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Principles of Chemical Reactor Analysis and Design New Tools by Uzi Mann

By Uzi Mann

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Astarita, Mass Transfer with Chemical Reaction, Elsevier, Amsterdam, 1967. 29. L. A. Belfiore, Transport Phenomena for Chemical Reactor Design, Wiley Intersience, Hoboken, NJ, 2003. More detailed treatments of mixing technology and scale-up can be found in: 30. J. Y. Oldshue, Fluid Mixing Technology, McGraw-Hill, New York, 1983. 31. M. Zlokrnic, Stirring: Theory and Practice, Wiley-VCH, Hoboken, NJ, 2001. 32. E. L. Paul, V. Atiemo-Oberg, and S. M. , Handbook of Industrial Mixing; Science and Practice, Wiley Interscience, Hoboken, NJ, 2003.

Harnby, M. F. Edward, and A. W. Nienow, Mixing in the Process Industry, Butterworth-Heinemann, Boston, 1997. 24 OVERVIEW OF CHEMICAL REACTION ENGINEERING 34. G. B. Tatterson, Fluid Mixing and Gas Dispersion in Agitated Tanks, McGraw-Hill, New York, 1991. 35. J. J. Ulbrecht, Mixing of Liquids by Mechanical Agitation, Taylor & Francis, Boston, 1985. 36. A. Bisio and R. L. Kabel, Scaleup of Chemical Processes, Wiley, New York, 1985. More detailed treatments of fluidization technology can be found in: 37.

C. Y. Wen and L. T. Fan, Models for Flow Systems and Chemical Reactors, Marcel Dekker, New York, 1975. 2 STOICHIOMETRY This chapter covers a tool used extensively in the analysis of processes involving chemical reactions—stoichiometry. Literally, stoichiometry means measurement of elements. In practice, stoichiometry is an accounting system that provides a framework to describe chemical transformations. Stoichiometry keeps track of the amount of species that are being formed and consumed and enables us to calculate the composition of chemical reactors.

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