이온성 고분자에 비이온성 고분자를 섞어 이온 함량을 조절함으로써 다양한 전하량을 갖는 이온성 막을 제조하였다. 비이온성 고분자로는 폴리비닐알콜, 음이온성 고분자로는 알긴산 나트륨, 양이온성 고분자로는 키토산을 사용하였으며, 이들 이온성 고분자막을 사용하여 여러 전해질 수용액에 대한 투과 및 분리특성을 관찰하였다. 막 내부에 이온성 고분자 함량이 많을수록 친수성 특성을 보였으며, 순수투과 및 용액투과 속도가 증가함을 관찰할 수 있었고, 또한 투과속도는 막의 팽윤 거동에 의해 결정됨을 확인할 수 있었다. 용질 배제율의 경우는 막과 투과용질간의 정전기적 인력, 즉 Donnan exclusion에 의해 결정이 되며, 정전기적 인력이 비슷한 경우는 분자체 효과에 의해 분리됨이 관찰되었다.

기체 막분리공정 기술이 점점 개발되어질수록 막분리의 성능을 이해하려는 필요성이 각 공정에서 증진될 것이며 기체 막분리 성능의 예측능 기술 발전을 위해 계속 시도되어질 것이다. 이러한 추세에 힘입어 현재 석유화학공정 배가스 중 수소를 정제하기 위한 기술 개발을 시도하고 있으며 특히 저농도의 수소를 고농도로 농축시키기 위해 막분리 공정을 적극 검토하고 있다. 본 논문에서 밝혀 본 막분리 공정의 성능 예측과 분석은 향후 공정을 설계하고 제작하는 데 크게 이바지할 뿐만 아니라 석유화학 제반 공정뿐만 아니라 관련 화학공업장치 산업에서 기체 분리를 통한 자원회수와 에너지 절약 측면에서 계속 발전해 나갈 것은 믿어 의심치 않을 것이다.

In this study, solid-liquid separation conditions for coagulation and sedimentation experiments using inorganic coagulant (aluminum sulfate and Poly-Aluminum Chloride (PAC)) were optimized with brine wastewater discharged by the epoxy-resin process. When the turbidity and suspended solid (SS) concentration in raw wastewater were 74 NTU and 4.1 mg/L, respectively, their values decreased the lowest in a coagulant dosage of 135.0 - 270.0 mg Al3+/L. The epoxy resin was re-dispersed in the upper part of wastewater treated above 405.0 mg Al3+/L. The removal efficiencies of turbidity and SS via dosing with aluminum sulfate and PAC were evaluated at initial turbidity and SS of 74 - 630 NTU and 4.1 - 38.5 mg/L, respectively. They increased most in the range from 135.0 - 270.0 mg Al3+/L. The solid-liquid separation condition was quantitatively compared to the correlation of SS removal efficiency between the coagulant dosage and SS concentration based on the concentration of aluminum ions. The empirical formula,   , shows the relationship between SS removal efficiency (R) and coagulant dosage (D) at 38.5 mg/L; it produced high correlation coefficients (r2) of 0.9871 for aluminum sulfate and 0.9751 for PAC.

In this study, the internal phenomena that occur during cake filtration, expression and hindered sedimentation were calculated and experimented using the ‘unified theory on solid-liquid separation’ with new boundary conditions. The expression procedure, the variation of pressure distribution in a compressible and incompressible cake were calculated. The procedure of hindered sedimentation was calculated with the new boundary conditions from ‘unified theory on solidliquid separation’ and experiments against various concentration.

최근 미세조류를 에너지원으로 활용하는 기술이 많은 관심을 받으면서 미세조류 고액분리 기술에 대한 연구가 진행 중이다. 미세조류 분리 기술에는 미세조류의 밀도차를 이용하여 분리하는 방법인 원심 분리법, 중력･응집 침전법, 부유선별법과 막 여과법이 있다. 그 중 막 여과법은 다른 공정에 비해 거의 모든 미세조류를 여과 할 뿐만 아니라 가장 간단한 구조로 초기비용이 적게 발생한다는 장점이 있다. 그러나 고밀도의 미세조류는 막오염(fouling)을 야기한다는 단점이 있다. 막 오염(fouling)은 처리수의 투과 수량을 감소시킬 뿐만 아니라 2차 적인 수질오염을 야기시킬 수 있다. 이에 따라 온도가 높은 유입수와 상대적으로 온도가 낮은 처리수의 온도차이로부터 발생하는 증기압 차이를 사용하는 막 증발법을 이용하고자 하였다. 막 증발법은 압력을 구동력으로 사용하는 일반적인 분리막 공정에 비해 온도차를 구동력으로 사용하기 때문에 유입수 중 입자성 물질의 막 표면으로의 물리적인 이송(convection)이 없으므로 막 오염(fouling)이 상대적으로 적게 발생한다는 장점이 있다. 따라서 본 연구에서는 선행연구에서 도출한 공정인자를 이용하여 미세조류를 고액 분리에 따른 투과 성능 및 막 세정 효과를 분석하고자 하였다. 이를 위하여 세정 주기와 세정 방법이 막 회복 및 제거율에 미치는 영향을 살펴보고자 한다.

