Difference between revisions of "Course project - 2012"

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{{OtherSidebar
| due_dates = 20 to 23 November
| dates_alt_text = Presentation dates
| questions_PDF =
| questions_text_alt = Presentation allocation
| questions_link =
| solutions_PDF =
| solutions_text_alt = Assignment solutions
| solutions_link =
| other_instructions =
}}
{{ClassSidebar
| date =
| dates_alt_text =
| vimeoID1 = 53946912
| vimeoID2 = 54092933
| vimeoID3 = 54147978
| vimeoID4 =
| vimeoID5 =
| vimeoID6 =
| vimeoID7 =
| vimeoID8 =
| course_notes_PDF =
| course_notes_alt = Course notes
| overheads_PDF =
| assignment_instructions =
| assignment_solutions =
| video_download_link_MP4 = http://learnche.mcmaster.ca/media/4M3-2012-12A.mp4
| video_download_link_MP4_size = 106 M
| video_notes1 =
| video_download_link2_MP4 = http://learnche.mcmaster.ca/media/4M3-2012-12B.mp4
| video_download_link2_MP4_size = 106 M
| video_notes2 =
| video_download_link3_MP4 = http://learnche.mcmaster.ca/media/4M3-2012-12C.mp4
| video_download_link3_MP4_size = 98 M
| video_notes3 =
}}__TOC__
<rst>
<rst>
<rst-options: 'toc' = False/>
<rst-options: 'toc' = False/>
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     :class: strike
     :class: strike


More details that will clarify the scope of the project will be coming soon.
Objective
============


For now, please identify a separation process that interests you and read up about it. Some references that will help:
At this stage you have identified and selected a unit for your 4M3 project. The next step is to submit a single page outline of your project proposal.


* `Perry's Chemical Engineers' Handbook <http://accessengineeringlibrary.com/browse/perrys-chemical-engineers-handbook-eighth-edition>`_
This outline will be read by the TA and/or myself to gauge whether you are on the right track. The outline will include an illustration/photo, a description of your unit, the physical principle(s) used to cause the separation, and a list of references that you plan to use to perform the rest of the project. The outline must be submitted in Google Docs, because this outline does not have features that cause problems in the assignments (e.g. equations, tables, figures).
* `Uhlmann's set of encyclopedias <http://onlinelibrary.wiley.com/book/10.1002/14356007/topics>`_
 
* `Kirk-Othmer Encyclopedia of Chemical Technology <http://onlinelibrary.wiley.com/mrw/advanced/search?doi=10.1002/0471238961>`_
 
* `McCabe, Smith and Harriott <http://catalogue.mcmaster.ca/catalogue/Record/788121>`_
Final project report
* Any bioprocessing textbook that discusses "downstream" (i.e. separation) processes, e.g. `volume 2 in this comprehensive reference <http://www.sciencedirect.com/science/referenceworks/9780080885049>`_.
=====================
 
The project report will be 10 pages in Google Docs using the **default font and page border settings**. *Feel free to use single line spacing*. These 10 pages include all content, including cover, table of contents, references and any optional appendices (I strongly recommend against the use of an appendix; the report should contain the details inline where they can be read and studied by the reader). Paper documents will not be accepted. If you choose to use Microsoft Word or a PDF submission we will be limited in our effectiveness of comments and feedback.
 
The report must include the following components:
 
#. An executive summary (150 words) to your manager.
#. An overview of the process studied and a detailed analysis of the separation unit selected (maximum of 2 pages)
#. A literature review of an alternate **separation technology** to the one you selected (1 page). Describe how the *alternative separator* works, whether it is regularly used by your competitors, and what are the advantages and disadvantages of this alternative (especially when compared to the current technology you have selected).
#. The main part of the report will describe how the separation unit is sized for a typical application. The production capacity that you select must be appropriate for the design implemented by a medium to large size company. Detailed equations that show the design calculations are required and must be clearly described. Mass and energy balances around the unit must be provided in the report (not in an appendix).
#. An equally important, but shorter, section is where you describe cost estimates for building a new separation unit of this size and give a detailed breakdown on the annual operating costs. *The capital and operating costs are only for the separator.*
#. A conclusion and list of supporting references must be provided. Internet links as references, especially as authoritative references, are discouraged, unless there is absolutely no other alternative supporting reference.
 
 
Project presentation
======================
 
A presentation to the class must be given by you/your group. The speaking time per group will be 3 minutes; there will be no time for questions and answers. You must provide 2 slides ahead of your presentation slot to the instructor in PDF format (no other format will be accepted). Slide 1 will show the unit and describe the operating principle behind the separation process. Slide 2 will give an overview of the annual operating costs and give 2 references for the class to read up more about the unit. The slides will be distributed to the rest of the class electronically, and the material will be examinable in the final exam.
 
