Total phenol contents, total flavonoid contents and antioxidant activity of 70% methanol, 70% ethanol and chloroform-methanol (CM, 2:1, v/v) extracts from onion (Allium cepa L.) peels were studied. The IC50 values of DPPH (2,2-diphenyl-1-picrylhydrazyl) radical and ABTS [2,2′-azino-bis(3-ethylbenzothiazoline-6-sulfonic acid) diammonium salt] radical scavenging activity in 70% ethanol extract were remained to be lowest followed by 70% methanol extract and CM extract. And the total phenol content (113.56±0.86 mg CAE/g), total flavonoid content (49.63 mg QE/g) and ferric reducing antioxidant power value were also found to be the highest. In contrast, 70% methanol extract possessed the strongest antioxidant activity by β-carotene bleaching assay. CM extract displayed the lowest antioxidant activity compared with other extracts. Onion peels exhibited strong antioxidant activity and abundant phytochemicals, which could be used in a various food products to add phytochemicals and promote good health.

The aim of this study was to investigate the antioxidant activity of thermal treatment yam (Dioscorea batatas DECNE.) in Korea. Thermal treatment yam was extracted by different solvents including 70% methanol, 70% ethanol and chloroform–methanol mixture (CM, 2:1, v/v). Then color property, total phenol content and antioxidant activity were analyzed. Yam possessed high L* value and H° value, which were 54.92±2.18 and 73.20±0.77, respectively. Thermal treatment yam exhibited great antioxidant activity evaluated by ABTS [2,2′ -azino-bis(3-ethylbenzothiazoline-6-sulfonic acid) diammonium salt] radical scavenging activity, DPPH (2,2-diphenyl-1-picrylhydrazyl) radical scavenging activity, reducing power, and ferric reducing antioxidant power. Total phenol contents of various extracts from thermal treatment yam increased in the following order: 70% methanol extract (63.53±0.33 mg CAE/g), 70% ethanol extract (69.47±1.00 mg CAE/g) and CM extract (97.49±0.66 mg CAE/g), respectively. The same trend was also could be found in antioxidant activity assays except for reducing power assay. These results implied that these extracts from thermal treatment yam might be useful to take a good part in prevention of human diseases and aging.

In this study, the thermal treatment yam (Dioscorea batatas DECNE.) was analyzed for its proximate and nutritional compositions including mineral, vitamin, amino acids and fatty acids. Thermal treatment yam is mainly consisted of carbohydrate (70.3%) with small amounts of crude protein (15.8%), crude ash (5.1%) and crude fat (1.6%). It was found to be a good source of essential minerals such as K (1100.2 mg/100 g), Mg (99.4 mg/100 g), Ca (54.8 mg/100 g) and Na (44.9 mg/100 g) but Zn (4.8 mg/100 g) and Fe (0.2 mg/100 g) content was low. Little amounts of vitamin E (8.3 mg/100 g), vitamin C (3.5 mg/100 g) and vitamin B1 (2.1 mg/100 g) could be found. The amino acid analysis revealed that the yam was superior with respect to serine (1454.2 mg%), lysine (684.6 mg%) and histidine (684.6 mg%). Essential amino acids were calculated to be 2849.3 mg%. The amino acid profiles showed that thermal treatment yam is limiting in isoleucine and phenylaline. Linoleic acid was the most predominant fatty acids with the value of 47.3% followed by palmitic acid (24.7%) and oleic acid (12.7%). And the unsaturated fatty acids including oleic acid and linoleic acid were present in big quantities in thermal treatment yam.