Biogas is a gaseous mixture produced from the microbial digestion of organic materials in the absence of oxygen. Raw biogas, depending upon organic materials, digestion time and process conditions, contains about 45 ~ 75% methane, 30 ~ 50% carbon dioxide, 0.1% hydrogen sulfide gas, and a fractional percentage of water vapor. To achieve the standard composition of the biogas, treatment techniques like absorption or membrane separation are performed for the resourcing of biogas. In this paper, the experiments are performed using biogas produced in an environmental digestion facility for food waste. The membrane module was imported from overseas, its membrane process has achieved up to 98% of the methane and 99% of the carbon dioxide separated, and it has manufactured and stored pressurized carbon dioxide. The effects of the feed pressures on the separation of CO2-CH4 by the membrane are investigated. A chelate was utilized to purify the methane from the H2S concentration of 0.1%.

In this paper, tin-waste resources were pulverized and separated by cut-mill and multi cyclone separator, respectively. After the cut-mill process, more than 98% of the Pb-Sn and Sn-Ag-Cu scraps were recovered, and the by-products consisting of metal and oxide could be reused as solder. The separation of pulverized powders was performed using the minimum fluidization velocity depending on the density of the materials. When the flow rate was 21 L/min (70% blower output), it had the highest separation efficiency.

In this work, the separation characteristics of CO2 from CO2 and CH4 mixed gas was studied using pressure swingadsorption (PSA) process. Zeolite 13X was used as an adsorbent to adsorb CO2 from gaseous stream in a fixed-bed ofadsorbent. The adsorption experiments were performed with various gas flow rates, adsorption pressures and temperatures.The deactivation model was used to analyze the adsorption kinetics of CO2 using the experimental breakthrough data.From this work, it was found that the activation energies of adsorption and deactivation were 29.15 and 13.0 kJ/mol,respectively. And the experimental breakthrough curves were agree very well with the adsorption isotherm models basedon Freundlich equation.

Membrane separation is extensively used for water/wastewater treatment because of its efficiency separation processes. However, particles in the feed water can deposit and accumulate on the membrane surface to created cake layer. As a consequence, the selectivity of the membrane and flux through the membrane are decreased, which is called fouling/blocking phenomenon. In order to solve fouling problem, we developed a novel membrane named Carbon Whisker Membrane (CWM) which contains vapor-grown carbon fibers/whiskers on the surface of the membrane and a layer of carbon film coated on the ceramic substrate. We firstly employed polymethyl methacrylate (PMMA) as a testing material to investigate the fouling mechanism. The results suggested that Carbon Whiskers on the surface of the membrane can prevent the directly contact between the membrane body and particles so that the fouling/blocking could not occurred easily compared to the membrane without carbon whiskers. We also researched the relationship with the diameter, density of carbon whisker on the membrane surface and total flux of solutions. Finally, we will be able to control the diameter and density of carbon whiskers on the membrane and existence of carbon whiskers on the membrane, it is important factor, might be prevent fouling/blocking in the water treatment.

For the purpose of developing a new process for the elimination of oil components from oily waste water, experimental researches using oil gelling agent were performed. The process is composed of three units, that is, decantator, gelling column and adsorption column. l0g of gelling agent in the gelling column could effectively absorb 15.65g of oil from ship washing waste water and 16.93g of oil from steel industry waste water. COD in waste waters dramatically diminished not in the gelling column but in the adsorption column. The gelling is hindered by other organic components in waste water, and the optimum space time for the gelling column is 20min. lg of gelling agent absorbed 3.7-4.0g of oil from waste waters with 25 min in the batch operation.