Additional Homework Problems

Alternatve Problems
  1. CDP4-28B Pressure drop in a PBR with a first-order reaction using real data: "What if" questions asked. [3rd Ed. P4-18]
  2. CDP4-29B Good Troubleshooting Problem. Inspector Ambercromby investigates a possible fraud at Worthless Chemical. [3rd Ed. P4-9]
  3. CDP4-30D A first order reaction is carried out in a packed bed reactor with pressure drop where the rate constant varies inversly with particle diameter. One can also choose from various pipe sizes to get the maximum conversion. [3rd Ed. P4-20]
  4. CDP4-31B Pressure drop in a packed bed reactor to make alkylated cyclohexanols. [3rd Ed. P4-22]
  5. CDP4-32B A semibatch reactor is used to carry out the reaction

    [3rd Ed. P4-26]
  6. CDP4-33BA CSTR with two impellers is modeled as three CSTRs in seires. [3rd Ed. P4-29]
Additiona Homework Problems
  1. CDP4-AB A sinister looking gentleman is interested in producing methyl perchlorate in a batch reactor. The reactor has a strange and unsettling rate law. [2nd Ed. P4-28] (Solution Included)
Bioreactors and Reactions
  1. CDP4-BC (Ecological Engineering) A much more complicated version of problem 4-17 uses actual pond (CSTR) sizes and flow rates in modeling the site with CSTRs for the Des Plaines river experimental wetlands site (EW3) in order to degrade atrazine. [See Web Module on CD or WWW]
  2. CDP4-CB The rate of binding ligands to receptors is studied in this application of reaction kinetics to bioengineering. The time to bind 50% of the ligands to the receptros is required. [2nd Ed. P4-34] J. Linderman, University of Michigan
Batch Reactors
  1. CDP4-DB A batch reactor is used for the bromination of p-chlorophenyl isopropyl ether. Calculate the batch reaction time. [2nd Ed. P4-29]
  2. CDP4-EB California Professional Engineers Exam Problem, in which the reaction

    B + H2A

    is carried out in a batch reactor. [2nd Ed. P4-15]

  3. CDP4-FA Verify that the liquid-phase reaction of 5, 6-benzoquinoline with hydrogen is psuedo-first-order. [2nd Ed. P4-7]
Flow Reactors
  1. CDP4-GB Radial flow reactors can be used to good advantage for exothermic reactions with large heats of reaction. The radical velocity varies as:

    Vary the parameters and plot X as a function of r. [2nd Ed. P4-31]

  2. CDP4-HA Designed to reinforce the basic CRE principles through very straight forward calculations of CSTR and PFR volumes and batch reactor time. This problem was one of the most often assigned problems from the 2nd Edition. [2nd Ed. P4-4]
  3. CDP4-IB Formation of diphenyl in a batch, CSTR, and PFR. [3rd Ed. P4-10B]
Packed Bed Reactors
  1. CDP4-JB n-Pentane->i-pentane in a packed bed reactor. [3rd Ed. P4-21B]
  2. CDP4-KC Packed bed spherical reactor. [3rd Ed. P4-24]
  3. CDP4-LB The reaction A B is carried out in a membrane reactor where B diffuses out. [3rd Ed. P4-30]
Recycle Reactors
  1. CDP4-MB The overall conversion is required in a packed-bed reactor with recycle. [2nd Ed. P4-22]
  2. CDP4-NC Excellent reversible reaction with recycle. Good problem by Professor H. S. Shankar. IIT-Bombay. [3nd Ed. P4-28C]
Really Difficult Problems
  1. CDP4-OD DQE April 1999

    A B in a PFR and CSTR with unknown order. (30 minutes to solve)

  2. CDP4-PD A Dr. Probjot Singh Problem

    A B C Species C starts and ends at the same concentration.

These Problem were on the CD-ROM for 3rd Edition but not in the book
  1. CDP4-QA The gas-phase reaction A + 2B2D

    has the rate law -rA = 2.5 CA0.5CB. Reactor volumes of PFRs and CSTRs are required in this mulitpart problem. [2nd Ed. P4-8]

  2. CDP4-RB What type and arrangement of flow reactors should you use for a decomposition reaction with the rate law -rA = k1CA0.5 / (1 + k2CA)? [1st Ed. P4-14]
  3. CDP4-SB The liquid-phase reaction 2A + BC + D

    is carried out in a semibatch reactor. Plot the conversion, volume, and species concentrations as a function of time. Reactive distillation is also considered in part (e). [2nd Ed. P4-27]

  4. CDP4-TB The growth of a bacterium is to be carried out in excess nutrient. nutrient + cellsmore cells + product

    The growth rate law is:
    [2nd Ed. P4-35]

  5. CDP4-UB California Registration Examination Problem. Second-order reaction in different CSTR and PFR arrangements. [2nd Ed. P4-11]
  6. CDP4-VB An unremarkable semibatch reactor problem, but it does require assessing which equation to use.
New Problems on the Web
  1. CDP4-New From time to time new problems relating Chapter 4 material to everyday interests or emerging technologies will be placed on the web. Solutions to these problems can be obtained by e-mailing the author.