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Forcing conditions

Different types of other coal liquefaction processes have been also developed to convert coals to liqnid hydrocarbon fnels. These include high-temperature solvent extraction processes in which no catalyst is added. The solvent is usually a hydroaromatic hydrogen donor, whereas molecnlar hydrogen is added as a secondary source of hydrogen. Similar but catalytic liquefaction processes use zinc chloride and other catalysts, usually under forceful conditions (375-425°C, 100-200 atm). In our own research, superacidic HF-BFo-induced hydroliquefaction of coals, which involves depolymerization-ionic hydrogenation, was found to be highly effective at relatively modest temperatnres (150-170°C). [Pg.132]

No nitration of thiazole occurs with the classical nitration reagents, even in forcing conditions (341-343). In a study concerning the correlation between the ability of thiazole derivatives to be nitrated and the HNMR chemical shifts of their hydrogen atoms, Dou (239) suggested that only those thiazoles that present chemical shifts lower than 476 Hz can be nitrated. From the lowest field signal of thiazole appearing at 497 Hz one can infer that its nitration is quite unlikely. Thiazole sulfonation occurs... [Pg.99]

Nitration. Nitration of ben2otrifluorides is an important industrial reaction. Mononitration of ben2otrifluoride gives pronounced meta-orientation 91% meta [98-46-4]-, 6% ortho [384-22-5]-, and 3% para [402-54-0] (296). Further nitration to 3,5-dinitroben2otrifluoride [401-99-0] can be affected under forcing conditions at 100°C. [Pg.329]

Ruthenium. Ruthenium, as a hydroformylation catalyst (14), has an activity signiftcandy lower than that of rhodium and even cobalt (22). Monomeric mthenium carbonyl triphenylphosphine species (23) yield only modest normal to branched regioselectivities under relatively forcing conditions. For example, after 22 hours at 120°C, 10 MPa (1450 psi) of carbon monoxide and hydrogen, biscarbonyltristriphenylphosphine mthenium [61647-76-5] ... [Pg.470]

Preparation of Uranium Metal. Uranium is a highly electropositive element, and extremely difficult to reduce. As such, elemental uranium caimot be prepared by reduction with hydrogen. Instead, uranium metal must be prepared using a number of rather forcing conditions. Uranium metal can be prepared by reduction of uranium oxides (UO2 [1344-59-8] or UO [1344-58-7] with strongly electropositive elements (Ca, Mg, Na), reduction of uranium halides (UCl [10025-93-1], UCl [10026-10-5] UF [10049-14-6] with electropositive metals (Li, Na, Mg, Ca, Ba), electro deposition from molten... [Pg.320]

Cinnamic acid undergoes reactions that are typical of an aromatic carboxyhc acid. Using standard methodology, simple esters are easily prepared and salts are formed upon neutrali2ation with the appropriate base. Hydrogenation of cinnamic acid under mild conditions leads to 3-phenylpropanoic acid [501-52-0] whereas under forcing conditions, such as under high pressure in presence of a nickel catalyst, complete saturation to 3-cyclohexylpropanoic acid [701-97-3] is readily accompHshed (8). [Pg.173]

Under more forcing conditions with acid anhydrides, EDA can form tetraacyl derivatives (29). However, much milder conditions or less active acylating agents are needed to obtain the monoamide essentially free of the diamide (30—32). [Pg.42]

Electrophilic substitution reactions of unsubstituted quinoxaline or phenazine are unusual however, in view of the increased resonance possibilities in the transition states leading to the products one would predict that electrophilic substitution should be more facile than with pyrazine itself (c/. the relationship between pyridine and quinoline). In the case of quinoxaline, electron localization calculations (57JCS2521) indicate the highest electron density at positions 5 and 8 and substitution would be expected to occur at these positions. Nitration is only effected under forcing conditions, e.g. with concentrated nitric acid and oleum at 90 °C for 24 hours a 1.5% yield of 5-nitroquinoxaline (19) is obtained. The major product is 5,6-dinitroquinoxaline (20), formed in 24% yield. [Pg.163]

