본 연구에서는 0.5 wt% 에멀젼형 절삭유 수용액에 평막형 분리막을 침지시키고 대칭 및 비대칭 사인파형 투과유속 연속운전(SFCO) 방식으로 실험하였다. 사용한 정밀여과막은 유효 막면적이 0.02 m2이고 공칭 세공크기가 0.15 μm이었다. 탁도 기준으로 에멀젼형 절삭유의 99% 이상이 제거되었으며 산기량이 증가할수록 TMP가 낮게 상승하였다. 비대칭형 SFCO 운전방식은 투과유속이 낮은 10∼15 L/m2·h 영역에서 대칭형 SFCO 운전방식보다 다소 유리하였다. 하지만, 투과유속이 높은 25∼30 L/m2·h에서는 대칭형 SFCO 운전이 매우 효과적임을 확인할 수 있었다.
0.4μm의 세공크기를 갖고 있는 평막이 침지된 연속회분식 반응기에서 유입 유기물 농도가 영양염류 제거에 미치는 영향을 조사하였다. 분리막의 여과성능과 영양염류 제거효과를 규명하기 위하여 유입 유기물의 농도를 200 mg/L (Run-1), 400 mg/L (Run-2) 및 800 mg/L (Run-3)로 연속적으로 변화시키면서 실험하였다. COD/N 및 COD/P의 비가 증가할수록 T-N 및 T-P의 제거율은 모두 증가하였다. Run-1, Run-2 및 Run-3에서 T-N의 평균 제거율은 각각 28.1, 32.6 및 90.4%이었으며, 투과수의 T-N 평균 농도는 각각 32.0, 30.0 및 4.3 mg/L 이었다. 또한 Run-1, Run-2 및 Run-3에서 T-P의 평균 제거율은 각각 13.6, 35.3 및 93.1%이었으며, 투과수의 T-P 평균 농도는 각각 3.11, 2.33 및 0.25 mg/L이었다.
The reinforced concrete wall type apartments built before 1988 in Korea, which are rarely seen in other countries, were constructed using tunnel form method for convenience of construction. Tunnel form method, however, do not arrange bearing walls in the direction of long side of the apartment, and this results in little resistance capability against lateral loads in that direction. Consequently, there exists significant collapse possibility due to the formation of plastic hinge at the joints of wall and slab during earthquake. This study experimentally investigates the reinforcement methods using carbon sheet and L-shaped steel which were not seismically designed. The reinforcement method using carbon sheet and L-shaped angle, has following advantages; construction workability, usage of light-weight material, and little requirement for the installation room. The specimen with steel bar fill up using modified epoxy mortar in the mid-span of the slab shows the same stiffness as the standard specimen without reinforcement and the stiffness of the specimen reinforced by carbon sheets without L-shaped steel was increased by only about 13%, implying that those existing methods cannot provide significant reinforcement effects. For the specimens of which wall-slab joints were reinforced using both carbon sheet and L-shaped steel, the increase of stiffness ranges from 43% to 496% and the increase of energy dissipation amount ranges from 120% to 233%. Also it was identified that the linkage method using penetration bolts was more efficient than the one using expansion anchors in increasing stiffness, strength and energy dissipation capacity.
In this research, the investigation of the temperature condition of reinforcing bars under laboratory temperature and outside temperature conditions in the insulation curing method of Korean-Chinese concrete bubble sheet to examine the suitability of the bubble sheet curing method. As a result, the heat of hydration of the concrete on the wall part affects the exposed reinforcing bars to delay the temperature drop at the part where the bubble sheet is not laid
In this research, the investigation of the temperature condition of reinforcing bars under laboratory temperature and outside temperature conditions in the insulation curing method of Korean-Chinese concrete bubble sheet to examine the suitability of the bubble sheet curing method. As a result, the heat of hydration of the concrete on the wall part affects the exposed reinforcing bars to delay the temperature drop at the part where the bubble sheet is not laid.
This study is to introduce the results of root resistance test on the sheet type domestic root resistance materials according to the test method by the Korea Conformity Laboratories(KCL) & KS F 4938.
In this paper, the EM wave absorber was developed for the 94-GHz detecting radar system. To analysis an EM wave absorber in millimeter wave band, we fabricated three absorber samples using carbon black and titanium dioxide and permalloy with chlorinated polyethylene. After measuring the complex relative permittivity, the absorption characteristics are simulated by 1D FDTD according to different thicknesses of less than 1.0 mm. Then, the EM wave absorber was fabricated based on the FDTD simulation. As a result, the measured results agreed well with the simulated ones, and the developed EM wave absorber with a thickness of 0.7 mm had the desired absorption characteristics of more than 14 dB in the frequency range of the 94-GHz band.