본 연구에서는 동해 북부지역 거진, 중부지역 죽변 및 남부지역 감포의 조간대에 분포하고 있는 해조상의 지리적 종조성과 우점종 및 서식 특성을 2014년 5월과 8월에 조사하였다. 해조상의 지리적 종조성을 보면 거진, 죽변 및 감포는 모두 온대성 해조상의 특성으로서 거진은 구멍갈파래(Ulva pertusa), 염주말(Chaetomorpha moniligera)이 우점하였고, 죽변은 염주말(C. moniligera), 개서실(Chondria crassicaulis)이 우점하였다. 그리고 감포는 지충이(Sargassum thunbergii), 구멍갈파래(U. pertusa), 솜털류(Ectocarpus sp.)가 우점하였다. 지역별 해조상을 대표적으로 나타낼 수 있는 C/P, R/P와 (R+C)/P의 비율에서 거진은 각각 0.85, 2.10, 2.94, 죽변은 각각 0.58, 3.15, 3.73 그리고 감포는 각각 0.80, 3.91, 4.71로 전체 지역이 온대성 특성의 해조상이 뚜렷하게 나타났다. 군집분석의 결과에 의하면, 이들 지역은 거진의 A 그룹과 죽변과 감포 지역의 B 그룹으로 나누어졌으며, 이것은 지리적 종조성에서 죽변과 감포는 거진보다 온대성 해조상 특성이 강하게 반영되어 나타났다.

본 연구에서는 동해 연안정지관측 8개 지점(감포, 울기, 장기갑, 포항, 죽변, 동해(묵호), 주문진, 속초)에서 43년(1971-2013)간 조사한 표층수온을 이용하여 지역별 수온의 유사도에 따른 군집분석과 수온의 장기 변화를 살펴보았다. 수온의 유사도에 의한 군집분석 결과, 본 연구지역은 크게 그룹 A(동해, 주문진, 속초)와 그룹 B(감포, 울기, 장기갑, 포항, 죽변)로 구분되었다. 여기서 A 그룹의 속초와 B 그룹의 죽변, 포항, 감포를 중심으로 한 수온과 수온편차의 장기 변화에서 수온은 10년 규모의 변동을 보였다. 각 지역별 수온은 43년간 증가 경향을 보였고, 1988년을 기준으로 고수온기와 저수온기로 구분되었다. 각 지역에서 43년간 수온은 속초가 2.26℃, 죽변이 1.99℃, 포항이 1.11℃, 감포는 0.89℃ 각각 증가하였고, 지역적으로는 동해 남부에서 북부로 갈수록 수온의 증가 속도가 크게 나타났다. 계절별 수온의 증가는 추계와 동계의 경우 속초>죽변>포항>감포의 순이었고, 춘계와 하계는 죽변>속초>포항>감포의 순으로 나타났다.

This study assessed the removal efficiency of NOM which is known as the precursors of DBPs in advanced water treatment using the ceramic membrane filtration, introduced the first in the nation at the Y water treatment plant (WTP). It is generally well-known that the removal of NOM by MF Membrane is very low in water treatment process. But, the result of investigation on removal efficiency of NOM in advanced water treatment using the ceramic membrane was different as follows. The removal rate of organic contaminant by the ceramic membrane advanced water treatment was determined to be 65.5% for the DOC, 85.8% for UV254, and 77 to 86% for DBPFP. The removal rate of pre-ozonation was found to be 6 to 15% more effective compared with the pre-chlorination. The removal rate of DOC and UV254 in biological activated carbon(BAC) process was over 50% and 75%, respectively although the rate was decreased 10 ~ 20% according to analysis items in converting from GAC to BAC.

Shape memory materials are widely used in high-tech industries. Although shape memory polymers have been developed, they have a disadvantage, only unidirectional resilience. Shape memory polymers with bi-directional recovery resilience have been actively studied. In this study, a bidirectional shape memory polyurethane was synthesized using poly(ε-caprolactone) diol, methylene dicyclohexyl diisocyanate, and hydroxyethyl acrylate. The first physical curing occurred between hard segments and hydrogen bondings when the solution was dried. The second curing in acrylate groups was performed by UV exposure. A degree of curing was analyzed by infrared spectroscopy. The shape memory properties of 2 step-cured polyurethanes were investigated as a function of UV curing time.

