We investigated physicochemical properties and isotopic compositions of organic matter (δ13CTOC and δ15NTN) in the old fish farming (OFF) site after the cessation of aquaculture farming. Based on this approach, our objective is to determine the organic matter origin and their relative contributions preserved at sediments of fish farming. Temporal and spatial distribution of particulate and sinking organic matter (OFF sites: 2.0 to 3.3 mg L-1 for particulate matter concentration, 18.8 to 246.6 g m-2 day-1 for sinking organic matter rate, control sites: 2.0 to 3.5 mg L-1 for particulate matter concentration, 25.5 to 129.4 g m-2 day-1 for sinking organic matter rate) between both sites showed significant difference along seasonal precipitations. In contrast to variations of δ13CTOC and δ15NTN values at water columns, these isotopic compositions (OFF sites: -21.5‰ to - 20.4‰ for δ13CTOC, 6.0‰ to 7.6‰ for δ15NTN, control sites: - 21.6‰ to - 21.0‰ for δ13CTOC, 6.6‰ to 8.0‰ for δ15NTN) investigated at sediments have distinctive isotopic patterns (p<0.05) for seawater-derived nitrogen sources, indicating the increased input of aquaculture-derived sources (e.g., fish fecal). With respect to past fish farming activities, representative sources (e.g., fish fecal and algae) between both sites showed significant difference (p<0.05), confirming predominant contribution (55.9±4.6%) of fish fecal within OFF sites. Thus, our results may determine specific controlling factor for sustainable use of fish farming sites by estimating the discriminative contributions of organic matter between both sites.

MMBR system has been suggested as a promising system to resolve harvesting problems induced from low settling efficiency of microalgae. And recently, a lot of research on reducing fouling at the MMBR system has investigated focused on EPS in many cases. EPS of microalgae mainly consists of polysaccharides and protein components, and is produced through photosynthesis and nitrogen-carbon metabolic pathways. Especially, P-EPS is one of major compounds which occur membrane fouling phenomenon, as its hydrophobic protein components cause floc formation and cake layer accumulation. And it is already known that almost every microalgae can metabolize P-EPS or Chl-a when nitrogen sources as a substrate is insufficient or exhausted situation. With the above backgrounds, uptake rates of P-EPS or Chl-a by Scenedesmus quadricauda according to the type of carbon source and nitrogen concentration were evaluated in order to verify correlation between carbon source vs P-EPS production, and indeed Scenedesmus quadricauda uses P-EPS or Chl-a when the amounts of nitrogen sourc es in the feed is not satisfied. As a result, it was shown that P-EPS and Chl-a production were increased proportional to nitrogen concentration under organic carbon condition. And especially, the amo unts of P-EPS and Chl-a in the cell were diminished with the nitrogen source becomes insufficient or exhausted. Because P-EPS accelerates fouling at the MMBR system, P-EPS degradation by Scenedesmus quadricauda in order to get nitrogen source may contribute to reducing fouling. About a affects of N-consumed Chl-a to the MMBR fouling, more survey is needed. On the contrary, considering the purpose of MMBR system of this study, i.e. harvesting useful high value microalgae efficiently feeding adequate industrial process wastewater, it seems like difficult to maintain satisfied metabolic activity and to harvest with high yield rate using nitrogen-poor MMBR feed.

We report the rapid single-step flame synthesis of hydrophobic carbon layers (C-layers) on the surface of stainless-steel (SS) substrates using vaporized biodiesel as the fuel. A co-flow canola methyl ester/air diffusion flame is used to generate a hydrophobic monolayer on the surface of the metal substrate upon its insertion into the reaction zone. Carbon deposition on the surface of the SS substrates varies by changing the SS disk’s position in the post-flame, and by varying its exposure time. The thickness and mass of the flame-formed monolayer varied depending on the substrate’s insertion point into the flame. However, the variation of mass did not significantly impact the C-layer’s uniformity or hydrophobicity. We hypothesize that a small “inner-cone” of the biodiesel flame along with a high soot propensity can result in an ideal medium to form uniform hydrophobic C-layers of unique hierarchical surface structure. This is supported by introducing SS substrates in methane/air flames formed using the same co-flow burner. The hydrophobic property of the carbon deposits was quantified by measuring the contact angle of water droplets placed on the film’s surface. A water droplet drop test was conducted on the flame-formed hydrophobic layers to study their wettability property.

