Chapter 0 Intro to Unit Op I Course Syllabus

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<ul><li><p>UNIT OPERATIONS IUNIT OPERATIONS I</p><p>Syllabus: Syllabus: </p><p>2105382210538221053822105382</p><p> 11</p></li><li><p>InstructorsInstructors</p><p>S.Apinan</p><p>1. .. apinan.s@chula.ac.th2. .. fchscv@hotmail.com3. .. sorada.k@chula.ac.th4. .. joongjai.P@chula.ac.th</p></li><li><p>S.Apinan</p><p>- - - - - - - - </p></li><li><p>S.Apinan</p><p>McCabe W.L., Smith J.C. and Harriotte P., Unit Operations of Chemical Engineering, 7th</p><p>Ed. McGraw-Hill, 2001</p><p>Wilkes J.O., Fluid mechanics for chemical engineering, 2nd Ed., Prentice-Hall, 2006</p><p>Geankoplis C.J., Transport Processes and Separation Process Principles (includes Unit Operations), 4th ed., Prentice-Hall </p></li><li><p>S.Apinan</p><p>1 24-26 .. </p><p>55</p><p>1-3 Definition of fluid, Property of fluid, Type of </p><p>fluid flow</p><p>Lecture/Quiz -Unit Conversion </p><p>Sheet</p><p>-Design the piping </p><p>system</p><p>2 29..- 2. </p><p>55</p><p>4-6 Dimensional analysis Lecture/Quiz -Homework</p><p>3 5-9 .. 55 7-9 Mass Balance and Energy balance for fluid</p><p>flow</p><p>Lecture/Quiz -Homework</p><p>4 12-16 .. </p><p>55</p><p>5 19-23 .. </p><p>55</p><p>10-12 Incompresible fluid flow in pipe, Larminar</p><p>and turbulent flow in pipes: Friction factor.</p><p>Friction factor chart. Friction from changes</p><p>in velocity or direction. Effect of fitting and</p><p>valves. Power required calculation for</p><p>transport of fluid</p><p>Lecture/Quiz -Homework</p></li><li><p>S.Apinan</p><p>6 26-30.. 55 13-15 Compresible fluid flow in pipe: Adaibatic</p><p>flow, isothermal flow, isentropic flow, Power</p><p>required calculation for transport of fluid</p><p>Lecture/Quiz -Homework</p><p>7 3-7 .. 55 16-18 Transportation of fluids: Valves: categories</p><p>and types of valves, selection of valves.</p><p>Pipes and fitting. Pumps:centrifugal pumps</p><p>&amp; positive displacement pumps. Instument</p><p>for measurement of fluid flow</p><p>Lecture/Quiz -Reading on pipes </p><p>&amp; fitting</p><p>8 11-14 .. </p><p>55</p><p>19-21 Applications of Berniullis equation. </p><p>Affinity (similarity) law for pumps. </p><p>Characteristic curves for pumps. Selection of </p><p>pumps. Fan, blowers and compressors. Fluid </p><p>transport systems.</p><p>Lecture/Quiz -Reading on fan, </p><p>blowers &amp; </p><p>compressors </p><p>-Homework</p><p>9 17-21 .. </p><p>55</p><p>22-24 Powder/Particle characteristics, size </p><p>measurement, size distribution</p><p>Lecture/Quiz -Report technique </p><p>use to measure the </p><p>size of the particle</p></li><li><p>S.Apinan</p><p>10 24-28 .. </p><p>55</p><p>11 2-4 .. 56 25-27 Flow past immersed bodies: Drag coefficients.</p><p>Friction in flow through beds of solid. Motion of</p><p>particles through beds of solid. Motion of particles</p><p>through fluids. Mechanics of particle motion.</p><p>Terminal velocity. Hindered setting.</p><p>Lecture</p><p>/Quiz</p><p>-Homework</p><p>- Example of calculation</p><p>12 7-11 .. 56 28-30 Principles of solid liquid separation </p><p>- Sedimentation: Setting phenomena in </p><p>sedimentation tank, Thickener and clarifier. </p><p>Factors affecting sedimentation, Discrete particle </p><p>setting, Zone setting, Area requirement from single </p><p>batch setting test and from solid-flux analysis, </p><p>capacity of tank, torque and power requirement, </p><p>differential setting and solid separation in </p><p>classification, equipment</p><p>Lecture</p><p>/Quiz</p><p>-Homework</p><p>- Summary report of </p><p>industrial sedimentation </p><p>equipment</p><p>- Self study how the </p><p>industrial sedimentation </p><p>work via youtube and post </p><p>in Facebook page</p></li><li><p>S.Apinan</p><p>13 14-18 .. </p><p>56</p><p>14 21-25 .. </p><p>56</p><p>31-33 Filtration: Types of filter- Batch and</p><p>continuous pressure filters, vacuum filters,</p><p>cost estimation of filter, filter medium, filter</p><p>aids, selection of filters</p><p>Lecture/Quiz -Summary report </p><p>of industrial </p><p>filtration/centrifug</p><p>e </p><p>equipments</p><p>- Self study of </p><p>how filtration </p><p>operate via </p><p>youtube and post </p><p>in Facebook page</p></li><li><p>S.Apinan</p><p>15 28..-1..</p><p>56</p><p>34-36 Centrifugal separation: Principle of</p><p>centrifuge separation of forced vortex</p><p>method in solid-solid and liquid-liquid</p><p>systems, Centrifugal sedimentation, Sigma</p><p>value and scale up, separation of liquid in</p><p>centrifuge, centrifugal filtration, equipment</p><p>Free vortex centrifugal separation in solid-</p><p>gas and solid-liquid systems, gas cyclone/</p><p>hydrocyclone</p><p>Lecture/Quiz -Self study for the </p><p>operation of </p><p>cyclone via </p><p>youtube and post </p><p>in the facebook</p><p>16 48 . 56 37-39 Particle/powder Transportation, pneumatic </p><p>conveyer</p><p>Lecture/Quiz Homework</p><p>Example of </p><p>calculation</p></li><li><p>S.Apinan</p><p>17 11-15 .. </p><p>56</p><p>40-42 Fluidization: mechanism of fluidization. </p><p>Particulate fluidization. Aggregative </p><p>fluidization. Pressure drop in fluidized bed. </p><p>Applications.</p><p>Lecture/Quiz Homework</p><p>Quiz</p><p>18 18-22 .. </p><p>56</p><p>43-45 Agitation and mixing of liquids: Agitation of </p><p>liquids. Agitation equipment. Flow patterns </p><p>in agitated vessels. Power consumption in </p><p>agitated vessels. Power number. Power </p><p>correlation. Effect of system geometry. </p><p>Blending and mixing. Scale-up of agitator </p><p>design.</p><p>Lecture/Quiz Homework</p><p>Quiz</p><p>19 25.-1 .. </p><p>56 </p><p>20 4-8 .. 56</p></li><li><p>FacebookFacebook FanpageFanpage</p><p>S.Apinan</p></li><li><p>Casework &amp; AssignmentCasework &amp; Assignment</p><p>S.Apinan</p><p> 3 Pump/compressor/fan/blower Pump/valve Pump </p><p>1. 10 %2. 30 %3. 30 % (/ )4. 30 % (= x )</p></li></ul>