Rche-nov-2018.pdf

PAST ChE BOARD PROBLEMS Chemical Engineering Principles Quice Review Room 608-610, Doña Amparo Building, G. Tolentino Street, Sampaloc Manila | ChE CALCULATIONS 1 1.

Supplementary Problems for Basic Principles and Calculations in Chemical Engineering 6th Edition by Himmelblau     

2.

Basic Principles and Calculations in Chemical Engineering 7th Edition by Himmelblau and Riggs     

3.

Example Example Example Example Example

2.9 (p. 64) 8.6 (pp. 209-213) 9.3 (pp. 230-232) 10.1 (pp. 264-266) 14.3 (pp. 448-449)

Elementary Principles of Chemical Processes 4th Edition by Felder, Rousseau, and Bullard  

4.

Problem 1.7B (pp. 16-18) Problem 3.2A (pp. 30-32) Problem 3.2B (p. 33) Problem 3.6B (pp. 55-57) Problem 3.6C (pp. 58-62)

Example 4.2-4 (pp. 96-97) Example 5.2-1 (pp. 221-222)

Sugar Cane Problem.pdf

| ChE THERMODYNAMICS 1.

Introduction to Chemical Engineering Thermodynamics 7th Edition by Smith, Van Ness, and Abbott                

Example Example Example Example Example Example Example Example Example Example Example Example Example Example Example Example

1.4 (pp. 13-14) 2.2 (p. 27) 2.3 (p. 27) 2.5 (pp. 30-31) 2.6 (pp. 35-36) 2.8 (p. 39) 2.11 (p. 45) 3.1 (p. 69) 3.10 (pp. 105-106) 4.3 (p. 132) 5.3 (pp. 172-173) 5.4 (p. 175) 5.5 (pp. 177-178) 5.6 (pp. 178-180) 7.4 (pp. 265-266) 7.10 (pp. 278-279)

| UNIT OPERATIONS 1.

Coulson & Richardson’s Chemical Engineering a.

Fluid Flow         

b.

Problem Problem Problem Problem Problem Problem Problem Problem Problem

1.1 (vol. 4, p. 1) 2.1 (vol. 4, p. 16) 3.6 (vol. 4, pp. 21-23) 3.10 (vol. 4, p. 27) 3.19 (vol. 4, p. 34) 4.1 (vol. 4, pp. 60-61) 4.3 (vol. 4, pp. 62-63) 8.21 (vol. 4, p. 123) 12.21 (vol. 4, pp. 312-314)

Agitation and Mixing

 c.

Problem 7.7 (vol. 4, pp. 106-107) Evaporation

  d.

Problem 14.7 (vol. 5, pp. 186-188) Problem 14.13 (vol. 5, pp. 194-195) Crystallization

 e.

Problem 15.3 (vol. 5, p. 217) Leaching

  f.

Example 10.4 (vol. 2, p. 536) Problem 10.4 (vol. 5, pp. 86-87) Liquid-Liquid Extraction

   g.

Example 13.3 (vol. 2, pp. 740-742) Example 13.5 (vol. 2, pp. 758-759) Problem 13.7 (vol. 5, pp. 176-177) Gas Absorption

 h.

Example 12.2 (vol. 2, pp. 671-672) Drying

  i.

Example 16.3 (vol. 2, pp. 911-912) Problem 16.7 (vol. 5, pp. 224-226) Distillation

  j.

Problem 11.3 (vol. 5, pp. 100-101) Problem 11.18 (vol. 5, pp. 121-122) Sedimentation

 k.

Problem 1.4 (vol. 5, pp. 2-3) Centrifugation

   l.

Example 1.7 (vol. 2, pp. 79-80) Problem 9.1 (vol. 5, p. 79) Problem 9.5 (vol. 5, pp. 81-82) Filtration



Example 7.2 (vol. 2, pp. 398-400)

m. Fluidization  n.

Heat Transfer 

2.

Problem 6.14 (vol. 5, pp. 57-58)

Problem 9.66 (vol. 4, pp. 197-198)

Unit Operations of Chemical Engineering 5th Edition by McCabe, Smith, and Harriott a.

Fluid Flow  

b.

Example 4.4 (pp. 78-79) Example 8.5 (pp. 221-222) Gas Absorption

 c.

Example 22.1 (p. 694-696) Membrane Separation

 

Example 26.4 (p. 874) Example 26.5 (p. 876)

3.

Handbook of Mechanical Engineering Calculations 2nd Edition by Hicks a.

Fluid Flow 

b.

Specific Speed Considerations in Centrifugal Pump Selection (pp. 7.18-7.19) Materials Handling



Bulk Material Elevator and Conveyor Selection (pp. 10.9-10.13)

| REACTION KINETICS

1.

Kinetics (Past BPs).pdf

| EQUIPMENT DESIGN 1.

Coulson & Richardson’s Chemical Engineering 

Example 12.13 (vol. 6, pp. 761-764)

| DIFFERENTIAL EQUATIONS

1.

CO2 In Room.pdf