Substitution of the pyrazine ring by electron releasing substituents reduces the reactivity of halopyrazines and more forcing conditions must invariably be employed to bring about displacement of the halogen. [Pg.166]

In forcing conditions with excess of reagents the 5,8-bis derivative was obtained in the above cases, with hydrazine and with sulfur nucleophiles. Other authors have also observed selective reactions in the pyrido[2,3-[Pg.242]

Benzo[c]furan, generated in situ in boiling xylene in the presence of dimethylmaleic anhydride, gives mainly the exo adduct furan itself fails to react with this dienophile (Scheme 53) (82JOC4011. l,3-Diphenylbenzo[c]furan is also a reactive diene but the corresponding 1,3-dimesityl derivative is inert to several dienophiles, even under forcing conditions (82CC766). [Pg.67]

Substituted 1,2,3,4-thiatriazoles (93) are alkylated only under very forcing conditions with triethyloxonium fluoroborate, but then give the expected products (94) (75JOC431). [Pg.53]

In contrast, substituents in 1,2,4-triazoles are usually rather similar in reactivity to those in benzene although nucleophilic substitution of halogen is somewhat easier, forcing conditions are required. [Pg.83]

Nitration of 3-ethyI-l,2-benzisoxazoIe 2-oxide (57) and reduction under forcing conditions with triethyl phosphite gave 6-nitro-l,2-benzisoxazoIe. In contrast, nitration of 2-ethyI-1,2-benzisoxazole gave 5-nitro substitution (Scheme 23) (80CC421). [Pg.23]

Ring enlargement of A-acyl compounds, generally observed with oxaziridines, is observed only occasionally with diaziridines. Under more forced conditions of acylation with acetic anhydride, oxadiazolines like (139) were obtained (76MIP50800). A 4-nitrobenzoyl derivative rearranged at room temperature (76JOC3229). [Pg.214]

The bulky triphenylmethyl group has been used to protect a variety of amines such as amino acids, penicillins, and cephalosporins. Esters of N-trityl a-amino acids are shielded from hydrolysis and require forcing conditions for cleavage. The a-proton s also shielded from deprotonation, which means that esters elsewhere in the molecule can be selectively deprotonated. [Pg.366]

Optimum conditions for allylic alcohol formation ( 65% yield of olefin mixture) appear to be those originally described by Wharton, rather than strongly basic forcing conditions. The pyrazole (147) is a by-product. [Pg.351]

Enamines are not easily formed from 17-ketones. A pyrrolidine enam-ine is obtained by acid catalysis accompanied by azeotropic removal of water whereas the morpholine and piperidine enamines do not form under these forcing conditions. [Pg.398]

Gemdialkylated steroids are obtained as the major product when the alkylation is carried out under forcing conditions. Thus a good yield of (3) is obtained on methylation of 5a-cholestan-3-one with a large excess of potassium t-butoxide and methyl iodide. " ... [Pg.88]

Then, from the lateral force condition that Ny = 0,... [Pg.431]

See other pages where Forcing conditions is mentioned: [Pg.11]    [Pg.193]    [Pg.256]    [Pg.100]    [Pg.642]    [Pg.552]    [Pg.59]    [Pg.286]    [Pg.425]    [Pg.19]    [Pg.75]    [Pg.164]    [Pg.171]    [Pg.207]    [Pg.212]    [Pg.213]    [Pg.214]    [Pg.214]    [Pg.242]    [Pg.254]    [Pg.305]    [Pg.83]    [Pg.21]    [Pg.24]    [Pg.37]    [Pg.263]    [Pg.292]    [Pg.162]    [Pg.235]    [Pg.315]    [Pg.341]   
See also in sourсe #XX -- [ Pg.424 ]



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