• 상하수도학회지
• /
• 제20권4호
• /
• pp.487-498
• /
• 2006

The oxidation processes of metal catalysis were practically applied into the flexographic inks wastewater treatment to derive the most effective and economical system among all the processes of iron-salts coagulation, iron-catalyzed air oxidation, and coagulation followed by biological treatment. The iron concentration and pH were optimized as $2.8{\times}10^{-3}mol$ and 5.5~6.0, respectively, for all the oxidation processes. At the optimal reaction conditions, the removal efficiencies of $TCOD_{Mn}$ and Color were as follows for the respective process: i) 75% $TCOD_{Mn}$ and 77% Color removals for iron-salts coagulation, ii) 91% TCODMn and 90% Color removals for iron-catalyzed air oxidation, iii) 74~92% $TCOD_{Mn}$ and 81~90% Color removals for coagulation followed by biological treatment. Based on the economical and technological aspects, iron-catalyzed air oxidation was confirmed as the most effective process in the treatment of industrial wastewater.

• 상하수도학회지
• /
• 제20권4호
• /
• pp.559-571
• /
• 2006

The overall objective of this research was to find out the interrelation of coagulant and organic matter during rapid mixing process and to identify the change of organic matter by mixing condition and to evaluate the effect of coagulation pH. During the coagulation, substantial changes in dissolved organics must be occurred by coagulation due to the simultaneous formation of microflocs and NOM precipitates. Increase in the organic removal efficiency should be mainly caused by the removal of microflocs formed during coagulant injection. That is, during the mixing period, substantial amount of dissolved organics were transformed into microflocs due to the simultaneous formation of microflocs and NOM precipitates. The results also showed that 40 to 80% of dissolved organic matter was converted into particulate material after rapid mixing process of coagulation. During the rapid mixing period, for purewater, formation of dissolved Al(III) (monomer and polymer) constant by rapid mixing condition, but for raw water, the species of Al hydrolysis showed different result. During the rapid mixing period, for high coagulant dose, Al-ferron reaction increases rapidly. At A/D(Adsorption and Destabilization) and sweep condition, both $Al(OH)_3(s)$ and dissolved Al(III) (monomer and polymer) exist, concurrent reactions by both mechanism appear to cause simultaneous precipitation.

• 한국식품영양학회지
• /
• 제3권2호
• /
• pp.207-210
• /
• 1990

Paper chromatography and (NH4)2SO4 precipitation method were used for refinement and separation of proteins Color reaction was tested by Biuret test, Million test, Xanthoprotein test, and Ninhydrin test. Precipitation reaction and coagulation of proteins were tested by heating method (Ethanol, HNO3).

• 한국환경과학회지
• /
• 제5권2호
• /
• pp.203-210
• /
• 1996

To improve coagulation characteristics and to reduce dossage of chemicals in watertreatment, polyaluminium sulfate was manufactured by reaction of polymerization between aluminium sulfate and sodium aluminate. As the results of affirmation and performance test, the yield of product was about 24% from molecular cut on levels by ultrafilteration method. The type of molecular is nearly affirmated as a kind of complex like AIm(OH)n(3m-n)+ from Scanning Electron Microscopy (S.E.M.) and X-ray diffraction test. Since the synthesized polymer was supposed to be quasi, further study for stabilization was required.

• Animal cells and systems
• /
• 제7권3호
• /
• pp.255-259
• /
• 2003

Mutations in the factor Ⅴ gene are major risk markers for venous thrombosis. Several factors for blood coagulation have been related with cardiovascular disease. Ⅰ investigated genotype distribution for three mutations (G1691 A, A2379G and G2391 A) of the factor Ⅴ gene in the Korean population. Genotype frequencies were examined by polymerase chain reaction in 135 patients with coronary artery disease (CAD) and 116 healthy subjects. For the G1691A mutation (factor Ⅴ