In the industrial wastewater that occupies a large proportion of river pollution, the wastewater generated in textile, leather, and plating industries is hardly decomposable. Though dyeing wastewater has generally been treated using chemical and biological methods, its characteristics cause treatment efficiencies such as chemical oxygen demand (COD) and suspended solids (SS) to be reduced only in the activated sludge method. Currently, advanced oxidation technology for the treatment of dyeing wastewater is being developed worldwide. Electro-coagulation is highly adapted to industrial wastewater treatment because it has a high removal efficiency and a short processing time regardless of the biodegradable nature of the contaminant. In this study, the effects of the current density and the electrolyte condition on the COD removal efficiency in dyeing wastewater treatment by using electro-coagulation were tested with an aluminum anode and a stainless steel cathode. The results are as follows: ① When the current density was adjusted to 20 A/m2, 40 A/m2, and 60 A/m2 under the condition without electrolyte, the COD removal efficiency at 60 min was 62.3%, 72.3%, and 81.0%, respectively. ② The removal efficiency with NaCl addition was 7.9% higher on average than that with non-addition at all current densities. ③ The removal efficiency with Na2SO4 addition was 4.7% higher on average than that with non-addition at all current densities.

In this study, using coke dust from ironwork, the pulse pressure on a pulse air jet bag filter was investigated considering the influence of the pressure loss due to filtration velocity and pressure intervals. The research on the optimal pulse pressure prediction of a pulse air jet type bag filter using coke dust showed the following results. Pressure loss volatility produced by the pulse pressure under low dust concentration(0.5, 1 g/m3) and low face velocity(1.25 m/min) was less than 10 mmH2O. This suggests that the pulse pressure has a low impact on the pressure loss. In contrast, pressure loss volatility under high dust concentration(3 g/m3) and high face velocity(1.75 m/min) was 25 mmH2O. Therefore, pulse pressure with high dust concentration and high face velocity has a strong influence on the pressure loss volatility, compared to the condition of low dust concentration and low face velocity. The optimal pulse pressure of inlet dust concentration(0.5 g/m3) was 6 kg/cm2 under the same face velocity(1.75 m/min). As concentration increased from 1 to 2 g/m3, the pulse pressure gradually reached 5 kg/cm2 thus indicating that the pulse pressure(5 kg/cm2) is pertinent at a high concentration(3 g/m3). The pulse intervals: 20, 25 and 30 sec, which are relatively longer than 10 and 15 sec, corresponded to high pressure loss volatility produced by the pulse pressure. Furthermore, low pressure loss volatility was noted at 5 kg/cm2 of the overall pulse pressure.

The mother machine makes the necessary shape by processing materials such as metal. The SCFs are applied to the processing surface when the mother machine processes the material, thereby improving the cutting conditions. SCFs contain high concentrations of organic components and nitrogen compounds, which can cause problems such as eutrophication and algae bloom. Therefore, proper treatment is required. Electrochemical treatment is expected to be an alternative to conventional processes, and to be useful in various wastewater treatments. Moreover, it is an efficient elimination technique for contaminants and has a simple equipment composition. In this study, the removal efficiency of the T-N contained in the waste SCF using electrochemical treatment is analyzed. The electrode was made of titanium and iridium, made into a perforated metal sheet to prevent an imbalance of the sample concentration in the reactor. Experiments were conducted to examine the effects of current density and the concentration of the supporting electrolyte (NaCl, Na2SO4) on removal efficiency. In the cases with 60 A/m2, 80 A/m2, and 100 A/m2 current densities, the removal efficiencies of the T-N contained in the waste SCF were 51.03%, 68.83%, and 79.58%. Comparing between the addition and non-addition of NaCl, the removal efficiency with the addition of NaCl (5 ~ 10 mM) was higher than for no addition at 60 min for all current densities. The addition of Na2SO4 increased the removal rate of the T-N, but it was less effective than NaCl addition.

