Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

Hydrogen sulfide elimination

Propanophthalazine 200 was synthesized by a novel cycloaddition pathway. This synthesis was thought to proceed by a Diels-Alder reaction of the thiophene subunit of 197 to form intermediates 198 and 199, with the loss of ammonia, and not hydrogen sulfide elimination. Unfortunately, no yields were given <00JCR(S)20>. [Pg.282]

Purification of refinery gases by elimination of hydrogen sulfide as well as Claus units for sulfur recovery began to make their appearance. [Pg.406]

Electron-deficient alkenes add stereospecifically to 4-hydroxy-THISs with formation of endo-cycloadducts. Only with methylvinyl-ketone considerable amounts of the exo isomer are produced (Scheme 8) (16). The adducts (6) may extrude hydrogen sulfide on heating with methoxide producing 2-pyridones. The base is unnecessary with fumaronitrile adducts. The alternative elimination of isocyanate Or sulfur may be controlled using 7 as the dipolarenOphile. The cycloaddition produces two products, 8a (R = H, R = COOMe) and 8b (R = COOMe, R =H) (Scheme 9) (17). Pyrolysis of 8b leads to extrusion of furan and isocyanate to give a thiophene. The alternative S-elimi-nation can be effected by oxidation of the adduct and subsequent pyrolysis. [Pg.5]

Compounds such as hydrogen sulfide and cyanides are the most common metal surface poisoners occurring in process units subject to aqueous-phase hydrogen attack. In many process units, these compounds can be effectively eliminated and hydrogen diffusion stopped by adding ammonium polysulfides and oxygen to the process streams which converts the compounds to polysulfides and thiocyanates, provided the pH is kept on the alkaline side. [Pg.258]

Cyanamidopyrimidine (15) was converted to the thioureido derivative 16 by reaction with hydrogen sulfide and ammonium hydroxide and then cyclrzed to 18 with hydrazine hydrate. Cyclization to 18 presumably took place by elimination of a molecule of ammonia from the aminoguanidine intermediate 17 (65JCS3357) (Scheme 11). [Pg.348]

Salts of dithiocarbamic acid can be prepared by the addition of primary or secondary amines to carbon disulfide. This reaction is similar to 16-9. Hydrogen sulfide can be eliminated from the product, directly or indirectly, to give isothiocyanates (RNCS). Isothiocyanates can be obtained directly by the reaction of primary amines and CS2 in pyridine in the presence of DCC. ° In the presence of diphenyl phosphite and pyridine, primary amines add to CO2 and to CS2 to give, respectively, symmetrically substituted ureas and thioureas ... [Pg.1192]

For presulfided Co.Mo/Si02-Al203, the formation and elimination of the add sites were almost the same as those observed for non-sulfided Ck>.Mo/Si02-Al203. Presufidation with hydrogen sulfide did not affect much the conversion of the acid sites caused by gas phase hydrogen. [Pg.527]

As discussed in Section 7.4.2.5, the reduction of tetrazolium salts to formazans often results in further reduction products. As seen in Scheme 24, reduction of formazans with ammonium sulfide leads to the hydrazidine 161. The reduction can proceed further eliminating an arylamine, yielding an amidrazone, e.g., 162.364 By contrast, alcoholic hydrogen sulfide attacks... [Pg.267]

This new method can eliminate the potential hazard of excess sulfide in the effluent and the formation of gaseous hydrogen sulfide. In operation, the FeS is added to wastewater to supply sufficient sulfide ions to precipitate metal sulfides that have lower solubilities than FeS. Typical reactions include the following51-62 ... [Pg.245]

Hydrogen sulfide gas interfered in the determination of antimony since, after the addition of hydrogen sulfide, a peak comes a few seconds after the antimony peak. It was found that either degassing the sample for 300 s or placing lead acetate in the line eliminated the problem without interfering with the antimony determination. [Pg.137]