In this study, soybean oil, which is used in a large variety of processed foods, is used as a carbon source. Soybean oil is successfully coated onto the surface of LiNi1/ 3Co1/3Mn1/3O2 (NCM) by a simple method. The physical and electrochemical properties of NCM/C hybrid materials are determined. As a result, a 5 nm thickness carbon coating layer is formed on the surface of the NCM, resulting in improved capability and cyclic performance in the battery. The NCM/C battery shows an initial discharge capacity of 159 mAh g−1 and 95% capacity retention after 100 cycles (a discharge capacity of 120 mAh g−1 and 94% retention are observed after 100 cycles for the NCM cathode).

Biological phosphorus removal is accomplished by exposing PAO(phosphorus accumulating organisms) to anaerobic-aerobic conversion conditions. In the anaerobic condition, PAO synthesize PHB(polyhydroxybutyrate) and simultaneously hydrolysis of poly-p resulting phosphorus(Pi) release. In aerobic condition, PAO uptake phosphorus(Pi) more than they have released. In this study, cyanobacteria Synechococcus sp., which is known to be able to synthesize PHB like PAO, was exposed to anaerobic-aerobic conversion. If Synechococcus sp. can remove excess phosphorus by the same mechanism as PAO, synergistic effects can occur through photosynthesis. Moreover, Synechococcus sp. is known to be capable of synthesizing PHB using inorganic carbon as well as organic carbon, so even if the available capacity of organic carbon decreases, it was expected to show stable phosphorus removal efficiency. In 6 hours of anaerobic condition, phosphorus release occurred in both inorganic and organic carbon conditions but SPRR(specific phosphorus release rate) of both conditions was 10 mg-P/g-MLSS/day, which was significantly lower than that of PAO. When converting to aerobic conditions, SPUR(specific phosphorus uptake rate) was about 9 mg-P/g-MLSS/day in both conditions, showing a higher uptake rate than the control condition showing SPUR of 6.4 mg-P/g-MLSS/day. But there was no difference in terms of the total amount of removal. According to this study, at least, it seems to be inappropriate to apply Synechococcus sp. to luxury uptake process for phosphorus removal.

β-mannanase from Trichoderma reesei was purified by DEAE Sephadex A-50 ion exchange chromatography and Sephadex G-100 gel chromatography. The molecular weight was determined to be 54 kDa by tricine SDS-PAGE. Trigonella foenum-graecum galactomannan was hydrolyzed by the purified β-mannanase, and then the hydrolysates were separated by Bio-Gel P2 chromatography. The main hydrolysates were composed of D.P. (degree of polymerization) 2, 3, and 4, 6 galactomanno-oligosaccharides. To investigate the effects of Trigonella foenum-graecum galactomanno- oligosaccharides on in vitro growth of L. plantarum, were cultivated individually on a modified-MRS medium containing carbon sources such as low- and high-molecular-weight galactomanno-oligosaccharide. Lactobacillus plantarum grew 1.8-fold after treatment with high- and low-molecular-weight galactomanno-oligosaccharides, compared to 1.3-fold for those with standard MRS medium. Bacteriocin was purified by Sephadex G-100 gel chromatography and determined to be 122 kDa by tricine SDS-PAGE. The bacteriocin activated doubly more effectively after treatment with galactosmanno-oligosaccharides compared to those with standard MRS medium. Bacteriocin showed antimicrobial activity against Staphylococcus aureus. The inhibitory compound lost activity when heated to temperatures greater than 30oC and when inhibited to pH changes that lowered the pH below 4 or raised it above 5. Furthermore, its effects were inhibited by treatment with proteolytic enzymes.

