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Crystallization seed crystals, activating

It was possible for two of the systems chosen that the nucleation and crystallization activation energies could be determined separately by distinguishing the induction period and crystal growth period in the overall crystallization process. Of the two hypotheses proposed for zeolite crystallization, in the gel phase or from the solution phase, the data support the latter hypothesis for crystal growth with the crystal-liquid surface enhancing the nucleation process in seeded systems. The precise mechanism of nucleation in unseeded systems remains to be determined. [Pg.154]

Sodium perborate tnhydrate, NaBO 3H2O or Na2B2(02)2(0H)4 4H2O, triclinic, contains 11.8 wt % active oxygen (96). It has been claimed to have better thermal stabiUty than the tetrahydrate but has not been used commercially. The tnhydrate can be made by dehydration of the tetrahydrate or by crystallization from a sodium metaborate and hydrogen peroxide solution in the present of tnhydrate seeds. Between 18 and 50°C the tnhydrate is more stable but slower to crystallize than the tetrahydrate. Below 15°C the tnhydrate is spontaneously converted into the tetrahydrate. [Pg.200]

Miyamoto et al. (101) obtained four fractions from the seed coats of wheat which inhibited development of the wheat embryo. A component from one of the fractions responsible for 20% of the total inhibitor activity was crystallized but not identified. [Pg.136]

A comparative study [10] is made for crystal-growth kinetics of Na2HP04 in SCISR and a fluidized bed crystallizer (FBC). The details of the latter cem be found in [11]. Experiments are carried out at rigorously controlled super-saturations without nucleation. The overall growth rate coefficient, K, are determined from the measured values for the initial mean diameter, t/po, masses of seed crystals before and after growth. The results show that the values for K measured in ISC are systematically greater than those in FBC by 15 to 20%, as can be seen in Table 2. On the other hand, the values for the overall active energy measured in ISC and FBC are essentially the same. [Pg.535]

Recrystallization of 96 from benzene afforded colorless prisms. That each crystal is chiral was shown by photochemical conversion into the optically active 97. Crystals of 96 which gave (+)- and (—)-97 on photocyclization have been tentatively identified as (+)- and (—)-crystals of 96, respectively. Large amounts of the (+)- and (—)-crystals of 96 can easily be prepared by seeding with finely powdered (+)- and (—)-... [Pg.242]

Friedel-Crafts acylation is widely used for the production of aromatic ketones applied as intermediates in both fine chemicals and pharmaceutical industries. The reaction is carried out by using conventional homogenous catalysts, which represents significant technical and environmental problems. The present work reports the results obtained in the Friedel-Crafts acylation of aromatic substrates (anisole and 2-methoxynaphthalene) catalyzed by Beta zeolite obtained by crystallization of silanized seeds. This material exhibits hierarchical porosity and enhanced textural properties. For the anisole acylation, the catalytic activity over the conventional Beta zeolite is slightly higher than with the modified Beta material, probably due to the relatively small size of this substrate and the weaker acidity of the last sample. However, the opposite occurred in the acylation of a bulky substrate (2-methoxynaphthalene), with the modified Beta showing a higher conversion. This result is interpreted due to the presence of a hierarchical porosity in this material, which favors the accessibility to the active sites. [Pg.337]

Cucurbitine (47) is the active principle from the seeds of Cucurbita moschata Duch., which are used in Chinese folk medicine. The structure of this unique a-amino acid was established through a combination of chemical and spectroscopic techniques (81, 82). A single-crystal X-ray analysis of the perchlorate of cucurbitine has confirmed the original hypothesis and has established the absolute configuration of 47 (83). [Pg.292]

Silver iodide, 14 370, 22 671 in cloud seeding, 22 685 natural occurrence of, 22 668 Silver ion activity, in photographic crystal growth, 19 179 Silver-ion reduction... [Pg.845]

For any fixed batch crystallization temperature, the effective nucleation rate passes through a maximum even at high seed densities. It is suggested that the induction period r uired to activate the seed surfaces may be responsible for the lower initial nucleation rate observed when the supersaturation was higher. It is also suggested that agglomeration may have caused the observed phenomenon. [Pg.343]

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See also in sourсe #XX -- [ Pg.258 ]



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Crystallization seed crystals

Crystallization seeded

Crystallization seeding

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