Applies engineering science, design methods, and system analysis to developing areas and current problems in chemical engineering. Topics are announced at registration. Prerequisite:Third or Fourth-year standing and instructor permission.

Factors underlying interfacial phenomena, emphasizing thermodynamics of surfaces, structural aspects, and electrical phenomena. Application to areas such as emulsification, foaming, detergency, sedimentation, fluidization, nucleation, wetting, adhesion, flotation, and electrophoresis. Three lecture hours. Prerequisite: Instructor permission.

Chemical Engineering special topics vary by section.

Library and laboratory study of an engineering or manufacturing problem conducted in close consultation with a departmental faculty member, often including the design, construction, and operation of laboratory scale equipment. Requires progress reports and a comprehensive written report. Prerequisite: Instructor permission.

Fundamental concepts of heat and mass transfer; applications of these concepts and material and energy conservation calculations for design of heat exchanger and packed absorption/stripping columns. Four lecture hours. Prerequisites: CHE 2216, 3316, 3321.

Experimental study of selected operations and phenomena in fluid mechanics and heat transfer. Students plan experiments, analyze data, calculate results and prepare written and/or oral planning and final technical reports. One hour discussion, four laboratory hours. Prerequisite: CHE 2215 and CHE 3316 and CHE 3321; corequisite: CHE 3322

Quantitative engineering aspects of industrial applications of biology including the microbial synthesis of commercial products, environmental biotechnology, and the manufacture of biopharmaceuticals through recombinant microorganisms, transgenic animals, and plants. Three lecture hours. Prerequisite: CHE 2216, CHE 2246, CHE 3321; corequisite: CHE 3318, and 3322.

Determination of rate equations for chemical reactions from experimental data. Use of kinetics and transport relations in the design of both batch and continuous reactors; homogeneous, heterogeneous, uncatalyzed and catalyzed reactions. Three lecture hours. Prerequisite: CHE 2216, 3316; corequisite: CHE 3322.

Includes the formulation and analysis of the first and second laws of thermodynamics; energy conservation; concepts of equilibrium, temperature, energy, and entropy; partial molar properties; pure component and mixture equations of state; processes involving energy transfer as work and heat; reversibility and irreversibility; and closed and open systems and cyclic processes. Corequisite: APMA 2120

Mathematical and computational tools for the analysis and simulation of chemical processes and physicochemical phenomena. Mathematical and numerical methods. Three lecture and one laboratory hour. Prerequisite CHE 2215, CS1110 or CS1111 or CS1112 or CS 1113; Co-requisite: APMA 2130 or MATH 3250, or APMA 2501 topic "Differential Equations & Linear Algebra"