국가 온실가스 인벤토리를 Tier 2 이상의 수준으로 향상시키기 위해서는 IPCC 기본값 대신 국가 고유의 배출계수가 개발 및 이용되어야 한다. 국가 고유 배출계수는 에너지원 종류, 에너지 공정, 시간 추세에 따라 달라지기 때문에, 각 에너지원별 특성값을 파악하는 것은 정확한 인벤토리 구축에 중요한 부분을 차지한다. 국내 석유계 에너지원의 물성은 시간의 경과에 따라 큰 변화는 없었으며, 국내에서 고시되고 있는 에너지원별 열량환산기준 상의 석유계 에너지원에 대한 열량 및 탄소배출계수를 2013년과 2016년에 실제 시료를 수집하여 발열량, 탄소함량 및 탄소배출계수를 산정한 결과값과의 비교분석에서는 대체적으로 일정한 값을 유지하고 있는 것으로 나타났다. 또한, 석유계 에너지원별로 산출된 순발열량과 탄소배 출계수는 2006 IPCC Guideline에 나타낸 값들과 비교하였으며, 대부분의 에너지원이 2006 IPCC G/L의 기본값 및 상한, 하한 범위내의 값을 나타내었다.

The biogeochemical information of riverine organic matter gives a detailed and integrated recording of natural and anthropogenic activity within a watershed. To investigate the changes in quality and quantity of organic carbon transporting from mountain to ocean via river channels, we estimated the concentrations of dissolved (DOC) and particulate organic carbon (POC), and then traced the source origin of POC using stable carbon isotopes ratio before and after summer rainfalls in the Tamjin River and Ganjin Bay, Korea. Along the small watershed, a total of 13 sites including headwaters, dam reservoir, river and estuary were established for the study. We found some interesting findings in the aspect of distribution of DOC/POC concentration changing their origin sources dynamically flowing downstream. In particular, the river channel transport downstream mainly DOC to river mouth, although upper dam reservoir increased POC concentration by phytoplankton production in summer. Whereas, in the river mouth and estuary, POC was dominated not only by local supply from nearby reed saltmarsh, but also by marine phytoplankton production, respectively. The findings can contribute to increasing the understanding of riverine organic carbon transport in upper large dam and lower open estuary system.

This study was performed to evaluate the alternative improvement plans for removal efficiency of plating wastewater treatment processes with high concentrations of heavy metals and total nitrogen in the influent. The average removal efficiency rates of the existing wastewater treatment plant were 58% of CODcr, 74% of CODmn, 78% of TN, 99% of TP, respectively. However, the concentration of SS (about 250 mg/L) was over the emission standard (120 mg/L). TN and Cu2+ concentrations were over the emission standard; about 62 mg/L and 5.2 mg/L, respectively. Carbon source quantity, fed into the anoxic tank of the biological wastewater treatment process, was controled by calculating the optimum required COD amount for denitrification. The removal efficiency rates of Zn2+, Cu2+, and Ni2+ were achieved using an electrolysis reactor 89%, 89%, and 99%, respectively. Therefore, it was recommended to modify the existing wastewater treatment process including the chemical precipitation to the electrolysis reactor as an efficient and environmentally effective alternative.

This study investigates the effect of sodium bicarbonate (NaHCO3) on growth of S. dimorphus. NaHCO3 concentration was varied from 0 to 2 g-C/L. As a result, the increase in concentration of NaHCO3 up to 1.5 g-C/L increased dry weight of algae. The highest specific growth rate of S. dimorphus was 0.36 day-1 which was obtained at concentration of 0.5 g-C/L NaHCO3. pH showed a large variation range at the concentrations lower than 0.5 g-C/L NaHCO3 whereas inorganic carbon, nitrate and phosphorus removal rates were almost same at the concentrations higher than 0.5 g-C/L NaHCO3 (0.75, 1, 1.25, 1.5, 2 g-C/L NaHCO3). Their average inorganic carbon, nitrate and phosphorus removal rate were 70 mg-C/L/d, 11.3 mg-N/L/d, and 1.6 mg-P/L/d, respectively. Thus, NaHCO3 didn’t effect on inorganic carbon, nitrate and phosphorus removal rate of S. dimorphus.

