Downloaded by 80.82.77.83 on June 4, 2018 | https://pubs.acs.org Publication Date: September 21, 1990 | doi: 10.1021/bk-1990-0438.ix001
Author Index Ang, H. M., 329 Aoyama, Yoshio, 175 Aquilano, D., 72 Arai, K., 271 Bosgra, O. H., 144 Botsaris, Gregory D., 364 de Jong, Esso J., 130 de Wolf, Sjoerd, 130,144,159 Eggebrecht, John, 16 Gambrel, Timothy, 85 Harano, Yoshio, 175 Hartel, Richard W., 316 Hasegawa, Hirokazu, 251 Hashiha, Isao, 261 Hirasawa, Izumi, 355 Inoue, C, 271 Jager, Johan, 130,144,159 Johns, M. R., 198 Judge, R. A., 198 Kawamura, Yuji, 261 Kendall, Ross, 115 Kokubo, Ryo, 261 Kramer, Herman J. M., 130,144,159 Kruse, M, 43 Kyprianidou-Leodidou, Tasoula C, 364 Larson, Maurice A., 16 Liang, Baomin, 316 Loh, P. L W., 329 Mantovani, G., 72 Matsumura, Takashi, 373 Matsuo, Hitoshi, 344 Matsuoka, Masakuni, 251 Miller, S. M., 102 Miyake, Kazuo, 261 Moritoki, Masato, 220,281 Mukhopadhyay, S., 115,292 Myerson, Allan S., 1,55 Naijyo, H., 271
Nakai, Tasuku, 395 Narahara, Hideo, 281 Nishiguchi, Nobuhiko, 220,281 NyVlt, Jaroslav, 35 Oguchi, T., 271 Ohori, Koichi, 251 Ohsaki, Tetsuya, 373 Ozoguz, Y., 210 Peters, Gunther H., 16 Randolph, Alan D., 115 Rawlings, J. B., 102 Rousseau, Ronald W., 85 Rubbo, M., 72 Saito, Tomonari, 395 Saska, Michael, 55 Satoh, Masayuki, 373 Sgualdino, G., 72 Shi, Yuping, 316 Shiroishi, Akihiro, 261 StaVek, Jiri,35 Sudo, Shogo, 175 Sutradhar, B. G, 115 Taguchi, Yoji, 373 Toya, Yasunori, 355 Toyokura, Ken, 271,281 Tsuge, Hideki, 344 Ulrich, J., 43,210 Vaccari, G., 72 van Rosmalen, G. M., 381 Visser, B., 144 Watanabe, Yasuyuki, 395 White, E. T., 198,292 Witkamp, G. J., 381 Witkowski, W. R., 102 Yamada, Kenji, 281 Yeh, George C, 230 Yokota, M., 271 Zumstein, Ronald C, 85
Affiliation Index Curtin University of Technology, 329 Czechoslovak Academy of Sciences, 35 Delft University of Technology, 130,144,159381 Ebara Research Company, Ltd., 355 Georgia Institute of Technology, 85 Hiroshima Institute of Technology, 395 Hiroshima University, 261 Iowa State University, 16
Keio University, 344 Kobe Steel, Ltd., 220 Louisiana State University, 55 Niigata University, 373 Nissan Chemical Industries, Ltd., 261 Nok Corporation, 395 Osaka City University, 175 Polytechnic University, 1,55 ShowaDenkoK.K.,271
409
Myerson and Toyokura; Crystallization as a Separations Process ACS Symposium Series; American Chemical Society: Washington, DC, 1990.
410
CRYSTALLIZATION AS A SEPARATIONS PROCESS
Tokyo University of Agriculture and Technology, 251 Tufts University, 364 University di Ferrara, 72 University di Torino, 72 Universitat Bremen, 43,210
University of Arizona, 115 University of Queensland, 198,292 The University of Texas at Austin, 102 University of Wisconsin, 316 Villanova University, 230 Waseda University, 271,281
Subject Index
Downloaded by 80.82.77.83 on June 4, 2018 | https://pubs.acs.org Publication Date: September 21, 1990 | doi: 10.1021/bk-1990-0438.ix001
A Abrasion resistance, description, 43 Acceleration phenomenon on solidification of CaClj • 6^0 with nucleation agent contribution of nucleation mechanisms, 402,403-404^,405 cooling curve of melt without nucleation agent, 398399f experimental apparatus, 396397/ experimental procedure, 396396 nucleation agents, 396398* nucleation characteristic of melt with nucleation agent, 400,401/,402 nucleation characteristic of melt without nucleation agent, 39839Sjf,400 sample preparation, 395397/ Acid rain, control, 115 Adipic acid calculation of attachment energies of faces, 67,70f growth form, 67,68f solvent-accessible area, 67,6Sjf,70 Alumina trihydrate, kinetics of secondary nucleation in batch crystallizer, 330-342 Anthracene, prediction of equilibrium habit, 57 Attachment energy calculation, 58 definition, 57-58 determination of crystal habit, 58-59 effect on crystal habit, 56 B Batch crystallization factors affecting purity of recovered crystals, 85-99 factors in problem solution, 85-86 procedure, 86,87/ Batch crystallizers, applications, 102 Batch preferential crystallization, purity decrease of L-threonine crystals in optical resolution, 251-259 Bayer process, description, 329 Benzene, high-pressure crystallization from benzene-cyclohexane mixture, 281-289
Burton-Cabrera-Frank theory, explanation of growth rate dispersion, 4-5 C CaClj • 6 H 2 O , characteristics for latent heat storage, 396 Calcium sulfate factors affecting impurity uptake, 383 formationfromphosphoric acid, 381 impurities, 381383 modes of impurity incorporation into solid phases, 383-384 stability in phosphoric acid-water mixtures, 381382/383 Calcium sulfate phasesfromphosphoric acid solutions, continuous crystallization, 381-394 5-(Carboxymethyl)-D-cysteine, production, 271 5-(Carboxymethyl)-D-cysteine growth rate crystal growth rate vs. initial supercooling, 274,276f crystal size vs. operating period, 274,275/ experimental conditions for growth tests, 272£73f experimental procedure, 272 growth behavior of identified crystal, 274,27^,277 optical impurity vs. supercooling and impeller speed, 277,278f optical purity vs. dipping test, mj.1% 280 seed crystal photograph and shape, 272£73f size distributions of crystals, 272^74,275/ size of identified crystal in suspended crystals vs. elapsed time, 274,27^,277 S-(Carboxymethyl)-D-cysteine optical resolution, mechanism of inclusion of impurity, 277^78-275^,280 Classical nucleation theory applicability to processes, 17
Myerson and Toyokura; Crystallization as a Separations Process ACS Symposium Series; American Chemical Society: Washington, DC, 1990.