As industry continues to develop, the amount of various recalcitrant substances that cannot be removed by conventional wastewater treatment has increased in modern society. The SCFs (Soluble Cutting Fluids) used in metalworking processes contain many chemical substances, such as mineral oils, anticorrosive agents, extreme-pressure additives and stabilizers, as well as high concentrations of organics. Recently, electrolysis has been expected to become an alternative to conventional processes and to be useful in various wastewater treatments. Electrolysis is a highly adaptable industrial wastewater treatment method, having a high efficiency, short processing time, and simple equipment composition, regardless of the biodegradable nature of the contaminants. The effects of operating time, current density, and electrolyte on COD removal of waste SCFs have been studied using the stainless steel (SUS316) electrode in a batch type reactor. The results were as follows. ① Without electrolytes, when the current density was adjusted to 40 A/m2, 60 A/m2, and 80 A/m2, the removal efficiencies of the COD were 25.0%, 37.7%, and 49.1% after 60 min, respectively. ② In the comparison between NaCl (5 ~ 10 mM) addition and non-addition, the removal efficiency with NaCl was higher than for without after 60 min for all current densities. ③ In the comparison between Na2SO4 (5 ~ 10 mM) addition and nonaddition, the removal efficiency with Na2SO4 showed no significant difference to that with NaCl at all current densities.

1970년대 수출주도 고도성장을 위해 정부는 조선･철강･기계 등의 중화학공업을 선택적으로 집중육성 하였다. 그 결과 일반기계산업은 1970년 수출 8백만불에서 2015년 현재 218,262백만불로 약 27,000배 이상 성장하였다. 일반기계산업에 있어 금속가공 공정은 필수적이며, 금속가공 공정에서 필요로 하는 것이 공작기계(Mother machine)와 절삭유(Soluble Cutting Fluids, SCF)이다. 절삭조건 개선에 사용되는 절삭유는 첨가제, 사용용도 등에 따라 원액으로 사용하는 비수용성과 물로 희석해서 사용하는 수용성으로 나뉜다. 국내 절삭유 이용량의 60%이상이 수용성 절삭유로 비수용성 절삭유의 오일미스트(Oil-mist), 폐유처리과정에서 유독성 물질 발생 등의 문제로 수용성 절삭유 사용량이 점차 증가하였다. 또한 절삭 성능 향상을 위한 방부제, 윤활제, 방청제, 부식방지제, 세정제, 극압 첨가제 등 각종 화학물질 첨가로 인해, 노출될 경우 췌장, 피부, 담낭, 방광, 소화기계 등 인체의 여러 조직에 암을 유발할 수 있으며, 각종 호흡기계 질환과 피부질환을 초래하는 것으로 알려져 있다. 인체에 미치는 영향 외에도 수용성 절삭유에는 고농도의 유기성분과 질소화합물 등이 함유되어 있어 적절한 처리 없이 수계로 유출시 부영양화, 녹조현상 등과 같은 문제를 일으킬 수 있으며 산화반응에 의해 수계의 용존산소를 감소시키므로 그 처리의 중요성이 부각되고 있다. 본 연구에서는 실공정에서 발생한 폐수용성절삭유를 원시료로 하여 대표적인 불용성 전극인 Ti/IrO2 전극을 이용하여 전기화학적 처리를 진행하였으며 연구에 사용한 장치의 모식도를 Fig. 1에, 시료의 성상을 Table 1에 나타내었다.

우리나라 경제의 성장을 이끈 기계산업은 2015년 현재 생산액 100조원, 사업체수 9,526개사, 종사자수 31만 5천명, 부가가치 39조원으로써 제조업 중 생산액 5위, 사업체수 2위, 종사자수 3위, 부가가치 4위에 위치하고 있다. 이러한 기계산업에 있어 공작기계를 이용해 금속을 원하는 모양으로 만드는 금속가공은 반드시 필요한 공정으로 금속가공 시 가공 장비의 수명 연장 및 가공물의 품질 향상을 위해 칩이 형성되는 영역에 적용되어 윤활 및 냉각작용을 하는 절삭유(Soluble Cutting Fluids, SCF)가 이용되고 있다. 절삭유는 수용성 및 비수용성으로 나뉘는데 비수용성 절삭유의 경우 윤활성은 우수하나 경제성 및 발연, 발화등의 문제점이 있으며, 수용성 절삭유는 윤활성은 비교적 떨어지나 냉각성과 경제성이 우수하다는 장점이 있다. 또한 절삭유는 기능 향상을 위해 PAH, 방부제, 파라핀계 염소, 아질산염 등 20~30개의 첨가제가 사용된다. 이는 중추신경계 장애, 이비인후 자극, 피부염 발생 등을 일으킬 위험성이 크다고 알려져 있으며, 고농도의 유기성분 및 질소화합물로 인해 수계에 유출시 부영양화, 녹조현상 등과 같은 문제를 일으킬 수 있다. 따라서 본 연구에서는 전기화학적 처리를 통해 반응시간에 따른 폐수용성 절삭유의 COD 및 T-N의 제거율 변화를 분석하였다. 전기화학적 처리의 중요 인자인 전극은 비교적 가격이 저렴하고 용출량이 낮은 것으로 알려져 있는 SUS316전극을 이용하였으며 자세한 실험 조건을 Table 1에, 연구에 사용한 장치의 모식도를 Fig. 1에 나타내었다.