To get more comprehensive understandings about the microbial diversity near the seawater of Ulleung Island, East sea of Korea, the bacterial identification base on 16S rDNA and their carbon source utilization patterns were analysed through the six surface water samples collected at June 23 to 25, 2007. The results are as follows; the population densities of aerobic heterotrophic and oligotrophic bacteria were from 1.9±0.6×104~6.3±0.7 ×104 cfu ml−1 and from 1.7±0.4×103~2.5±0.4×103 cfu ml−1 during sampling periods, respectively. Among 121 isolated stains, the dominant taxa are Pseudoalteromonas spp. (30 colonies) and Alteromonas spp. (17 colonies). Thirty-senven species-level strains base on 16S rDNA sequencing data are identified, which comprised Gammaproteobacteria (14 strains), Alphaproteobacteria (6 strains), Flavobacteria (6 strains), Actinobacteridae (4 strains), Firmicutes (4 strains), Deinococci (2 strains), Betaproteobacteria (1 strains). The carbon utilization patterns by assay of Biolog-microplate, α-D-glucose are used by 88.9% of the 27 strains of Gram-negative bacteria and more than 80% of them also consumed L-arabinose, D-trehalose, L-alanine, and pyruvic acid methyl ester. On the other hand, all the 10 strains of Gram-positive bacteria used α-D-glucose, and more than 80% of them also exploited maltose, palatinose, D-trehalose, turanose, D-xylose, and pyruvic acid.

본 연구에서는 고도정수처리를 위하여 모듈 내부와 관형 세라믹 정밀여과막 외부 사이의 공간에 입상 활성탄(GAC)을 충전한 혼성 모듈을 사용하였다. 정수 원수 중의 자연산 유기물(NOM)과 미세 무기 입자를 대체하기 위해, 휴믹산(humic acid)과 카올린(kaolin) 모사용액을 대상으로 하였다. 혼성공정에서 막오염을 최소화하고 투과선속(J)을 향상시키기 위하여 10분 주기로 10초 동안 질소 역세척을 시행하였다. 그 결과, 휴믹산의 농도가 10 mg/L부터 2 mg/L로 단계적으로 변화시킴에 따라 막오염에 의한 저항(Rf)이 감소하고 J가 증가하여 2 mg/L에서 가장 높은 총여과부피(VT)를 얻을 수 있었다. 한편, 탁도 및 UV254 흡광도의 처리효율은 각각 99.36% 및 97.19% 이상으로 우수하였으나, 휴믹산의 농도 10 mg/L에서 활성탄 주입 없이 정밀여과 단독으로 UV254 흡광도의 처리효율은 90.84%로 다소 감소하였다.

본 연구에서는 고도정수처리를 위하여 모듈 내부와 관형 세라믹 정밀여과막 외부 사이의 공간에 입상 활성탄(GAC)을 충전한 혼성 모듈을 사용하였다. 정수 원수 중의 자연산 유기물(NOM)과 미세 무기 입자를 대체하기 위해, 휴믹산(humic acid)과 카올린(kaolin) 모사용액을 대상으로 하였다. 혼성공정에서 막오염을 최소화하고 투과선속(J)을 향상시키기 위하여 역세척 시간(BT)과 역세척 주기(FT)에 따른 영향을 알아보았으며, 최적운전조건을 규명하고자 하였다. 그 결과, BT가 증가함에 따라 Rf 다소 감소하는 경향을 보였으며, 더 짧은 FT는 빈번한 역세척으로 Rf의 감소와 J의 향상에 더 효과적이었다. 그러나 운전비용을 고려하였을 때, 최적 BT 및 FT는 각각 10초와 8분이었다. 한편, 모사용액으로 실험하여 도출된 최적 운전조건을 호소수의 고도정수처리에 적용하였다. 그 결과, 탁도 및 UV254 흡광도, CODMn의 평균처리효율은 각각 99.11% 및 91.40%, 89.34%로 우수하였으나, TDS의 평균처리효율은 30.05%로 낮았다.

본 연구에서는 관형보다 단위시간당 투과량이 월등히 많은 다채널 세라믹 분리막을 사용하였으며, 고도정수처리 혼성공정은 모듈 내부와 다채널 정밀여과막 외부 사의의 공간에 입상활성탄(GAC)을 충전하여 구성하였다. 정수 원수 중의 자연산 유기물(NOM)과 미세 무기 입자를 대체하기 위해, 휴믹산(humic acid)과 카올린(kaolin) 모사용액을 사용하였다. 유기물질의 영향을 살펴보기 위해 일정한 30mg/L의 카올린 농도에서 휴믹산(humic acid)의 농도를 2~10 mg/L로 변화시켰다. 그 결과, 막오염의 저항(Rf)과 투과선속(J)은 휴믹산의 농도에 따라 큰 영향을 받았다. 또한 역세척 주기(FT)의 영향을 살펴본 결과, 더 짧은 FT는 빈번한 역세척으로 막오염의 감소와 투과선속의 향상에 더 효과적이었다. 그러나 운전비용을 고려하면, 최적 FT조건은 8분이였다. 한편, 이 다채널 정밀여과막 및 GAC 혼성공정을 호소수에 적용한 결과, 평균 처리효율은 탁도 98.02%, UV254 흡괌도 75.64%, 총용존고형물(TDS) 7.18%, 화학적산소요구량 84.73%이었다.

