• 한국초전도ㆍ저온공학회논문지
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• 제20권2호
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• pp.6-10
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• 2018

Removal of iron oxide scale from feed-water in thermal power plant can improve power generation efficiency. We have proposed a novel scale removal system utilizing High Gradient Magnetic Separation (HGMS). This system can be applied to high temperature and pressure area. We have conducted the lab-scale model experiments using ${\varphi}50mm$ filters and it demonstrated high removal efficiency in HGMS, but scale-up of the system is required toward practical use. In this study, we conducted a large scale mock-up HGMS experiment. We used the superconducting solenoidal magnet with ${\varphi}400mm$ bore and demonstrated that our HGMS system can achieve sufficient scale removal capacity that is required to introduce into both off-line and on-line system.

• 대한기계학회논문집A
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• 제27권12호
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• pp.2110-2117
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• 2003

A physics-based material removal model in various scales is described and a feature scale simulation for a chemical mechanical polishing (CMP) process is performed in this work. Three different scales are considered in this model, i.e., abrasive particle scale, asperity scale and wafer scale. The abrasive particle and the asperity scales are combined together and then homogenized to result in force balance conditions to be satisfied in the wafer scale using an extended Greenwood-Williamson and Whitehouse-Archard statistical model that takes into consideration the joint distribution of asperity heights and asperity tip radii. The final computation is made to evaluate the material removal rate in wafer scale and a computer simulation is performed for detailed surface profile variations on a representative feature. The results show the dependence of the material removal rate on the joint distribution, applied external pressure, relative velocity, and other operating conditions and design parameters.

• 한국연소학회:학술대회논문집
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• 한국연소학회 2007년도 제34회 KOSCO SYMPOSIUM 논문집
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• pp.155-160
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• 2007

This study was conducted to find out the chlorine removal characteristics of waste plastic mixture by pyrolysis process with thermogravimetric analysis(TGA) and a lab-scale pyrolyzer. The material used as plastic wastes were PE (Poly-ethylene), PP (Poly-prophylene), and PVC (Poly Vinyl Chloride). Experimental procedure were composed of three steps; 1st step: TGA of PVC, PP and PE, 2nd step: chlorine removal rate of PVC in a lab-scale pyrolyzer, 3rd step: chlorine removal rate of PVC-PE and PVC-PP mixture in a pyrolyzer. Through the results of TGA, we can estimate the basic pyrolysis characteristics of each plastic, and then we can also derive the design parameters and operating conditions of the lab-scale pyrolyzer. The results can be used as primary data for designing a system to produce RPF (Refuse Plastic Fuel), a waste incinerator and a pyrolysis/gasification process.

• KSBB Journal
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• 제22권4호
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• pp.191-196
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• 2007

본 연구는 급속한 산업 발전으로 인해 일어난 많은 수질오염 문제 중 생활하수의 처리방법에 관심을 기울여 생물막 공법을 이용하였는데, 이는 소규모 오폐수 처리장치에서 운전과 유지가 간단하고 활성슬러지 공정보다 넓은 부지를 필요로 하지 않기 때문이다. 생물막 공법 중 생물여상법의 변법을 적용한 Pilot 규모의 상향류식 충전탑형 반응기로 내부의 담체로는 폐토기와 폐비닐을 넣어 혐기조와 호기조를 구성하였고, 생활 오수로는 식당 오수를 이용하여 Lab.-Scale 실험 후 Pilot-Scale로 Scale-up하여 100여일 간에 걸쳐 실험을 수행하였다. 실험은 연속 포기시 일정 HRT에서 유기물과 질소, 인 제거율을 살펴보았다. 실험결과 $BOD_5$와 SS의 평균 제거율은 각각 94.33%와 87.77%로 높은 제거율을 보였으나, $COD_{Cr}$은 81.46%로 목표 제거율 90% 이상에 미치지 못하였고, T-N과 T-P도 각각 71.92%와 21.10%로 예상보다 약간 낮았다. 특히 $COD_{Cr}$와 T-N의 제거율은 지난 Lab.-Scale 때보다 약 10% 정도의 감소를 하여 Pilot-scale에 내외적인 문제가 작용한 것으로 보였다.

• 환경위생공학
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• 제13권1호
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• pp.26-31
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• 1998

Removal of nitrogen and phosphate in wastewater is concerned to important for the prevention of eutrophication in receiving water and lake. Conventional activated sludge system designed for organics removal can be retrofitted only by modification of aeration basin to maintain anaerobic and aerobic state. Biological nutrient removal processes(BNR) such as Bardenpho, A$^{2}$/O, UCT, VIP were generally used for the treatment of wastewater. However these BNR processes used in large scale WWTP were not suitable in small scale WWTP(i.e., package type WWTP) due to relatively large fluctuation of flow rate and concentration of pollutants. The purpose of this research was to develop the compact, effective and economical package type WWTP for the removals of carbon and nitrogen in small scale wastewater. Intermittently aerated activated sludge system (IADFAS) were investigated for removal of nitrogen in both domestic wastewater, Bardenpho process was also evaluated. Nitrogen removal of IAAS, IADFAS, Bardenpho were 75, 77 and 67%, respectively.