• 한국환경보건학회지
• /
• 제30권1호
• /
• pp.59-64
• /
• 2004

This study was carried out to investigate influencing factors of bisphenol A(BPA) removal characteristic in conventional water treatment systems to be connected with coagulation, sedimentation, filtration and disinfection. The result are summarized as follows; In BPA removal, optimal doses of PAC, alum, ferric chloride were 7.5 mg Al/L, 10.0 mg AI/L, 15.0 mg Fek. PAC was most effective coagulant to remove BPA. In coagulation process, BPA removal efficiency were increased about 2％ by adjusting pH of raw water as 6. At temperature rise 1$0^{\circ}C$, BPA removal efficiency were increased 0.94％. but BPA removal efficiency in sand filtration process were under 1 ％ie, so that BPA was almost not removed. At free chlorine dose 1, 2 mg/L, the reaction rate constant k in the BPA removal have been calculated to be 0.397, 0.953 min$^{-1}$ . At free chlorine dose 1, 2 mg/1-, degradation reaction of BPA was completed during 10 min and BFA removal efficiencies were 97.66, 99.99％ at this time.

• 한국산업융합학회 논문집
• /
• 제9권2호
• /
• pp.111-116
• /
• 2006

This study provides the optimal conditions treating with the coagulation process and the other chemical treatment processes for dyeing wastewater, especially various dyeing complex wastewater. The results are shown as follows: 1. Optimum reaction condition of pH for ferrous sulfate was the range of 9 to 12. And when 3,000ppm(mg/l) of ferrous sulfate was dosed, the maximum $COD_{Mn}$ removal rate was approximately 40%. 2. In case of ferrous chloride and Bittern as coagulants, optimum pH range was 10 to 11. And maximum $COD_{Mn}$ removal rate was approximately 46% to 50% for dose of 2,000ppm(mg/l) to 6,000 ppm. 3. It is confirmed that the activated sludge process following coagulation precipitation method provides better treatment efficiency than the coagulation precipitation method following the activated sludge process. 4. The purpose of this study was to produce CGF (Cyanoguanidineformaldehyde resin) by organic compounds. 5. The complex coagulation agent by this study is the most economical coagulant with Alum(aluminum sulfate) and the removal efficiency is approximately 54% with 1,000ppm(mg/l) of pH range 6 to 7.

• 한국물환경학회지
• /
• 제31권2호
• /
• pp.94-102
• /
• 2015

Electro-coagulation experiments were conducted with aluminum (Al) or iron (Fe) electrode in order to determine the optimal electrode material and operation conditions for algae removal. Al electrode showed higher removal rate of algae than Fe electrode because Al flocs have positive surface charges which electrostatically attract algae species having negative surface charges. Removal rate of algae and total phosphorous (T-P) was increased as current density and electrode area increases. It was also found that initial pH with neutral range was optimum for T-P removal by electro-coagulation. Bench-scale continuous flow experiments consisted of electro-coagulation reactor, agitation tank and settling tank were conducted. In electro-coagulation reactor, a large fraction of Al flocs were distributed to scum layer, due to the gas bubbles generated by electrolysis reaction. In agitation tank, most of Al flocs were settled and the optimal mixing intensity was found to be 50 rpm to achieve good settleability. The removal rate of algae was about 90-95%. Additionally, the removal rate of the T-P and COD was observed to be $73.8{\pm}8.0%$ and $75.0{\pm}3.8%$, respectively. Meanwhile, the removal rate of total nitrogen (T-N) was relatively low at only 24%.