The slides must be emailed to the course instructor by 19:00 on the day before your presentation. If you use Powerpoint to create your presentations, use the "Save As" menu to obtain a PDF. View that PDF in "full screen mode" to ensure your presentation appears as you intend. All presentations will be made from the instructor's computer, which is guaranteed to work with the class projector. Due to time and technology limitations, groups will not be able to use their own computers for presentations, which is why a PDF is required.
 
**Once again: by 19:00, the day before, 2 landscape pages, in PDF, no exceptions.**
 
Grading
=========
 
.. tabularcolumns:: |p{4cm}|p{5cm}|p{5cm}|
 
.. csv-table::
  :header: "Date", "Description", "Percentage of project grade"
 
"18 October 2012", "Project outline due", "20%"
"18 November", "Written project report due by 23:59", "60%"
"20 to 23 November", "Project presentations", "20%"


\
\
\
\
Presentation materials
============================


Here are some ideas. Please select a unit from one of these flow sheets. *Entries that are struck out have already been taken (refresh your web page to see the latest version ... it is changing hourly)*.
#. Bayer process for production of aluminium oxide
#. :strike:`Bio-diesel production from vegetable oil`
#. :strike:`Bio diesel production from algae`
#. Brewing of ale from raw materials to beer clarification (topic not allowed in 2012)
#. :strike:`CO2 capture and sequestration plant`
#. :strike:`ConocoPhilips HF alkylation process`
#. Copper production from ore to heap leaching to electro-refining
#. :strike:`Corn syrup production from corn`
#. :strike:`Cryogenic separation of oxygen/nitrogen/argon`
#. :strike:`Desalination of seawater`
#. Distillation of coal tars
#. Glycol dehydration process
#. :strike:`Hydrocracking of oil and separation of fractions therefrom`
#. :strike:`Hydrolysis of waste water for production of small molecules and their separation by activated carbon for waste water treatment`
#. :strike:`Industrial water reclamation, treatment and reuse`
#. KBR's ammonia purification process
#. :strike:`Kraft pulp mill (paper production process) and bleach plant`
#. :strike:`Mono-sodium glutamate (MSG) manufacturing by fermentation`
#. :strike:`Penicillin production process`
#. Phthalic anhydride production from o-xylene
#. Processes for endotoxin removal by adsorptive membranes
#. :strike:`Processes for oil extraction from vegetables`
#. Processes for production of hydrogen via methane reforming
#. :strike:`Processes for separation of bitumen from oil sands`
#. Processes for solid waste management
#. :strike:`Processing of soy bean into food products`
#. :strike:`Production and processing of orange juice`
#. strike:`Production lactic acid by fermentation`
#. Production of acetone from isopropyl alcohol
#. Production of acrylic acid from propylene
#. Production of amidase
#. :strike:`Production of aspirin`
#. Production of benzene from hydrodealkylation of toluene
#. Production of castor oil derivatives
#. :strike:`Production of cement`
#. :strike:Production of cereal products`
#. :strike:`Production of cheese from milk, from cow to finished product`
#. :strike:`Production of decaffeinated coffee by supercritial fluid extraction`
#. :strike:`Production of ethanol from residual sugar cane`
#. Production of ethanol via extractive distillation
#. Production of ethylene oxide
#. Production of formaldehyde from methanol
#. :strike:`Production of fragrances by extraction of animal products`
#. Production of glucose via the enzymatic hydrolysis of aspen wood chips
#. :strike:`Production of insulin`
#. :strike:`Production of iron ore concentrate`
#. Production of maleic anhydride via the oxidation of n-butane
#. Production of monoclonal antibodies
#. Production of nitrogenous fertilizers
#. Production of palm oil from palm trees
#. :strike:`Production of pure methane gas from natural gas`
#. :strike:`Production of PVC`
#. Production of sodium lauryl sulphate
#. Production of sugar by methods other than evaporation
#. :strike:`Production of sulfur by the Claus process`
#. Production of wax fractions by thin film distillation
#. :strike:`Production of white oils from petroleum products`
#. Purification of nickel by the Mond process
#. Recovery and purification processes for plasmid production
#. Recovery of nickel and cadmium from spent batteries
#. Recovery of turpentine from the kraft pulping process and production of pinenes therefrom/ alt(acetic acid production by BASF process)
#. :strike:`Removal of H2S from natural gas`
#. Secondary stage of waste water treatment process  (topic not allowed in 2012)
#. Separation of benzene and cyclohexane mixture by extractive distillation method
#. :strike:`Separation of carbon dioxide using polymeric membranes`
#. :strike:`Separation of drilling muds from crude oil`
#. Separation of sulphuric acid from smelter off-gas
#. Shukhov cracking process
#. Troua corporation process for production of potassium chloride
#. :strike:`Uranium ore mining and concentration`
#. Wax production from petroleum products
#. :strike:`Municipal solids waste separation/recycling`
</rst>
</rst>
== Important dates ==
{| class="wikitable"
 
