For a sustainable development, the resources circulation system should be established and required alternative logistics area of enterprises. In this paper, we are to suggest a direction through analysis effects, and reduce, recycle, reuse factor of tra

본 연구의 목적은 도시 하수처리를 위한 막결합형 A2O공정에 관해 실제적인 정보를 얻고자 하는 것이다. 공경 0.25;μm의 평판형 정밀여과막을 공기가 주입되는 호기조에 침지시켜 처리수는 저압으로 여과된다. 인공폐수를 대상으로 최적의 처리수질과 장기운전의 안정성 확보를 위한 내부반송율과 MLSS 농도 등의 최적 운전인자를 산정하고자 하였다. 내부반송은 각각 호기조에서 무산조로 반송한 것을 type 1, 무산조에서 혐기조로 반송한 것을 type 2라고 규정지었다. 플럭스는 15 LMH, type 1을 2Q로 고정하고 실험하였을 때 최적의 운전 조건은 MLSS 농도는 11,000 mg/L, type 2가 IQ로 나타났다. 이때, BOD CODcr, T-N, T-P의 제거율이 각각 97.3%,;94.2%,;64.0%,;63.0%로 타 내부반송율보다 효과적이었다.

본 연구는 재생골재를 도로의 보조기층재료 및 포장용 콘크리트 골재로 사용하기 위하여 수행되었다. 우선 보조기층재료로서의 활용성 여부를 파악하기 위하여 실내다짐시험, CBR 시험, 평판재하시험을 수행하였으며, 콘크리트용 골재로의 활용성을 보기 위하여 재생골재 첨가비율을 0, 20, 40, 60, 80%로 하여 설계기준강도 280kgf/cm2인 표층용 콘크리트를 제조하였다. 제조된 콘크리트로 굳지 않은 콘크리트 성질과 28일 양생 후 강도시험과 동결 융해에 따른 내구성 시험을 통해 폐콘크리트 재생골재의 활용성을 도로포장재료 측면에서 검토하였다. 실험결과 재생골재는 보조기층재료로서의 사용이 충분히 가능하며 표층용 콘크리트 골재로서 재생골재 첨가비율 40%까지 활용이 가능함을 알 수 있었다.

폐수를 한외여과할 경우 발생하는 막오염 현상을 최소화하기 위하여 세척수로 주기적으로 역세척 하였을 때 그 효과와 최적 조건을 조사하는 것이 본 연구의 목적이다. 폐우우유팩을 재셍히여 화장지를 생산하는 A 회사 및 골판지를 재생하는 B회사의 응집 침전 처리수를 대상으로, 평균기공의 크기가 0.02μm인관형 알루미나 세라믹 한외여과막으로 처리하면서 역세척 주기의 변화가 막오염과 투과수의 수질에 미치는 영향을 조사하였다. 이 대 역세척 시간은 모든 경우에 3초식 일정하게 행하였다. 원수 및 투과수의 부유 고형물 및 총용존 고형물, 화학적 산소요구량을 분석한결과, A회사의 폐수는 역세척 주기가 15초로 가장 짧은 경우 부유 물질의 배제율이 가장 우수하였다. 그러나, 화학적 산소요구량의 배제율은 A회사 및 B회사의 폐수가 모두 역세척 주기가 30인 경우 가장 높았다. 한편, 총용존 고형물의 배제율은 A회사 폐수가 역세척 주기 30초와 60초에서 유사한 ？을 보였고, B회사 폐수가 역세척 주기 60초에서 가장 탁월하였다. 운전시간에 다른 투과 플럭스의 변화로 역세척이 막오염의 진행에 미치는 영향을 조사한 결과, A회사 및 B회사의 응집 침전 처리수 모두 역세？을 하였을 때 투과플럭스가 서서히 감소하였고, 정상 운전시 보다 높은 값을 나타내었다. 그러나, 가장 높은 투과플러스를 유지하는 조건은 A회사 폐수와 B회사의 폐수가 차이를 보였는데 수질조사 결과 A회사 폐수는 부유 고형물 및 화학적 산소요구량이 높았으나 B회사 폐수는 종용존 고형물이 상대적으로 많기 때문에 발생한 결과로 추정된다.Energy)를 구해본 결과, μc-Si:H의 Ea 가 가장 낮은 것을 관찰 할 수 있었다.s derived by combining the numerous rainfall-runoff data. The conclusions are as follows; 1)The oscillations in the derived unit hydrograph are reduced by combining the data from each flood event. 2) The reciprocals of the minimum eigenvalue of XTX, 1/k and the condition number CN are increased when the oscillations are active in the derived unit hydrograph. 3)The parameter estimates are validated by extending the model to the Soyang river Dam site with elimination of the autocorrelation in the disturbances. Finally, this paper illustrates the application of the multiple regression model to drive an optimal unit hydrograph dealing with the multicollinearity and the autocorrelation which cause some problems. 우선적으로 고려하여 사용할 농약을 선

