70 algebra; ordinary diferential equations: initial value problem and boundary value problem; partial diferential equations. Prerequisites: Numerical computation Textbook: 1. Rice, RG. And Duong D. D, Applied Mathematics and Modeling for Chemical Engineers, John Willey Sons, New York, 1995. 2. Davis, M. E., Numerical Methods and Modeling for Chemical Engineers, John Willey Sons, New York, 1984 3. Constantinides, A. and Mostouvi, N, Numerical Methods for Chemical Engineers with MATLAB Applications, Prentice Hall, 1999. 4. Tosun, I., Modeling in Transport Phenomena: A Conceptual Approach, Elsevier, 2002. ENBE604012 FLUIDS AND MECHANICS PARTICLE 3 CREDITS Learning Objectives: Students are able to apply the phenomenon of luid low and particle continuity equation, Bernoulli, etc to solve problem in process unit through calculation of energy and force, etc, especially in the luid low system of piping, rate measurer and luid transportation tool, and in the system of luid-solid low luidization, iltration, sedimenta- tion, particle motion in gas. Syllabus: transfer process, Shell momentum balances, momentum balances with Navier-stokes equations, shell energy balances, sehell mass balances, momentum and energy movement in turbulent, transfer between phase, macroscopics balances of isothermal system, macroscopics balances of non isothermal, macroscopics balances in multicomponent system Prerequisite: Calculus Textbook: 1. R. B. Bird, W. E. Stewart, and E. N. Lightfoot, Transport Phenomena, John Wiley and Sons, New York, 2 nd edition, 2002,

1. Harry C. Hershey, Robert S. Brodkey, Transport Phenomena: A Uniied Approach Vol. 1,

McGraw-Hill, New York, 1987, 847 pp., ENGE 6 0 0010 STATISTICS AND PROBABILITY 2 CREDITS Learning Objectives Syllabus Prerequisites Textbook ENCE604013 CHEMICAL ENGINEERING THERMODYNAMICS 4 CREDITS Learning Objectives: Students are able to explain the basic principles relating to the PVT and thermodynamic properties of pure and mixtures compounds, mass and energy balance, thermodynamic cycles, phase equilibrium and reaction, and be able to apply problem-solving strategies to resolve the thermodynamic problems in a group. Syllabus: PVT properties of pure compounds, process track, steam table ; steady and non steady energy balances ; cyclic processes : rankine cycle for energy power and refrigerant CH EM IC AL EN G IN EE RI N G UNDERGRADUATE PROGRAM 71 cycle ; ideal system phase equilibrium and approachment to activity coeicient ; phase equi- librium in high pressure : approachment in fugacity coeicient by cubic equational state ; equilibrium reactions. Prerequisites: mass and energy balances Textbook: 1. M.J. Moran and H.N. Saphiro, Fundamentals of Engineering Thermodynamics, 2nd3rd ed., Wiley. 2. J.M. Smith, H.C. van Ness, and M.M. Abbott, Introduction to Chemical Engineering Thermodynamics, 6th7th ed., McGraw Hill. 3. Kamarza Mulia dan Praswasti PDK Wulan, Diktat Termodinamika Teknik Kimia 4. Donald R. Woods, Problem-Based Learning: How to gain the most from PBL, McMaster Bookstore, Hamilton, Ontario, Canada, 1994 ENBE604014 HEAT TRANSFER 3 CREDITS Learning Objectives: Students are able to develop knowledge in heat transfer as well as long- term learning skills to follow avance knowledge and technology that related to heat transfer Syllabus: Introduction, skills workshop process, steady-state conduction, unsteady-state con- duction, natural and forced convection, radiation and Evaporation Prerequisite: Transport Phenomena Textbook: 1. Holman, J.P., “Perpindahan Kalor alih bahasa: E. Jasji, Edisi ke-6, Penerbit Erlangga, Jakarta 1993. 2. Mc. Adam, W. H., “Heat Transmission”, 3rd Ed., Mc.Graw-Hill International Book Company, 1981. 3. Kern, D. Q., “Process Heat Transfer”, Mc.Graw-Hill International Book Company, 1984. ENCE604015 PROCESS ENGINEERING DRAWING 2 CREDITS Learning Objectives: Students are able to draw it manually process low diagrams, P IDs and plant layout, familiar with the use of software for drawing, understand and able to read the meaning of the picture Syllabus: The importance of engineering drawings, standard rules of the drawing, block dia- grams, and symbols of industrial equipment, process low diagrams, piping and instrumenta- tion symbols, piping and Instrumentation diagram, plot plan, plant layout, isometric piping and equipment. Prerequisites: - Textbook: 1. W. Boundy, Engineering Drawing, McGraw-Hill Book Company 2. Colin Simmons and Dennis Maguire, Manual of Engineering Drawing, Edward Arnold 3. ISO 1101, Mechanical Engineering Drawings, International Organization for Standardization 4. Japanese Industrial Standard, Technical Drawing for Mechanical Engineering, Japanese Standard Association. 5. Warren J. Luzadder, Fundamentals of Engineering Drawing, Prentice-Hall, Inc. CH EM IC AL EN G IN EE RI N G UNDERGRADUATE PROGRAM