{|
|-
|-
| Topic selection:
! Day
| 27 September (minor iterations after that)
! PDF slides
! Audio
! Video
|-
|-
| Outline due:
| 20 November
| 16 October
| [[Media:4M03-2012-Day1-slides.pdf| Tuesday]]
| [http://learnche.mcmaster.ca/media/4M3-2012-Class-12A.mp3 Audio]
| [http://learnche.mcmaster.ca/media/4M3-2012-12A.mp4 Video]
|-
|-
| Project due:
| 22 November
| 09 November
| [[Media:4M03-2012-Day2-slides.pdf| Thursday]]
| [http://learnche.mcmaster.ca/media/4M3-2012-Class-12B.mp3 Audio]
| [http://learnche.mcmaster.ca/media/4M3-2012-12B.mp4 Video]
|-
|-
| Presentations:
| 23 November
| week of 19 to 23 November
| [[Media:4M03-2012-Day3-slides.pdf| Friday]]
| [http://learnche.mcmaster.ca/media/4M3-2012-Class-12C.mp3 Audio]
| [http://learnche.mcmaster.ca/media/4M3-2012-12C.mp4 Video]
|}
|}

Latest revision as of 00:07, 16 January 2013

Presentation dates: 20 to 23 November
Download video: Link [106 M]

Download video: Link [106 M]

Download video: Link [98 M]

<rst> <rst-options: 'toc' = False/> <rst-options: 'reset-figures' = False/>

.. role:: strike

   :class: strike

Objective

==

At this stage you have identified and selected a unit for your 4M3 project. The next step is to submit a single page outline of your project proposal.

This outline will be read by the TA and/or myself to gauge whether you are on the right track. The outline will include an illustration/photo, a description of your unit, the physical principle(s) used to cause the separation, and a list of references that you plan to use to perform the rest of the project. The outline must be submitted in Google Docs, because this outline does not have features that cause problems in the assignments (e.g. equations, tables, figures).


Final project report

=========

The project report will be 10 pages in Google Docs using the **default font and page border settings**. *Feel free to use single line spacing*. These 10 pages include all content, including cover, table of contents, references and any optional appendices (I strongly recommend against the use of an appendix; the report should contain the details inline where they can be read and studied by the reader). Paper documents will not be accepted. If you choose to use Microsoft Word or a PDF submission we will be limited in our effectiveness of comments and feedback.

The report must include the following components:

  1. . An executive summary (150 words) to your manager.
  2. . An overview of the process studied and a detailed analysis of the separation unit selected (maximum of 2 pages)
  3. . A literature review of an alternate **separation technology** to the one you selected (1 page). Describe how the *alternative separator* works, whether it is regularly used by your competitors, and what are the advantages and disadvantages of this alternative (especially when compared to the current technology you have selected).
  4. . The main part of the report will describe how the separation unit is sized for a typical application. The production capacity that you select must be appropriate for the design implemented by a medium to large size company. Detailed equations that show the design calculations are required and must be clearly described. Mass and energy balances around the unit must be provided in the report (not in an appendix).
  5. . An equally important, but shorter, section is where you describe cost estimates for building a new separation unit of this size and give a detailed breakdown on the annual operating costs. *The capital and operating costs are only for the separator.*
  6. . A conclusion and list of supporting references must be provided. Internet links as references, especially as authoritative references, are discouraged, unless there is absolutely no other alternative supporting reference.


Project presentation

==========

A presentation to the class must be given by you/your group. The speaking time per group will be 3 minutes; there will be no time for questions and answers. You must provide 2 slides ahead of your presentation slot to the instructor in PDF format (no other format will be accepted). Slide 1 will show the unit and describe the operating principle behind the separation process. Slide 2 will give an overview of the annual operating costs and give 2 references for the class to read up more about the unit. The slides will be distributed to the rest of the class electronically, and the material will be examinable in the final exam.

The slides must be emailed to the course instructor by 19:00 on the day before your presentation. If you use Powerpoint to create your presentations, use the "Save As" menu to obtain a PDF. View that PDF in "full screen mode" to ensure your presentation appears as you intend. All presentations will be made from the instructor's computer, which is guaranteed to work with the class projector. Due to time and technology limitations, groups will not be able to use their own computers for presentations, which is why a PDF is required.

    • Once again: by 19:00, the day before, 2 landscape pages, in PDF, no exceptions.**

Grading

=

.. tabularcolumns:: |p{4cm}|p{5cm}|p{5cm}|

.. csv-table::

  :header: "Date", "Description", "Percentage of project grade"

"18 October 2012", "Project outline due", "20%" "18 November", "Written project report due by 23:59", "60%" "20 to 23 November", "Project presentations", "20%"

\ \ Presentation materials

================

</rst>

Day PDF slides Audio Video
20 November Tuesday Audio Video
22 November Thursday Audio Video
23 November Friday Audio Video