The efficiencies of Gang-Byeon sewage treatment facilities, which are based on GPS-X modelling, were analysed and used to design recycle water treatment processes. The effluent of an aeration tank contained total kjeldahl nitrogen (TKN) of 1.8 mg/L with both C-1 and C-2 conditions, confirming that most ammonia nitrogen (NH3 +-N) was converted to nitrate nitrogen (NO3 --N). The concentrations of NH3 +-N and NO3 --N were found to be 222.5 and 227.2 mg/L, respectively, with C-1 conditions and 212.2 and 80.4 mg/L with C-2 conditions. Although C-2 conditions with higher organic matter yielded a slightly higher nitrogen removal efficiency, sufficient denitrification was not observed to meet the discharge standards. For the total nitrogen (T-N) removal efficiency, the final effluent concentrations of T-N were 293.8 mg/L with biochemical oxygen demand (BOD) of 2,500 mg/L, being about 1.5 times lower than that (445.3 mg/L) with BOD of 2,000 mg/L. Therefore, an external carbon source to increase the C/N ratio was required to get sufficient denitrification. During the winter period with temperature less than 10 , the denitrification efficiency was dropped rapidly even with a high TKN concentration (1,500 mg/L). This indicates that unit reactors (anoxic/aerobic tanks) for winter need to be installed to increase the hydraulic retention time. Thus, to enhance nitrification and denitrification efficiencies, flexible operations with seasons are recommended for nitrification/anoxic/denitrification tanks.

Due to the increasingly serious environmental problems presented by waste tires, the feasibility of using elastic and flexible tire-rubber particles as aggregate in concrete is investigated in this study. Tire-rubber particles is composed of tire chips, crumb rubber, and a combination of tire chips and crumb rubber. Experimental work of Waste Rubber Particle Reinforced Mortar(WRPRM) have been conducted in the form of cube specimens [50mm x 50mm x 50mm], beam specimens [40mm x 40mm x 160mm] mixed with 0%, 5%, 10%, 15%, 20%, 25% of rubber particle. We executed test for compression strength test, bending strength test on 7 days, 14days, 28days and percentage of moisture content test on 28days after initial curing. In this study, We studied the initial strength of WRPRM. But, in order to understand the reinforcing effect of the rubber particles, we need to execute a test of Waste Rubber Particle Reinforced Concrete(WRPRC).

The effect of the metal oxide catalyst in the dimerization of waste vegetable oil was investigated. The high efficiency and recyclability has allowed different metal oxides to be used as catalysts in numerous synthetic reactions. Herein, clay, aluminum, titanium, calcium, magnesium and silicon oxide micro/nanoparticles are used in a Diels-Alder reaction to catalyze the production of the dimer acids. The metal oxides assist the electron transfers during cyclization to produce the desired product. Liquid chromatography mass spectroscopy (LC-MS) and gel permeation chromatography (GPC) were used to verify the production of dimer acids. For the confirmation of cyclization, compounds were analyzed using the nuclear magnetic resonance (NMR) spectroscopy. From the analysis, silylated or pristine clay showed its effectiveness as a catalyst in dimerization. Furthermore, alumina and alumina/silica composite showed successful performance in the reaction to yield cyclic dimer acids. These result suggested that metal oxides and montmorillonite might be used in synthesis of dimer acids for the recycle of waste vegetable oils.

Most spent foundry sand (SFS) is disposed in waste containment facilities; only 41.4% beneficially reused in recycling.In foreign countries, some spent foundry sand is finding uses in highway bases and retaining structures, asphalt concrete,and pavement bases. However, limited information is available on the use of SFS as a component in the base or subbaselayers of pavements. Large volumes of SFS can be used in roadway construction, so this information is very important.In this study, the geotechnical properties of SFS amended road base material such as particle size, turbidity, andpermeability were estimated to decided the optimal conditions in thermal stabilization. At the optimal conditions, abrasiontest and California bearing ratio (CBR) test were conducted to evaluate the degree of qualification for the standard ofsubbase layers of pavement. Also, the hazardous characteristics of SFS were evaluated by Korea extraction test (KET)and toxicity characteristic leaching procedure (TCLP). It was realized that SFS can be used as auxiliary material inpavement subbase when particle size of SFS was amended by mixing with another pavement materials.

