Liquid—liquid equilibria of the system water + acetic acid + methyl ethyl ketone at several temperatures

Abstract. Photochemical processes inside urban plumes in the Northeast of the United States have been studied using a highly detailed chemical model, based upon the Master Chemical Mechanism (MCM). The model results have been compared to measurements of oxygenated VOCs (acetone, methyl ethyl ketone, acetaldehyde, acetic acid and methanol) obtained during several flights of the NOAA WP-3D aircraft, which sampled plumes from the New York City area during the ICARTT campaign in 2004. The agreement between the model and the measurements was within 40–60 % for all species, except acetic acid. The model results have been used to study the formation and photochemical evolution of acetone, methyl ethyl ketone and acetaldehyde. Under the conditions encountered during the ICARTT campaign, acetone is produced from the oxidation of propane (24–28 %) and i-propanol (<15 %) and from a number of products of i-pentane oxidation. Methyl ethyl ketone (MEK) is mostly produced from the oxidation of n-butane (20–30 %) and 3-methylpentane (<40 %). Acetaldehyde is formed from several precursors, mostly small alkenes, >C5 alkanes, propanal and MEK. Ethane and ethanol oxidation account, respectively, for 6–23 % and 5–25 % of acetaldehyde photochemical formation. The results highlight the importance of alkanes for the photochemical production of ketones and the role of hydroperoxides in sustaining their formation far from the emission sources.

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{2-[1-(3-Methoxycarbonylmethyl-1H-indol-2-yl)-1-methyl-ethyl]-1H-indol-3-yl}-acetic Acid Methyl Ester Inhibited Hepatocellular Carcinoma Growth in Bel-7402 Cells and Its Resistant Variants by Activation of NOX4 and SIRT3

BioMed Research International ◽

10.1155/2015/491205 ◽

2015 ◽

Vol 2015 ◽

pp. 1-10

Author(s):

Ye Li ◽

Wenjing Wang ◽

Xiaoxue Xu ◽

Shiyue Sun ◽

Xiaoyu Xu ◽

...

Keyword(s):

Hepatocellular Carcinoma ◽

Acetic Acid ◽

Methyl Ester ◽

Acid Methyl Ester ◽

High Sensitivity ◽

Inhibitory Effect ◽

Methyl Ethyl ◽

Nadph Oxidase 4 ◽

Acid Methyl ◽

Cellular Reactive Oxygen Species

{2-[1-(3-Methoxycarbonylmethyl-1H-indol-2-yl)-1-methyl-ethyl]-1H-indol-3-yl}-acetic acid methyl ester (MIAM) is a novel indole compound, which possessed high efficacy against many cancers xenografted in mice without obvious toxicity. In this study, we aimed to investigate the effects of MIAM on human hepatocellular carcinoma (HCC) Bel-7402 cells and its resistant variants Bel-7402/5FU. MIAM inhibited the growth of HCC more potent in Bel-7402/5FU cells than its parent cells. MIAM increased cellular reactive oxygen species (ROS) levels, induced cell apoptosis, and arrested cell cycle in G0/G1phase. MIAM might exert its action on Bel-7402/5FU cells through activation of NADPH oxidase 4 (NOX4)/p22, Sirtuin3 (SIRT3)/SOD2, and SIRT3/p53/p21pathways. MIAM might inhibit HCC growth through the modulation of SIRT3. When SIRT3 was silenced, the inhibitory effect of MIAM on Bel-7402/5FU was lowered, showing the characteristic of resistance against MIAM, whereas Bel-7402/5FU cells with high expression of SIRT3 by SIRT3 adenovirus infection demonstrated the high sensitivity to MIAM. These results suggested that MIAM might exert its action against Bel-7402/5FU growth through upregulation of SIRT3. We suggested that MIAM might be a promising candidate compound which could develop as a potent anticancer agent targeting NOX4 and SIRT3 activation.

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Liquid-Liquid Equilibria of the Ternary Mixtures Water + Propanoic Acid + Methyl Ethyl Ketone and Water + Propanoic Acid + Methyl Propyl Ketone

Journal of Chemical & Engineering Data ◽

10.1021/je00017a047 ◽

1995 ◽

Vol 40 (1) ◽

pp. 225-229 ◽

Cited By ~ 65

Author(s):

Alberto Arce ◽

Antonio Blanco ◽

Pilar Souza ◽

Isabel Vidal

Keyword(s):

Methyl Ethyl Ketone ◽

Ternary Mixtures ◽

Propanoic Acid ◽

Methyl Ethyl ◽

Acid Methyl ◽

Propyl Ketone ◽

Methyl Propyl Ketone

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Photolytic degradation of chlorophenols from industrial wastewaters by organic oxidants peroxy acetic acid, para nitro benzoic acid and methyl ethyl ketone peroxide: identification of reaction products

Water Science & Technology ◽

10.2166/wst.2014.001 ◽

2014 ◽

Vol 69 (6) ◽

pp. 1259-1266

Author(s):

Swati Sharma ◽

Mausumi Mukhopadhyay ◽

Zagabathuni Venkata Panchakshari Murthy

Keyword(s):

