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Engineering and Construction Process Simulation Wiki

 

 

Engineering and Construction Process Simulation Wiki

Project description
Process Simulation Wiki – Guidance and Mark Scheme
The wiki must include several pages or a single page on each of the following:
• Background: history, philosophy and applications of process simulation etc. expand and modify as necessary (1 page with several headings) [well developed discussion = 10 marks*]
• Selecting an appropriate thermodynamic method – including summary paragraphs for each method (including full name, acronym/abbreviation and PRO/II code), references to original research publications for each method, comparison tables (including full name, short summary, acronym/abbreviation and PRO/II code) and decision flow diagrams to aid selection. (Main page with summary/comparison table, with entries that each hyperlink to additional pages which include more detail).
[main page table plus well developed discussion for at least 10 methods = 40 marks*]
• Examples of processes and plants, to include the items listed in coursework with indicative process flow diagrams, typical operating conditions and references to the scientific literature for each. (Main page linking to 1 page for each process/plant).
[well developed discussion for chosen process/plant = 40 marks#]
• List of commonly used acronyms and abbreviations (in alphabetical order) i.e. VLLE = vapour-liquid-liquid-equilibrium, then hyperlink relevant entries to the glossary. Also include hyperlinks from main wiki of any acronyms to the relevant anchor point in the acronyms page. (1 page with an anchor point for each acronym). [list of twenty acronyms/abbreviations = 5 marks*]
• Glossary of terms that you have not come across before with an explanation (in alphabetical order) i.e. Fenske method = method to calculate minimum number of equilibrium stages under for a column operating under total reflux (infinite reflux ratio), then hyperlink relevant entries to the fuller explanations elsewhere in the wiki. Other suggestions for inclusion: tray, Gilliland relationship, equilibrium stage, reflux ratio, total reflux. (1 page) [list of twenty terms = 5 marks*]
The wiki must include links to external relevant websites, which are reliable i.e. company websites, .edu/.ac.uk university websites, but not Wikipedia; these can be found by using search engines such as Google. The wiki must also include references to relevant research papers that have been reviewed and used in the development of the wiki; these can be found by searching for relevant terms in library.hud.ac.uk/summon and scholar.google.co.uk i.e. ‘pro/ii crude distillation’, ‘thermal cracking simulation’, ‘liquefaction of natural gas’ etc. [total marks for wiki = 100 marks]
*Group mark (I can see who has done what in the wiki, if you make no contribution to an element listed above you will get zero for that part)
#Individual mark – work on one example of a process/plant each for this part

 

 

 
Process Simulation Wiki– Guidance and Mark Scheme
The wiki must include several pagesor a single page on each of the following:
• Background: history, philosophy and applications of process simulation etc. expand and modify as necessary (1 page with several headings) [well developed discussion = 10 marks*]
• Selecting an appropriate thermodynamic method – including summary paragraphs for each method (including full name, acronym/abbreviation and PRO/II code), references to original research publications for each method, comparison tables (including full name, short summary, acronym/abbreviation and PRO/II code) and decision flow diagrams to aid selection. (Main page with summary/comparison table, with entries that each hyperlink to additional pages which include more detail).
[main page table plus well developed discussion for at least 10 methods = 40 marks*]
• Examples of processes and plants, to includethe items listed in coursework with indicative process flow diagrams, typical operating conditions and referencesto the scientific literature for each. (Main page linking to 1 page for each process/plant).
[well developed discussion for chosen process/plant = 40 marks#]
• List of commonly used acronyms and abbreviations (in alphabetical order) i.e. VLLE = vapour-liquid-liquid-equilibrium, then hyperlink relevant entries to the glossary. Also include hyperlinks from main wiki of any acronyms to the relevant anchor point in the acronyms page. (1 page with an anchor point for each acronym). [list of twenty acronyms/abbreviations = 5 marks*]
• Glossary of terms that you have not come across before with an explanation (in alphabetical order) i.e. Fenske method = method to calculate minimum number of equilibrium stages under for a column operating under total reflux (infinite reflux ratio), then hyperlink relevant entries to the fuller explanations elsewhere in the wiki. Other suggestions for inclusion: tray, Gilliland relationship, equilibrium stage, reflux ratio,total reflux. (1 page) [list of twenty terms = 5 marks*]
The wiki must include links to external relevant websites, which are reliable i.e. company websites, .edu/.ac.uk university websites, but not Wikipedia; these can be found by using search engines such as Google. The wiki must also include references to relevant research papers that have been reviewed and used in the development of the wiki; these can be found by searching for relevant terms in library.hud.ac.uk/summon and scholar.google.co.uk i.e. ‘pro/ii crude distillation’, ‘thermal cracking simulation’, ‘liquefaction of natural gas’ etc. [total marks for wiki = 100 marks]
*Group mark (I can see who has done what in the wiki, if you make no contribution to an element listed above you will get zero for that part)
#Individual mark – work on one example of a process/plant each for this part