Soluble Cutting Fluids (SCFs) have been used in metal machining processes to improve the quality of metal processing equipment and products. Although SCFs are useful and essential material, wasted soluble cutting fluids are harmful in hydroecological systems because of the high concentration of COD and nitrogen material. If discharged to hydroecological systems without specific treatment, they may cause eutrophication in rivers and lakes. Therefore, the removal efficiency of the COD contained in the SCFs is investigated in this study using electrochemical treatment with an insoluble electrode. The electrode was made of titanium with iridium plating, made from a perforated metal sheet to agitate the sample in the reactor. Cathode and anode electrodes were inserted into acrylic reactor alternately and the reaction time was one hour. The experimental results were as follows: First, for 60 A/m2, 80 A/m2, and 100 A/m2 current densities, the COD removal efficiencies were 42.0%, 63.9%, and 78.4%, respectively.

The use of Soluble Cutting Fluids (SCF) is essential in the development of industrial technology. However, it is difficult to decompose biologically due to its high concentrations of organic substances and nitrogen compounds, which interfere with microbial growth. Recently, Advanced Oxidation Processes are being studied both domestically and internationally. Electrolysis is highly adaptable industrial wastewater treatment because it has high removal efficiency and short processing time, regardless of the contaminant’s biodegradable nature. Accordingly, this study shows the characteristics of total nitrogen removal in SCF on the operating time, current density, and electrolytes when using aluminum in a batch-type reactor. The results are as follows: ① Under the condition of without the electrolyte when the current density was adjusted to 40 A/m2, 60 A/m2, or 80 A/m2, the respective T-N removal efficiencies were 71.7%, 80.6%, and 87.2% at 60 min. ② In the comparison for the condition of whether NaCl was added, the removal efficiency of adding NaCl (5 ~ 10 mM) was higher than non-addition at 60 min for all current densities. ③ In the comparison for the condition of whether Na2SO4 (5 ~ 10 mM) was added, the removal efficiency when adding Na2SO4 showed no significant difference compared to non-addition at 60 min for all current densities.

Soluble cutting fluids (SCFs) have been used in metal machining processes to improve the quality of metal processing equipment and products in modern society. Because the characteristics among metal machining processes differ, various types of cutting fluids are manufactured to enhance the cutting efficiency of different metals. Although SCFs are useful and essential materials, particular treatment is required attributable to the high concentration of nitrogen materials and chemical oxygen demand (COD). In this study, the removal efficiency of total nitrogen (T-N) contained in SCFs was analyzed using electrochemical treatment. The electrode was made of 316 stainless steel, which had been perforated to prevent an imbalanced sample concentration in the reactor. Cathodic and anodic electrodes were alternately inserted into an acrylic reactor. The removal efficiency of T-N in SCFs using 40 A/m2, 60 A/m2, and 80 A/m2 current density, was 48.2%, 61.5% and 69.3%, respectively. The removal efficiency of T-N in SCFs with the addition of 0, 5 mM, and 10 mM NaCl was 69.3%, 74.6%, 77.6%, respectively.