Life Cycle Assessment(LCA) has been carried out to evaluate the environmental impacts of glass bottle recycle. The LCA consists of four stages such as Goal and Scope Definition, Life Cycle Inventory(LCI) Analysis, Life Cycle Impact Assessment(LCIA), and Interpretation. The LCI analysis showed that the major input materials were water, materials, sand, and crude oil, whereas the major output ones were wastewater, CO2, and non-hazardous wastes. The LCIA was conducted for the six impact categories including 'Abiotic Resource Depletion', 'Acidification', 'Eutrophication', 'Global Warming', 'Ozone Depletion', and 'Photochemical Oxidant Creation'. As for Abiotic Resource Depletion, Acidification, and Photochemical Oxidant Creation, Bunker fuel oil C and LNG were major effects. As for Eutrophication, electricity and Bunker fuel oil C were major effects. As for Global Warming, electricity and LNG were major effects. As for Ozone Depletion, plate glasses were major effects. Among the six categories, the biggest impact potential was found to be Global Warming as 97% of total, but the rest could be negligible.

This study has cross checked the change of internal sludge-recycle in Anaerobic-Digestion, and researched about not only the improvement of Bio-gas production from the digested sludge but also the efficient method of sludge minimization. Ultimate object of the study is to reduce the amount of sludge by the improved efficiency of contact with the organic-matter and the microbes in Anaerobic-Digestion. The sludge-recycle fluidized sludge layer and raised the activity of the sludge, the optimal sludge-recycle ratio, VS and COD removal ratio were 1,000%, 28.2% and 27.7%, respectively. Through these results of this study, it may be of use to treat waste sludge by the sludge-recycle ratio in terms of minimization and circulation of resources.

In this study, the prefabricated lightweight plastic foundation which was made of recycled plastic for sewage pipeline was developed and PE triple flexible pipe was used to evaluate the fundamental characteristics of foundation for sewage pipeline. Two types of prefabricated plastic foundations were adopted. The basic properties of each plastic material were evaluated, such as density, elastic modulus, unconfined compressive strength, and bending stress. The allowable load at 5% of pipe deformation was 1.49 ton for 100% new plastics foundation, and 1.35 ton for composite plastic foundation. The use of fabricated lightweight plastic foundation shows 100% of higher load support than without foundation.

The purpose of this study was to investigate yield rate of carbon fibers reinforced epoxy composites in near-critical water. A CFRP (carbon fiber reinforced plastic) laminate stacked with twenty layers was used and the specimens were cut in 10 × 50 mm (thickness: 4 mm) size. The CFRP sample was placed and heated within the non-stirred bath autoclave with an electric furnace. The yield percentage is calculated by the weight percentage of eliminated resin. To check the surface of carbon fiber, scanning electron microscopy was employed. The results showed that the removal percentages of weight were between 53.9% and 97.1%. The best yield was significantly increased up to 97.1% when operating in 573 K (14 MPa) condition. This research suggests an basic data to design a commercial scale recycling system or a new low cost recycling system for CFRP waste.

This study was focused on the investigation of the characteristics of organics and nitrogen removal with the recycle ratio in anoxic/oxic(A/O) packed bed process that consisted of the anoxic reactor and the aerobic reactor. As increasing the recycle ratio by 0.5, 1.0, 2.0, the COD removal efficiency increased by 94.0%, 98.5%, 98.8% respectively. The aerobic reactor showed the perfect nitrification efficiency by 98.5%, 99.2%, 98.0% respectively. The T-N removal efficiency with the recycle ratio, increased by 56%, 67%, 70% respectively. As increasing the recycle ratio by 0.5, 1.0, 2.0, T-P removal efficiency decreased by 62.1%, 57.4%, 51.3% respectively. The process by releasing the stored phosphorus in the anoxic reactor and uptaking the excess phosphorus in the aerobic reactor, occurred well comparatively when recycle ratio is 0.5. But this process did not occur when the recycle ratio is 1.0 and 2.0. And optimum pH of nitrification was about 6～7 and alkalinity decreased as nitrification rate increased. As increasing the recycle ratio in the anoxic reactor, DO concentration and ORP increased.