Project description
Process Simulation Wiki – Guidance and Mark Scheme
The wiki must include several pages or a single page on each of the following:
• Background: history, philosophy and applications of process simulation etc. expand and modify as necessary (1 page with several headings) [well developed discussion = 10 marks*]
• Selecting an appropriate thermodynamic method – including summary paragraphs for each method (including full name, acronym/abbreviation and PRO/II code), references to original research publications for each method, comparison tables (including full name, short summary, acronym/abbreviation and PRO/II code) and decision flow diagrams to aid selection. (Main page with summary/comparison table, with entries that each hyperlink to additional pages which include more detail).
[main page table plus well developed discussion for at least 10 methods = 40 marks*]
• Examples of processes and plants, to include the items listed in coursework with indicative process flow diagrams, typical operating conditions and references to the scientific literature for each. (Main page linking to 1 page for each process/plant).
[well developed discussion for chosen process/plant = 40 marks#]
• List of commonly used acronyms and abbreviations (in alphabetical order) i.e. VLLE = vapour-liquid-liquid-equilibrium, then hyperlink relevant entries to the glossary. Also include hyperlinks from main wiki of any acronyms to the relevant anchor point in the acronyms page. (1 page with an anchor point for each acronym). [list of twenty acronyms/abbreviations = 5 marks*]
• Glossary of terms that you have not come across before with an explanation (in alphabetical order) i.e. Fenske method = method to calculate minimum number of equilibrium stages under for a column operating under total reflux (infinite reflux ratio), then hyperlink relevant entries to the fuller explanations elsewhere in the wiki. Other suggestions for inclusion: tray, Gilliland relationship, equilibrium stage, reflux ratio, total reflux. (1 page) [list of twenty terms = 5 marks*]
The wiki must include links to external relevant websites, which are reliable i.e. company websites, .edu/.ac.uk university websites, but not Wikipedia; these can be found by using search engines such as Google. The wiki must also include references to relevant research papers that have been reviewed and used in the development of the wiki; these can be found by searching for relevant terms in library.hud.ac.uk/summon and scholar.google.co.uk i.e. ‘pro/ii crude distillation’, ‘thermal cracking simulation’, ‘liquefaction of natural gas’ etc. [total marks for wiki = 100 marks]
*Group mark (I can see who has done what in the wiki, if you make no contribution to an element listed above you will get zero for that part)
#Individual mark – work on one example of a process/plant each for this part

Process Simulation Wiki– Guidance and Mark Scheme
The wiki must include several pagesor a single page on each of the following:
•    Background: history, philosophy and applications of process simulation etc. expand and modify as necessary (1 page with several headings)                                            [well developed discussion = 10 marks*]
•    Selecting an appropriate thermodynamic method – including summary paragraphs for each method (including full name, acronym/abbreviation and PRO/II code), references to original research publications for each method, comparison tables (including full name, short summary, acronym/abbreviation and PRO/II code) and decision flow diagrams to aid selection. (Main page with summary/comparison table, with entries that each hyperlink to additional pages which include more detail).
[main page table plus well developed discussion for at least 10 methods = 40 marks*]
•    Examples of processes and plants, to includethe items listed in coursework with indicative process flow diagrams, typical operating conditions and referencesto the scientific literature for each. (Main page linking to 1 page for each process/plant).
[well developed discussion for chosen process/plant = 40 marks#]
•    List of commonly used acronyms and abbreviations (in alphabetical order) i.e. VLLE = vapour-liquid-liquid-equilibrium, then hyperlink relevant entries to the glossary. Also include hyperlinks from main wiki of any acronyms to the relevant anchor point in the acronyms page. (1 page with an anchor point for each acronym).                                         [list of twenty acronyms/abbreviations = 5 marks*]
•    Glossary of terms that you have not come across before with an explanation (in alphabetical order) i.e. Fenske method = method to calculate minimum number of equilibrium stages under for a column operating under total reflux (infinite reflux ratio), then hyperlink relevant entries to the fuller explanations elsewhere in the wiki. Other suggestions for inclusion: tray, Gilliland relationship, equilibrium stage, reflux ratio,total reflux. (1 page)                                       [list of twenty terms = 5 marks*]
The wiki must include links to external relevant websites, which are reliable i.e. company websites, .edu/.ac.uk university websites, but not Wikipedia; these can be found by using search engines such as Google. The wiki must also include references to relevant research papers that have been reviewed and used in the development of the wiki; these can be found by searching for relevant terms in library.hud.ac.uk/summon and scholar.google.co.uk i.e. ‘pro/ii crude distillation’, ‘thermal cracking simulation’, ‘liquefaction of natural gas’ etc.                                                             [total marks for wiki = 100 marks]
*Group mark (I can see who has done what in the wiki, if you make no contribution to an element listed above you will get zero for that part)
#Individual mark – work on one example of a process/plant each for this part

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