Based on the results of the prior study, we conducted a study of the DRE (destruction and removal efficiency) and carbonization of xylene using high electron beam energies. The irradiation intensity of electron beam energy was 30 mA, and the irradiation times were 5.7, 11.4, 22.8, and 45.6 sec. The absorbed dose were 124.23, 248.46, 496.91, and 993.83 kGy. Xylene was completely removed at 248.46 kGy, and the main by-products were carbon particles. Carbon particle formation was increased with increased absorbed dos. The carbon particles were generated as fine particles with a size of 0.5 to 1.0 μm. The most common oby-products of these particle were carbon black and graphite.

국내 광공업 중 자동차 제조업, 금속가공제품 제조업 등 금속가공을 필요로 하는 사업체는 전체 광공업 사업체 163,822개 중 40%를 차지하고 있다. 산업혁명 이래 기계 산업은 빠르게 발전해왔으며 기계 산업이 발달한 현대사회에서 금속 가공 공정은 필수적이다. 이러한 금속 가공 과정에서 금속과 금속사이의 마찰을 줄이기 위한 윤활작용, 마찰로 인한 열팽창 및 변형을 막기 위한 냉각작용, 부식 방지를 위한 방청제 역할을 하는 것이 절삭유이다. 절삭유는 일반적으로 수용성과 비수용성으로 분류되며, 비수용성의 경우 작업 중 및 작업 후 발생하는 오일미스트로 인한 유독성 및 발화 위험 등의 문제가 제기됨에 따라 수용성 절삭유의 사용이 점차 증가하여, 국내 절삭유 사용량의 60% 이상을 수용성 절삭유가 차지하고 있다. 하지만 수용성 절삭유에는 아질산염, 방부제 등 20~30개의 화학물질이 포함되어 있다. 또한, 수용성 절삭유에 함유되어있는 질소계 물질들은 수생태계에 방류되면 부영양화 및 녹조 현상과 같은 문제를 일으킬 수 있으며, 수중에서 산화반응을 하여 아질산성 질소와 질산성 질소로 변화되면서 수계의 용존산소를 감소시켜 오염을 일으킬 수 있어 각별한 처리가 필요한 실정이다. 따라서 본 연구에서는 입상활성탄(Granular activated carbon)을 충진한 충진복극조를 이용해 전기화학적 처리를 통해 수용성 절삭유의 T-N 제거율을 분석하였다. 실험조건은 다음의 Table 1, 실험장치의 구성을 Fig. 1에 간단히 나타내었다.

Rapid industrial development has led to a serious problem of pollution in the industrial sector. With the increasing social need for environmental protection, research on air pollution prevention equipment for reducing pollutants in industrial processes is actively being undertaken. The deterioration of existent, installed facilities, their increased emission rates, and the strengthening of the effluent quality standards make complying with permissible emission standards difficult. In fact, installing new electric precipitators or complementing existent facilities is inevitable. The expansion and complementation of the installed electrical precipitators have led to improvements in dust collection efficiency, shorter working times, and lower costs. Because of its easy installation and simple manufacturing process, the production method with the discharge electrode of an electric precipitator is widely used. The following conclusions were reached by classifying discharge electrodes into four types based on the production method and mutually comparing them by their dust collection efficiency. None of the four types used in this study were damaged by impact. However, we were able to confirm some strain from the compression sites of both type A and type B. Both type B and type C are expected to have greater dust collection efficiencies than the other models due to their large vibration transmissibility. Moreover, the high vibrational energy is expected to cause rapping damage during its operation. Particularly, in the case of type B, some of the strain was found at the end of the compression site. The coupling schemes of both type C and type D are out of vibration transmissibility. On the other hand, the ability to maintain straightness and solidity of the side is regarded as outstanding and stable. Type D has outstanding on-site workability, considering the presence of locking, structural stability, and work conditions. From these experiments, we determined that type C is the most ideal connection method of discharge electrode, considering its construction period of renovation. Type C is inferior to type D with regard to on-site workability. However, type C has outstanding dedusting transmission with regard to the straightness, solidity maintenance, and vibration of shearing stress.