• 한국수산과학회지
• /
• 제33권5호
• /
• pp.448-454
• /
• 2000

IOSP를 이용하여 적조생물입자에 대한 응집실험을 한 결과는 다음과 같다. 본 실험에 사용한 IOSP의 평균 지름은 $11.6{\mu}m$이고, 약$ 77{\%}$의 입자가 $5.0{\~}20.0{\mu}$의 범위에 속하며 변동계수는 $60.1{\%}$이었다. IOSP의 금속성분을 분석한 결과는 $98{\%}$가 칼슘으로서 생석회(CaO)와 같은 성분이었다. IOSP의 전자현미경 사진을 분석한 결과 표면이 매끈한 부정형의 입자로 되어 있었다. IOSP에 해수를 첨가하면 해수중의 $Mg^(+2)$ 이온과 급속하게 반응하여 입자의 표면 주위에 점질성의 $Mg(OH)_2$ 흡수층 (absorption layer)을 형성하여 응집 침전하고 해수의 pH를 10.0 정도까지 상승시켰다. IOSP는 $pH=6.2{\~}12.7$에서 $11.1{\~}50.1 mV$로서 IOSP의 입자가 완전히 용해될 때까지 positive zeta potential을 나타낸 반면 OSP는 pH=9.2, 11.9에서 각각 -42.5, -56.9mV로서 negative zeta potential을 나타내었다. $pNa=2.0{\~}4.0 (10^(-4){\~}10^(-2)M Na^+)$에서 IOSP, OSP의 zeta potential은 거의 일정한 값을 나타내었으나 $pNa=0.0 (1 M Na^+)$에서는 IOSP의 EDL이 매우 크게 압축되어 zeta potential은 거의 0.0mV를 나타내었고 OSP는 -25.4mV의 여전히 높은 negative zeta potential을 나타내었다. IOSP는 $Mg^(+2)$ 이온의 농도가 증가함에 따라 positive zeta potential이 증가하다가 $pMg=3.0 (10^(-3)M Mg^(+2))$에서 감소하는 결과를 나타내었다. 해수 중에서 IOSP는 4.8mV의 positive zeta potential을 나타내었고, OSP와 RTO는 각각 -30.7mV, -9.2mV의 negative zeta potential을 나타내었다. 해수중에서 IOSP의 $Mg(OH)_2$ 흡수층과 적조생물입자 사이에는 positive-negative EDL 반응이 일어나서 이들 둘 사이에는 항상 전기동력학적 인력이 작용하고, 동시에 $Mg(OH)_2$ 흡수층에 의한 전하중화로 인하여 입자 상호간의 응집반응은 극단적 인력이 작용하는 primary minimum에서 일어나고, DLVO 이론에 따라 응집반응은 비가역적아며 매우 신속하게 일어났다. 적조생물입자의 응집제거 효율은 IOSP의 농도 50mg/l까지 급격한 증가를 보이다가 IOSP의 농도가 계속 증가함에 따라서 점점 완만한 증가를 나타내었다. 즉 IOSP의 농도가 증가함에 따라서 지수함수적으로 증가하였다 ($Y=53.81{\times}X^(0.1); R^2=0.9868$).응집 침전은 IOSP 400mg/l 이상에서 거의 완전히 일어났다. IOSP $100mg/l$을 사용하고 G-value를 $1, 6, 29, 139 sec^(-1)$로 단계적으로 증가시키면서 응집 실험을 한 결과 적조생물입자의 응집제거 효율이 각각 $70.5, 70.5, 81.7, 85.3{\%}$로 증가하였다. 이는 응집 반응에서 입자간 충분한 충돌이 일어날 수 있도록 교반하는 것이 매우 중요함을 나타내 주는 것이다.

• 한국축산식품학회지
• /
• 제26권3호
• /
• pp.368-374
• /
• 2006

We have studied on characterization and cheese making like mineral contents, protein composition and coagulation pattern on equine milk. At first, for contents of mineral on equine milk, It was lower in equine than bovine milk Contents of Na, Mg, P, Ca and K the major minerals, were indicated as 18.3 mg, 0.4 mg, 33.3 mg, 80.9 mg and 134.9 mg respectively by 100 g. In the distribution of nitrogen, the ratio NPN to Nt was indicated as 9.8% while that of bovine milk was 7%. And In NCN, its percentage was indicated as 45.6% shelving that Equine casein was lower than bovine. From these results, equine milk could not be applicable to cheese production since there are no coagulable nitrogen fraction such as ${\kappa}$-casein, as there aye with bovine milk. Equine milk will be more acceptable if we accept that the phylogenic affinity is near to human. It is the same as equine from the view points that monogastric, which did not contain ruminant's casein. For the rennet coagulation, equine milk was different than bovine milk. Equine milk did not coagulated by rennet after the addition of $Ca^{2+}$. But when bovine ${\kappa}$-casein was added in the presece of rennet, and $Ca^{2+}$ to equine milk, coagulation occurred. Such phenomenon was also observed by the use SEM. Verification of ${\kappa}$-casein by SDS-PACE did not existed in equine milk. The Casein of equine milk(54.4%) is similar to human milk in that casein/whey is about 1. For equine milt this can be explained because distance between casein and Ca is great, casein being lower, which result in reaction of casein with $Ca^{2+}$ because it could not activated which lasting time of coagulation is too long.