• Title/Summary/Keyword: alkaline hydrolysis

검색결과 247건 처리시간 0.031초

알칼리 $NaBH_4$ 용액의 수소발생특성에 미치는 Co-P 촉매의 영향 (Effects of Co-P Catalysts on Hydrogen Generation Properties from Alkaline $NaBH_4$ Solution)

  • 조근우;권혁상
    • 한국수소및신에너지학회논문집
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    • 제16권4호
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    • pp.379-385
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    • 2005
  • Effects of Co and Co-P catalysts on the hydrolysis of alkaline $NaBH_4$ solution were investigated. Co and Co-P catalysts were prepared on Cu substrate by electroplating. Hydrogen generation rate of Co-P catalyst was much faster than that of Co catalyst, demonstrating that Co-P had higher intrinsic catalytic activity for the hydrolysis of $NaBH_4$ than Co. Hydrogen generation properties of Co-P catalysts largely depended on cathodic current density and electroplating time because they influenced on the P concentration of the Co-P catalysts. Maximum hydrogen generation rate of Co-P catalyst was 1066 ml/min.g-catalyst in 1 wt.% NaOH + 10 wt.% $NaBH_4$ solution at $20^{\circ}C$, which was obtained at cathodic current density of $0.01\;A/cm^2$ for 130 s.

PAC 전처리 시 수소이온 농도에 따라 발생 가능한 알루미늄 종에 의한 나노여과막 성능 연구 (Effects of polymeric Al and hydrolysis products of PAC at different pH on performance of nanofiltration with PAC coagulation pretreatment)

  • 최양훈;권지향
    • 상하수도학회지
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    • 제24권1호
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    • pp.15-24
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    • 2010
  • Coagulation can be used for pretreatment of NF membrane filtration. Foulants such as organic matter and particulate can be removed effectively with the process while high flux recovery is maintained. Recently various types of polyaluminium coagulants including polyaluminium chloride(PAC) are commercially available for water treatment. This study examines effects of polymeric Al and hydrolysis products of PAC on nanofiltration membrane performance. Dominant hydrolysis products were polymeric Al, $Al(OH)_3$, and ${Al(OH)_4}^{-1}$ at acidic, neutral, and alkaline pH conditions, respectively. Under acidic pH condition, flux decline was increased with increasing PAC concentrations, possibly due to polymeric Al adsorption on membrane pore and/or surfaces. For neutral and alkaline pH conditions, little flux decline was observed with increasing PAC concentrations except the highest ${Al(OH)_4}^{-1}$ concentration, with which rapid flux decline was shown. Removal of ionic matters was also varied with pH conditions in this study. Especially, conductivity removal was substantially low and $Ca^{2+}$ concentration in the permeate was quite high at neutral pH condition.

X-Ray Diffraction Studies of Uranyl Hydrolysis Precipitates Synthesized in Neutral to Alkaline Aqueous Solutions

  • 박용준;표형렬;김원호;전관식
    • Bulletin of the Korean Chemical Society
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    • 제17권10호
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    • pp.925-929
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    • 1996
  • Uranyl hydrolysis precipitates were obtained by increasing pH value of aqueous uranyl solution in the range of neutral to alkaline pH value and their phase transformation during the solubility experiment under various conditions has been examined. The precipitates formed in the hydrolysis reaction of uranyl ion had a layered structure such as a meta-schoepite phase, a schoepite structure, or a mixed phase of meta-schoepite and schoepite. Phase transformation between them was strongly dependent on the pH value at which the precipitate was formed. The distance between the layers in meta-schoepite or schoepite phase was ∼7.35 Å, and it was increased with the pH value at which the precipitate was synthesized as well as the pH values of the aqueous solution. The phase transformation from a meta-schoepite to schoepite was fast for the precipitates formed at low pH values, however, it was not the case for the precipitates formed at high pH values. A small difference of pH value in aqueous solution gave a great change on its solubilities near pH 9.7, because a layered structure of the precipitates became amorphous above that pH value. Greater solubility for the precipitate formed at higher pH value can be explained from the fact that the precipitates formed at low pH value had a better crystallinity and also that the precipitates formed at higher pH value has a slower rate of crystallization.

$TiO_2$로 소광가공된 폴리에스테르 직물의 알칼리 유연가공에 관한 연구 (Alkaline Softening of $TiO_2$ Delustered Polyester Fabrics)

  • 이정순
    • 한국의류학회지
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    • 제20권1호
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    • pp.157-169
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    • 1996
  • Polyester yarns and fabrics containing three levels of $TiO_2$ delusterant were hydrolyzed with NaOH and examined for physical and morphological changes. The mechanical propertis and hand values of alkaline hydrolyzed polyester fabrics were measured using KES-FB system. Also, the relationship between the morphology and the mechanical property of alkaline hydrolyzed polyester fabrics was analyzed. The results are as follows: 1. At an initial stage of alkaline treatment, the concentration of $TiO_2$ did not affect the weight loss of the treated yarns. But by increasing treatment time, the effect of the concentration of $TiO_2$ on the weight loss of the fiber became more pronounced. The weight loss were increased in the following order; fulldull> semidull> clear 2. The effect of hydrolysis on yarn tensile strength seems to be more related to the size of the pits on the fibers rather than the number of pits. 3. Axially oriented pits occurred along the hydroyzed, delustered fiber surfaces, while such pitting was absent on hydrolyzed fiber containing no $TiO_2$. The number of voids across the surface of a fiber increased with an increase in the amount of TiOa incorporated into the fibers. The size of the voids depended on the treatment time of hydrolysis rather than the concentration of TiOa. 4. The mechanical properties and hand values of polyester fabrics were changed by alkaline treatment but were identical regardless of the concentration of TiOa. While the mechanical properties of polyester fabrics depended on the structural change of the fibers and the yarns within the fabrics as the fiber diameter became progressively smaller rather than the size and number of pits.