Nanostructured carbon materials have been found to have applications in fuel cell electrodes, field emitters, electronic devices, sensors and electromagnetic absorbers, etc. Especially, the CNF (carbon nanofiber) can be expected to play an important role in catalyst supporters for fuel cell electrodes and chemical reactions. In this study, we synthesized CNF from a liquid phase carbon source by a solvothermal method. In addition, we studied the parameters for the preparation of CNF by controlling heating and cooling rates, synthesis temperature and time. We characterized the CNF by SEM/TEM, XRD, Raman spectroscopy and EDS. We found that the heating and cooling rate have strong effects on the CNF formation and growth. We were able to prepare the best CNF at the heating rate of 10˚/min, at 450˚ for 60 minutes, and at the cooling rate of 4˚/min. As a result of Raman spectra, we found that the sample showed two characteristic Raman bands at ~1350cm-1 (D band) and ~1600cm-1 (G band). The G band indicates the original graphite feature, but the D band has been explained as a disorder feature of the carbon structure. The diameter and length of the CNF was about 15~20nm, and over 1μ, respectively.

본 연구에서는 고도정수처리를 위하여 모듈 내부와 세라믹 정밀여과막 외부 사이의 공간에 입상 활성탄(GAC)을 충전한 혼성 모듈을 이용하였으며, 정수 원수 중의 자연산 유기물(NOM)과 미세 무기 입자를 대체하기 위해, 휴믹산(humic acid)과 카올린(kaolin) 모사용액을 사용하였다. GAC의 충전율(packing fraction)에 따른 처리효율의 변화를 알아보고자. GAC의 충전율을 0~24.05%로 변화 시켰다. 그 결과, 3시간 운전하는 동안 막오염에 의한 저항(Rf) 및 투과선속(J)의 변화 곡선은 GAC의 충전율에 관계없이 거의 중첩되었다. 그리고 탁도의 처리효율은 모든 조건에서 99.46% 이상으로 높았으며, UV254 흡광도로 측정한 NOM의 처리효율은 최대 충전율 24.05%에서 제거율은 99.43%로 가장 높게 나타났다. 한편, 충전율 24.05%에서 13시간 동안 운전한 결과, J는 막오염의 증가에 따라 운전 초기 1시간 이내에 급격히 감소하였으며 3시간 운전 후부터는 거의 일정한 투과선속을 나타냈다. 그리고 탁도 및 NOM의 처리효율은 각각 99.52%와 96.63%로 안정적인 높은 처리효율을 보였다.

농촌진흥청 응용미생물과와 농가에서 수집한 꽃송이버섯 균주의 배양적 특성을 조사하였다. 기본배지는 감자 추출물을 이용한 PBA, PDA, PDM 배지에서 균사생장이 양호한 경향이었고, 특히 대나무톱밥 추출물이 함유된 PBA 배지에서 균사생장 및 밀도가 가장 좋았다. 꽃송이버섯 균사의 최적 배양온도는 25℃이었으며, 30℃ 이상에서는 균사생장이 전혀 이루어지지 않았다. 최적 pH 조건은 모든 균주가 pH 5.0에서 균사생장 및 밀도가 양호하였다. 대부분 균주가 pH 4.0에서 균사생장은 좋았으나 밀도가 현저히 낮은 경향이었지만, SC12 균주는 pH 4.0에서도 균사생장이 양호하였다. 탄소원은 단당류인 glucose, fructose, mannose, xylose와 이당류인 maltose에서 균사생장이 양호하고 밀도가 높았다. 이중 가장 경제적인 탄소원 glucose를 1.0∼1.5% 농도로 처리하였을 때 균사생장이 양호하였다. 질소원은 threonine, peptone, glycine, glutamine 그리고 valine을 첨가한 배지에서 균사생장이 양호하고 밀도가 높았으며, 질소원 peptone을 0.3% 처리 하였을 때 균사생장 및 밀도가 가장 좋았다.