Reaction of carbon with sulfur dioxide was observed by Fischer and Prauschke (131). In my laboratory it was recently found that sulfur is bound by heat-treated carbon blacks and by graphitized carbon black on treatment with hydrogen sulfide, carbon disulfide, or sulfur dioxide at low temperatures, even at room temperature. The sulfur content cannot be eliminated by outgassing at 100° or by prolonged extraction with various solvents. [Pg.213]

This pyridoxal-phosphate-dependent enzyme [EC 4.2.99.9], also known as cystathionine y-synthase, catalyzes the reaction of O-succinyl-L-homoserine with L-cysteine to produce cystathionine and succinate. The enzyme can also use hydrogen sulfide and methanethiol as substrates, producing homocysteine and methionine, respectively. In the absence of a thiol, the enzyme can also catalyze a /3,y-elimination reaction to form 2-oxobu-tanoate, succinate, and ammonia. [Pg.665]

Elimination of hydrogen sulfide and carbon dioxide with aqueous mono- or diethanolamine. [Pg.116]

D-Lyxose diacetamide. Ammonia-silver oxide.y Ten grams of pentaaoetyl-n-galactononitrile was dissolved in 30 ml. of ethanol, and a solution of silver oxide (from 5 g. of silver nitrate) in 50 ml. of 30 % ammonia added. After two days at room temperature, the precipitated silver cyanide was removed by filtration and the solution evaporated in vacuo at 40° imtil all ammonia was eliminated. The residue was diluted with water and the soluble silver eliminated by treatment with hydrogen sulfide and filtration. The filtrate was treated with decolorizing carbon, filtered and evaporated to dryness. When the residue crystallized, it was suspended in warm ethanol and filtered yield, 2.5 g. (40%). After recrystallization from 60% ethanol, the product had a melting point of 230-231°. [Pg.141]

The most effective synthesis for thietanones is the eliminative cyclization of halogenated ketones with hydrogen sulfide ions in the presence of bases (Eq. lOb). The reaction of 1,3-dibromoketone derivatives with sodium hydrogen sulfide produced 3-thietanones in association with a five-membered cyclic disulfide (Eq. 10c). [Pg.227]

Dimethylbisthiomalonic acid (120), when treated with an acylated enol, produced intermediate 121 thietanediones 122 and 123 then were formed by elimination of thioketone and acetic acid (see Eq. 12). Similarly, cyclobutane-l,l-bisthiolcarboxylic acid gave 123, a previously unknown sulfur analog of malonic anhydride, (Eq. 12). Thermolysis of 120 also results in the formation of the four-membered heterocycles in addition to carbonyl sulfide, hydrogen sulfide, and thiocarbonic acid. ... [Pg.228]

Studied by trapping the intermediates with silylating agents. The chlorination of 3,3-methylchloro-2-thietanone at — 20°C leads to the acyclic structure 210 from which the five-membered heterocycle 211 can be formed after treatment with hydrogen sulfide and cyclocondensation of the resulting thiole by elimination of HCl. Expulsion of CI2 leads to (212) (Eq. 52). [Pg.249]

See other pages where Hydrogen sulfide elimination is mentioned: [Pg.749]    [Pg.111]    [Pg.95]    [Pg.612]    [Pg.57]    [Pg.946]    [Pg.749]    [Pg.111]    [Pg.95]    [Pg.612]    [Pg.57]    [Pg.946]    [Pg.481]    [Pg.528]    [Pg.365]    [Pg.271]    [Pg.117]    [Pg.30]    [Pg.152]    [Pg.85]    [Pg.129]    [Pg.132]    [Pg.67]    [Pg.494]    [Pg.225]    [Pg.130]    [Pg.163]    [Pg.226]    [Pg.132]    [Pg.752]    [Pg.413]    [Pg.182]    [Pg.301]    [Pg.551]    [Pg.1477]    [Pg.144]    [Pg.246]    [Pg.890]    [Pg.621]   
See also in sourсe #XX -- [ Pg.16 ]



SEARCH



Elimination sulfides

Hydrogen elimination

Hydrogenation Hydrogen elimination

© 2024 chempedia.info