의 효과가 있는 것으로 분석되었다. 결국, PSC I형 교량받침 설계시 일률적으로 탄성받침을 적용하는 것보다 정밀한 내진해석을 통해 지진격리장치를 적용하는 것이 구조적정성 측면 및 공사비 측면에서 타당하다는 결론에 도달하였다.

The electromagnetic (EM) wave absorption properties with a variation of crystallization annealing temperature have been investigated in a sheet-type absorber using the alloy powder. With increasing the annealing temperature the complex permeability (), permittivity () and power absorption changed. The EM wave absorber shows the maximum permeability and permittivity after the annealing at for 1 hour, and its calculated power absorption is above 80% of input power in the frequency range over 1.5 GHz.

The electromagnetic wave (EM) absorption properties of various particle size have been investigated in a sheet-type absorber using the alloy powder. With decreasing the average particle size, the complex permeability () and permittivity () increased and the matching frequency is shifted toward lower frequency. The fabricated EM wave absorbers showed permeability , permittivity for a mesh sample, and the calculated power absorption was as high as 80% in the frequency range over 2 GHz.

복합재 적층판은 중량에 비해 높은 강성과 강도가 요구되는 공학의 다양한 분야에서 매우 유용하다. 보강섬유 복합재의 공학적 활용이 활발해지고, 중량의 감소화가 설계의 중요한 목적이 됨으로써, 근래 복합재 구조물들의 최적화 설계의 중요성이 대두되고 있다. 그러나 복합재 적층 구조물 재료의 비등방성에 의해 해석과 설계가 매우 어렵다. 본 연구에서는 수치적 최적화 방법과 유한요소법을 이용하여 보강섬유 복합재의 최적설계를 하였다. 복합재 적층판으로 이루어진 개단면 보에 있어서 보강섬유의 다양한 적층방향에 대한 거동의 영향을 규명하였다.

Carbon dioxide enrichment for greenhouse crops has generally been a standard commercial practice for many years. Vegetable crops such as tomato, cucumber, and lettuce respond positively to the CO2 enrichment. But improper CO2 enrichment leads to physiological damage and economical loss. This study was carried out to develop a CO2 concentration control algorithm considering growth stage and efficiency. The measurand was CO2 consumption rate and top fresh weight that represents growth stage. The weight of top fresh lettuce as a whole in the tray was measured through a non-destructive method. The demand in CO2 concentration according to growth stage was investigated. The results are summarized as follows. 1. The CO2 consumption rate could be measured within the error of ± 15.4mgCO2/hr in the range of CO2 concentration of 500-1500ppm. 2. The weight of top fresh lettuce could be measured within the error ± 4.3g in the range of 0-1400g. 3. The CO2 control model developed could determine an economical CO2 supply rate considering CO2 consumption rate and leakage rate. 4. The CO2 control algorithm based on the control model was composed of feedforward control for maintaining a stable CO2 concentration level, and feedback control with CO2 consumption rate and top fresh weight for adapting to the change in CO2 demand by growth stage. 5. For the performance test with the developed control algorithm on lettuce the decrease in CO2 supply rate was obtained without a significant decrease in top fresh weight.

The purpose of this study is to find the operational characteristics of nitrifier-dominated membrane bioreactor (MBR), which has been extensively studied for organic removal, especially in terms of nitrite (NO2-N) build-up and membrane fouling. Membrane fouling is one of the important factor which determines the economics of MBR system. The characteristics of membrane fouling was monitored in terms of the fouling indices such as sludge volume index (SVI), the concentration of total organic carbon (TOC) and extracellular polymeric substances (EPS) in a membrane permeate or sludge extract, the absorbance of supernatant at 260 nm. Most of index values except for protein concentration in EPS had a close relation with the increase of suction pressure and SVI value. Nitrifying MBR was superior to the conventional organic-oxidizing MBR in terms of membrane fouling since the fouling index value of nitrifying MBR was lower than that of BOD-oxidizing MBR.