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Industrial and Engineering Chemistry

A. S. Michaels Simplified Method of Interpreting Kinetic Data in Fixed-Bed Ion Exchange, Industrial and Engineering Chemistry, 44(8) 1922 (1952). [Pg.496]

Donald F. Othmer and Samuel Josefowitz Correlating Adsorption Data, Industrial and Engineering Chemistry, 40 723 (1948). [Pg.496]

Austin, L., Shoji, V., Jindal, V., Savage, K. and Kimpel, R., 1976. Some results on the description of size reduction as a rate process in various mills. Industrial and Engineering Chemistry Process Design and Development, 15, 187-196. [Pg.299]

Balakrishna, S. and Biegler, L.T., 1992a. Constructive targeting approaches for the synthesis of chemical reactors. Industrial and Engineering Chemistry Research, 31(1), 300. [Pg.299]

Bourne, J.R. and Yu, S., 1994. Investigation of micromixing in stirred tank reactors using parallel reactions. Industrial and Engineering Chemistry Research, 33, 41-55. [Pg.301]

Budz, J., Jones, A.G. and Mullin, J.W., 1987a. On the size-shape dependence of potassium sulphate crystals. Industrial and Engineering Chemistry Research, 26, 820-824. [Pg.302]

Burke, S.P. and Plummer, W.B., 1928. Gas flow through packed columns. Industrial and Engineering Chemistry, 20, 1196-1200. [Pg.302]

Chakraborty, D. and Bhatia, S.K., 1996a. Fomiation and aggregation of polymorphs in continuous precipitation. 1. Mathematical modelling. Industrial and Engineering Chemistry Research, 35, 1985-1994. [Pg.302]

Cisternas, L.A. and Rudd, D.F., 1993. Process designs for fractional crystallization from solution. Industrial and Engineering Chemistry Research, 32, 1993. [Pg.303]

Girolami, M.W. and Rousseau, R.W., 1985. Initial breeding in seeded batch crystallizers. Industrial and Engineering Chemistry Research, 25, 66-70. [Pg.307]

Glasser, D., Crowe, C.M. and Hildebrandt, D., 1987. A geometric approach to steady flow reactors The attainable region and optimization in concentration space. Industrial and Engineering Chemistry Research, 26, 1803. [Pg.307]

Han, C.D., 1969. A control study of isothemial mixed crystallizers. Industrial and Engineering Chemistry Process Design and Development, 8, 150-158. [Pg.308]

Kashiki, I. and Suzuki, A., 1986. Flocculation system as a particulate assemblage A necessary condition for flocculants to be effective. Industrial and Engineering Chemistry Fundamentals, 25, 444-449. [Pg.312]

McCabe, W.L., 1929a,b. Crystal growth in aqueous solutions. Industrial and Engineering Chemistry, 21, 30, 112. [Pg.315]

Ottens, E.P.K and de Jong, E.J., 1973. A Model for Secondary Nucleatioii in a Stirred Vessel Cooling Crystallizer. Industrial and Engineering Chemistry Eundamentals, 12, 179-184. [Pg.317]

Ouchyama, N. and Tanaka, T., 1981. Porosity of a mass of particles having a range of sizes. Industrial and Engineering Chemistry Eundamentals, 20, 66-71. [Pg.317]

Rajagopal, S., Ng, K.M. and Douglas, J.M., 1988. Design of solids processes Production of potash. Industrial and Engineering Chemistry Research, 27, 2071. [Pg.319]

Randolph, A.D., 1969. Effect of crystal breakage on crystal size distribution from a mixed-suspension crystallizer. Industrial and Engineering Chemistry Fundamentals, 8, 58. [Pg.319]

Scott, K.J., 1968b. Experimental study of continuous thickening of a flocculated silica slurry. Industrial and Engineering Chemistry, 7, 582. [Pg.322]

Sikdar, S.K., 1977. Size-dependent growth rate from curved log n(L) vs. L steady-state data. Industrial and Engineering Chemistry Fundamentals, 16, 390. [Pg.323]

Swinney, L.D., Stevens, J.D. and Peters, R.W., 1982. Calcium Carbonate Crystallization Kinetics. Industrial and Engineering Chemistry Fundamentals, 21, 31. [Pg.324]

Tsutsumi, A., Nieh, J.Y. and Fan, L.S., 1991. Role of the bubble wake in fine particle production of calcium carbonate in bubble column systems. Industrial and Engineering Chemistry Research, 30, 2328-2333. [Pg.325]

Yagi, H., Iwazawa, A., Sonobe, R., Matsubara, T. and Hikita, H., 1984. Crystallization of calcium carbonate accompanying chemical absorption. Industrial and Engineering Chemistry Fundamentals, 23, 153-158. [Pg.327]

Zauner, R. and Jones, A.G., 2000b. Scale-up of continuous and semibatch precipitation processes. Industrial and Engineering Chemistry Research, 39, 2392-2403. [Pg.327]

R. Keshavaraj, R. W. Tock, and R. S. Narayan, [submitted] Industrial and Engineering Chemistry Research. [Pg.33]

Chen ZM, Zabik MJ, Eeavitt RA. 1984. Comparative study of thin film photodegradation rates for 36 pesticides. Industrial and Engineering Chemistry Product Research and Development 23 5-11. [Pg.198]


See other pages where Industrial and Engineering Chemistry is mentioned: [Pg.6]    [Pg.496]    [Pg.496]    [Pg.496]    [Pg.331]    [Pg.58]    [Pg.307]    [Pg.310]    [Pg.345]    [Pg.187]    [Pg.372]    [Pg.125]   


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Industrial Engineering Chemistry

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Industrial and Engineering Chemistry Research

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Industrial chemistry

Innovations in Industrial and Engineering Chemistry Flank, W., et al ACS Symposium Series American Chemical Society Washington, DC

Journal of Industrial and Engineering Chemistry

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