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황산화 단백질의 알칼리 가수분해에 의한 쥐 뇌의 단백질 황산기전달효소의 추가특성 연구 (Further Characterization of Protein Sulfotransferase(s) of Rat Brain by Alkaline Hydrolysis of Sulfated Proteins)

  • 유재욱;최명언
    • 한국동물학회지
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    • 제33권4호
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    • pp.468-475
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    • 1990
  • 개선된 방법인 알칼리 가수분해와 얇은 층 cellulose전기 영동 (TLE)으로 in vitro 조건에서 쥐 뇌의 용해부분에서의 단백질 황산화의 특성을 추가로 조사하였다. 단백질 황산화는 방사능을 띤 [35 S] 3'-phosphoadenosine-5'-phosphosulfate (PAPS),Tris-maleate buffer (pH 8), MgCI$_2$, 그리고 쥐 뇌의 용해 단백질이 포함된 반응체 내에서 실행되었다. 황산화된 단백질들은 acetone에 의해 침전된 후 황산화된 아미노산을 얻기위해 알칼리 가수분해를 하였다. 더나아가 그 가수분해물을 TLE로 분리하고 황산화된 잔기들을 fluorography를 통해 확인하였다. 일차원 TLE의 fluorography에서는 tryosine-O-sulfate를 포함한 적어도 9개의 황산된 잔기들이 나타났다. tryosine-O-sulfate를 제외한 다른 잔기들은 아직 분명하게 밝혀지지 않고 있다. 이런 방법으로 단백질 황산기전달효소(PST)의 일반적 성질들 즉, PAPS농도, pH,반응온도,그리고 $Mg^2$+등의 효과를 재조사하였다. 이런 결고들은 쥐 뇌에서 각황산화된 잔기들에 해당하는 여러개의 PST의 존재가 가능하며 단백질 황산화가 tryosine뿐만 아니라 다른 잔기들에서도 일어날 수 있음을 암시한다.

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Alkaline Hydrolysis of Y-Substituted Phenyl Phenyl Thionocarbonates: Effect of Changing Electrophilic Center from C=O to C=S on Reactivity and Mechanism

  • Kim, Song-I;Park, Hey-Ran;Um, Ik-Hwan
    • Bulletin of the Korean Chemical Society
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    • 제32권1호
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    • pp.179-182
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    • 2011
  • Second-order rate constants ($k_{OH^-}$) have been measured spectrophotometrically for reactions of Y-substituted phenyl phenyl thionocarbonates (4a-i) with $OH^-$ in 80 mol % $H_2O$/20 mol % DMSO at $25.0{\pm}0.1^{\circ}C$. The $k_{OH^-}$ values for the reactions of 4a-i have been compared with those reported previously for the corresponding reactions of Y-substituted phenyl phenyl carbonates (3a-i) to investigate the effect of changing the electrophilic center from C=O to C=S on reactivity and mechanism. Thionocarbonates 4a-i are less reactive than the corresponding carbonates 3a-i although 4a-i are expected to be more reactive than 3a-i. The Bronsted-type plot for reactions of 4a-i is linear with $\beta_{lg}$ = -0.33, a typical $\beta_{lg}$ value for reactions reported to proceed through a stepwise mechanism with formation of an intermediate being the rate-determining step (RDS). Furthermore, the Hammett plot correlated with $\sigma^o$ constants results in much better linearity than that correlated with $\sigma^-$ constants, indicating that expulsion of the leaving group is not advanced in the RDS. Thus, alkaline hydrolysis of 4a-i has been concluded to proceed through a stepwise mechanism with formation of an intermediate being RDS, which is in contrast to the forced concerted mechanism reported for the corresponding reactions of 3a-i. Enhanced stability of the intermediate upon modification of the electrophilic center from C=O to C=S has been concluded to be responsible for the contrasting mechanisms.

Alkaline Peroxide Pretreatment of Waste Lignocellulosic Sawdust for Total Reducing Sugars

  • Satish Kumar Singh;Sweety Verma;Ishan Gulati;Suman Gahlyan;Ankur Gaur;Sanjeev Maken
    • Korean Chemical Engineering Research
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    • 제61권3호
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    • pp.412-418
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    • 2023
  • The surge in the oil prices, increasing global population, climate change, and waste management problems are the major issues which have led to the development of biofuels from lignocellulosic wastes. Cellulosic or second generation (2G) bioethanol is produced from lignocellulosic biomass via pretreatment, hydrolysis, and fermentation. Pretreatment of lignocellulose is of considerable interest due to its influence on the technical, economic and environmental sustainability of cellulosic ethanol production. In this study, furniture waste sawdust was subjected to alkaline peroxide (H2O2) for the production of reducing sugars. Sawdust was pretreated at different concentrations from 1-3% H2O2 (v/v) loadings at a pH of 11.5 for a residence time of 15-240 min at 50, 75 and 90 ℃. Optimum pretreatment conditions, such as time of reaction, operating temperature, and concentration of H2O2, were varied and evaluated on the basis of the amount of total reducing sugars produced. It was found that the changes in the amount of lignin directly affected the yield of reducing sugars. A maximum of 50% reduction in the lignin composition was obtained, which yielded a maximum of 75.3% total reducing sugars yield and 3.76 g/L of glucose. At optimum pretreatment conditions of 2% H2O2 loading at 75 ℃ for 150 min, 3.46 g/L glucose concentration with a 69.26% total reducing sugars yield was obtained after 48 hr. of the hydrolysis process. Pretreatment resulted in lowering of crystallinity and distortion of the sawdust after the pretreatment, which was further confirmed by XRD and SEM results.