Acetic Acid ◽

Benzoic Acid ◽

Methyl Ethyl Ketone ◽

Oxygen Demand ◽

Chloride Ion ◽

Methyl Ethyl Ketone Peroxide ◽

Methyl Ethyl ◽

Reaction Products ◽

Ion Release ◽

Photolytic Degradation

In this investigation, chlorophenol (CP) containing industrial wastewater was remediated by ultraviolet irradiation in conjunction with organic oxidants, peroxy acetic acid (PAA); para nitro benzoic acid (PNBA); and methyl ethyl ketone peroxide (MEKP). CP mineralization was studied with regard to chemical oxygen demand (COD) and chloride ion release under identical test conditions. COD depletion to the extent of 81% by PAA, 66% by PNBA, and 67% by MEKP was noted along with an upwardly mobile trend of chloride ion release upon irradiation of samples at 254 nm. A 90–99% decrease in CP concentration (as per high pressure liquid chromatography (HPLC) analysis) was achieved with an additional 15.0 ml of organic oxidant in all cases. Gas chromatography high resolution mass spectroscopy (GC-HRMS) results also indicated the formation of such reaction products as are free from chlorine substitutions. This treatment also leads to total decolorization of the collected samples.

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Analysis of System Water-Benzene-Methyl Ethyl Ketone by High Frequency Oscillator

Analytical Chemistry ◽

10.1021/ac60059a025 ◽

1951 ◽

Vol 23 (11) ◽

pp. 1625-1627 ◽

Cited By ~ 16

Author(s):

Philip West ◽

Thomas Robichaux ◽

T. S. Burkhalter

Keyword(s):

Methyl Ethyl Ketone ◽

High Frequency ◽

Methyl Ethyl ◽

High Frequency Oscillator ◽

Frequency Oscillator ◽

System Water

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Heats of vaporization of alkyl esters of formic, acetic and propionic acids

Collection of Czechoslovak Chemical Communications ◽

10.1135/cccc19803233 ◽

1980 ◽

Vol 45 (12) ◽

pp. 3233-3240 ◽

Cited By ~ 19

Author(s):

Václav Svoboda ◽

Věra Uchytilová ◽

Vladimír Majer ◽

Jiří Pick

Keyword(s):

Acetic Acid ◽

Formic Acid ◽

Propionic Acid ◽

Complete Data ◽

Methyl Ethyl ◽

Alkyl Esters ◽

Butyl Esters ◽

Acid Methyl ◽

Propyl Esters ◽

Heats Of Vaporization

Heats of vaporization of ethyl, propyl, butyl esters of formic acid, methyl, ethyl, propyl and butyl esters of acetic acid and methyl, ethyl and propyl esters of propionic acid were measured. These measurements reassume and complete data known from the literature. From the combination of values of heats of vaporization, the cohesive and vaporization internal energies of the set investigated were computed in the dependence on temperature.

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Liquid-liquid equilibria of the system water + acetic acid + methyl propyl ketone

The Canadian Journal of Chemical Engineering ◽

10.1002/cjce.5450660120 ◽

1988 ◽

Vol 66 (1) ◽

pp. 136-140 ◽

Cited By ~ 5

Author(s):

A. Bianco ◽

J. M. Correa ◽

A. Arce ◽

A. Correa

Keyword(s):

Acetic Acid ◽

Acid Methyl ◽

Propyl Ketone ◽

Methyl Propyl Ketone ◽

System Water

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Liquid—liquid equilibria for the system water + acetic acid + methyl isoamyl ketone

Fluid Phase Equilibria ◽

10.1016/0378-3812(82)80014-9 ◽

1982 ◽

Vol 9 (2) ◽

pp. 177-185 ◽

Cited By ~ 7

Author(s):

M.E. Soares ◽

A.G. Medina ◽

P.J. Bailes

Keyword(s):

Acetic Acid ◽

Acid Methyl ◽

System Water

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THE HYDROLYSIS OF ACETIC ANHYDRIDE IN WATER AND IN THE SYSTEM WATER: METHYL ETHYL KETONE

Canadian Journal of Research ◽

10.1139/cjr50b-080 ◽

1950 ◽

Vol 28b (11) ◽

pp. 663-670

Author(s):

E. N. Banks ◽

A. E. Marshall ◽

R. W. Vollett ◽

R. R. McLaughlin

Keyword(s):

Acetic Anhydride ◽

Methyl Ethyl Ketone ◽

Catalytic Effect ◽

Methyl Ethyl ◽

Initial Concentration ◽

Velocity Constant ◽

Rate Of Hydrolysis ◽

Hydrolysis Of ◽

Order Rate Equation ◽

System Water

The rate of hydrolysis of acetic anhydride at 25 °C. in water (I), in solutions of methyl ethyl ketone (MEK) in water (II), and in solutions of water in MEK (III) have been studied. In I the observation of previous investigators that the velocity constant varies linearly with the initial concentration of acetic anhydride, but for any given initial concentration of acetic anhydride the reaction is pseudomonomolecular, was confirmed and extended. In II the velocity constant is lower than in I and decreases linearly with increasing concentration of MEK, but, again, the reaction is pseudomonomolecular for any given initial concentration of acetic anhydride. An equation and a nomogram that relate the velocity constant to the initial concentration of acetic anhydride, MEK, and water are presented. In III the second-order rate equation must be modified to compensate for the presumed catalytic effect of the hydrogen ion produced by hydrolysis.

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