• Tribology and Lubricants
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• 제28권6호
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• pp.272-277
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• 2012

Finite element analysis was carried out using wafer-scale and particle-scale models to understand the mechanism of the fast removal rate(edge effect) at wafer edges in the chemical-mechanical polishing process. This is the first to report that a particle-scale model can explain the edge effect well in terms of stress distribution and magnitude. The results also revealed that the mechanism could not be fully understood by using the wafer-scale model, which has been used in many previous studies. The wafer-scale model neither gives the stress magnitude that is sufficient to remove material nor indicates the coincidence between the stress distribution and the removal rate along a wafer surface.

• Journal of Electrochemical Science and Technology
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• 제12권1호
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• pp.21-32
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• 2021

This study reports for the first time the application of electrocoagulation (EC) from laboratory to pilot scales for the treatment of printing wastewater, a hazardous waste whose treatment and disposal are strictly regulated. The wastewater was taken from three real printing companies with strongly varying characteristics. The treatment process was performed in the laboratory for operational optimization and then applied in the pilot scale. The weight loss of the electrode and the generation of sludge at both scales were compared. The results show that the raw wastewater should be diluted before EC treatment if its COD is higher than about 10,000 mg/L. Pilot scale removal efficiencies of COD and color were slightly lower compared to those obtained from the laboratory scale. At pilot scale, the effluent CODs removal efficiency was 81.9 - 88.9% (final concentration of 448 - 992 mg/L) and color removal efficiency was 95.8 - 98.6% (final level of 89 - 202 Pt-Co) which proved the feasibility of EC treatment as an effective pre-treatment method for printing wastewater as well as other high colored and hard-biodegradable wastewaters.

• 한국환경농학회지
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• 제30권3호
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• pp.310-315
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• 2011

폐미역을 이용한 생물흡착제의 중금속 제거능력을 조사하기 위해 lab-scale의 생물흡착시스템에서 최적조건을 구명하고, lab-scale의 생물흡착시스템의 최적조건하에서 large-scale PBCC 시스템의 중금속 제거능력을 조사하였다. Lab-scale 생물흡착시스템별 중금속 제거능력은 PBCC보다 CSTR이 뛰어났지만 CSTR은 폐수유입속도가 48 L/day이상에서 완전혼합상태를 유지하지 못하여 안정적인 운전이 가능한 PBCC가 적합하였다. Cu용액의 유입속도 및 농도별 Cu 제거능력은 유입속도 12 L/day 및 유입농도 10 mg/L일 때 Cu용액 처리량이 가장 뛰어났으나 경제적인 부분을 검토한 결과 유입속도 24 L/day 및 유입농도 100 mg/L가 적절할 것으로 판단되었다. 처리단계별 Cu 제거능력은 컬럼을 연속식으로 배열하는 것이 Cu 제거효율이 높았다. 중금속 종류별 제거능력은 Pb, Cr의 처리효율이 높았고 Cu용액 이외의 다른 중금속 용액들도 Cu와 동등한 수준 이상의 처리효율을 나타내었다. Lab-scale의 PBCC 시스템을 27배 규모로 scale-up한 large-scale PBCC 시스템의 Cu 제거능력은 138 L로 lab-scale의 5 L와 비교하였을 때 동등한 수준을 유지하였다. 따라서 중금속 처리를 위한 최적 폐미역 활용 생물흡착시스템은 PBCC 시스템인 것으로 판단되나, 실제 중금속 폐수에 본 최적시스템을 적용하기 위해서는 중금속 폐수 특성에 따른 적용성 연구가 추가로 진행되어야 할 것으로 판단된다.

• 한국물환경학회지
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• 제26권5호
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• pp.781-788
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• 2010

A pilot study was performed to examine the feasibility of multiple stage of constructed wetland (CW) for nutrient removal. The system is composed of six wetland cells connected with water-ways. The hydraulic of wetland cells is designed as free water surface flow. The treatment capacity was $25m^3d^{-1}$ at HRT of about one day for each cell. The magnitude of nutrient removal was related with the length of wetlands and plant density. Total N and P removal rates were 1353 and $246mg\;m^{-2}d^{-1}$ respectively. The pilot-scale reactor was model as continuous flow system containing contribution of CSTR and PFR typed-reactors. The $k-C^*$ model equation was applied to predict N and P reduction. The result indicated the equation was well guided to estimate reduction of $NO_3-N$ and $PO_4-P$.

• 한국물환경학회지
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• 제16권4호
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• pp.533-539
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• 2000

A bench-scale reactor using SBR process was experimented with an synthetic wastewater. The main purpose of this investigation was to evaluate applicability in the field and process removal efficiencies in terms of BOD and T-P and its corresponding kinetic parameters. Removal rate of phosphorus was 77% in terms of total phosphorus. Effluent concentrations were $9.8mg/{\ell}$ BOD and $1.1mg/{\ell}$ T-P. Effluent quality was maintained consistently stable by controlling decant volume and operating cycles. The efficiency for phosphorus removal was increased due to decrease in BOD-SS loading value in the range of $0.25{\leq}$aeration time ratio${\leq}0.52$.