www.monash.edu2014 Unit Guide Template CHE3162 Process Control This unit will explore cleaner production and sustainability concepts, the principles of process design and development and associated flow sheets, systematic approaches to waste minimisation in process and utility systems, the methodology of life cycle assessment and application of life cycle assessment to processes and products. These themes will be developed in lectures and supported by student project work related to selected industrial processes. Mode of Delivery On campusWorkload requirements Same as in Handbook, with additional information required. http://monash.edu.au/pubs/2014handbooks/units/index- byfaculty-eng.html Unit Relationships Same as in handbook http://monash.edu.au/pubs/2014handbooks/units/index- byfaculty-eng.html Chief Examiner(s) Professor Karen Hapgood http://monash.edu.au/pubs/2014handbooks/units/index- byfaculty-eng.html Unit Coordinator(s):If there is more than one unit coordinator, include their details Same as in Handbook http://monash.edu.au/pubs/2014handbooks/units/index- byfaculty-eng.html Lecturer(s) Ms. Poovarasi BalanCampus: Sunway Phone: - Email: [email protected]Office hours: - Campus Coordinator Ms. Poovarasi Balan Campus: Malaysia Phone: +603-5514 6213 Email: [email protected]Office Hours: Monday (1400–1600) Wednesday (1100–0100) Tutor(s) Ms. Jacqueline Hay, Ms. Leong Tik Yeeng, Mr. The Chee Yang, Ms. Yeoh Zee Ying SEMESTER 1, 2014 http://www.monash.edu.au/pubs/2014handbooks/units/CHE3163.html www.monash.edu
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This unit will explore cleaner production and sustainability concepts, the principles of process design anddevelopment and associated flow sheets, systematic approaches to waste minimisation in process and utilitysystems, the methodology of life cycle assessment and application of life cycle assessment to processes andproducts. These themes will be developed in lectures and supported by student project work related to selectedindustrial processes.
Mode of Delivery On campus Workload requirements Same as in Handbook, with additional information
without the written permission of the host Faculty and School/Department.
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Your Feedback to UsMonash is committed to excellence in education and regularly seeks feedback from students,employers and staff. One of the key formal ways students have to provide feedback isthrough the Student Evaluation of Teaching and Units (SETU) survey. The University‟sstudent evaluation policy requires that every unit is evaluated each year. Students arestrongly encouraged to complete the surveys. The feedback is anonymous and provides theFaculty with evidence of aspects that students are satisfied and areas for improvement.
For more information on Monash‟s educational strategy, see: www.monash.edu.au/about/monash-directions/directions.html and on student evaluations,see: www.policy.monash.edu/policy-bank/academic/education/quality/student-evaluation-policy.html
Previous Student Evaluations of this UnitIn response to the last SETU of this unit, the following changes have been made:
The lecture slides were modified to incorporate short quizzes and more examples to aidlearning.
This unit will assessments or presentations that will include importance of process controlin industry by highlighting case studies
Student feedback has highlighted the following strength(s) in this unit:
This unit trains students to think systematically when comes to problem based learning
If you wish to view how previous students rated this unit, please go tohttps://emuapps.monash.edu.au/unitevaluations/index.jsp
without the written permission of the host Faculty and School/Department.
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ACADEMIC OVERVIEW
Graduate AttributesMonash prepares its graduates to be:
1. responsible and effective global citizens who:a. engage in an internationalised worldb. exhibit cross-cultural competence
c. demonstrate ethical values2. critical and creative scholars who:
a. produce innovative solutions to problemsb. apply research skills to a range of challengesc. communicate perceptively and effectively
Program Education ObjectivesThe Chemical Engineering discipline expects to produce graduates, who
1. have successful careers in Chemical Engineering discipline2. engage in multicultural and globalized engineering teams3. demonstrate career progression towards senior management and leadership positions
Program Outcomes
The Chemical Engineering has developed a set of Program Outcomes (POs) for all of itsgraduates based on the Malaysian Engineering Accreditation Council‟s manual.
Program Outcomes Activities used in this unit todevelop program outcomes
PO1 Apply knowledge of basic science andengineering fundamentals
Use of mathematical skills including Laplacetransforms. Theoretical lecture material ,prescribed texts and recommended reading
PO2 Achieve In-depth technical competence inChemical Engineering discipline including theability to design complex engineering solutions
Control engineering – understandingdisturbances to first order and second ordersystems; understand feedback, feed forward,and cascade systems, ratio, inferential &model-based control; assess potentialimprovements from process control; modelsimple dynamic systems; controller tuningskills; use of VisSim and/or MATLAB.
PO3 Identify, formulate and solve complexengineering problems by creating, selectingand applying appropriate techniques,
resources and modern engineering and IT tools
Vissim or MATLAB
PO4 Analyze the performance of complexengineering problems and systems usingresearch-based knowledge and methods.
Analysis of a process, break down into controlloops and design a suitable control strategy
PO5 Demonstrate knowledge of and need forsustainable development and understand the
without the written permission of the host Faculty and School/Department.
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social and environmental impacts ofengineering solutions.
PO6 Assess public health and safety, cultural,legal, ethical and global consequences ofcomplex engineering solutions and relate themto the responsibilities of a professional
engineer.
Application of process control for processsafety and environmental protection, recenttopical issues in control (eg Stuxnet).
PO7 Communicate effectively, not only withengineers but also with the community at large
Written lab report and assignments
PO8 Function effectively as an individual and inmulti-disciplinary and multi-cultural teams.
N/A
PO9 Recognize the need for independent andlifelong learning, and possess the capacity todo so.
N/A
PO10 Manage an engineering project with anunderstanding of its business environment.
N/A
Relationship between Unit Learning Outcomes and Program Outcomes
without the written permission of the host Faculty and School/Department.
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Teaching and Learning Method
This unit consists of weekly lectures and practice classes (tutorials), plus one laboratoryexperiment demonstrating control principles. Learning in the unit is mainly through thelectures, assignments, lab and tutorial practice sessions. In some lecture and/or tutorialsessions, interactive “multiple choice questions” quizzes are given. These are highlyrecommended based on previous class experiences in CHE3162.
Tutorial allocation:
There are three 2-hours of practice classes scheduled each week, commencing in week 2.Students must enroll in one practice class only using Allocate Plus. We need to keep thenumbers in each class balanced since we have a limited number of “clickers” available foreach class, and over crowding in tutorials means that there is not enough clickers for theentire class.
Communication, participation and feedback:
Monash aims to provide a learning environment in which students receive a range of ongoingfeedback throughout their studies. In this unit it will take the form of group feedback viapractice classes, individual feedback, peer feedback, self-comparison, verbal and writtenfeedback, discussions in class, as well as more formal feedback related to assignment marksand grades. Students/You are encouraged to draw on a variety of feedback to enhancetheir/your learning
without the written permission of the host Faculty and School/Department.
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Teaching Approach
This unit consists of lectures and tutorial classes with 2 assignments, 1 mid-term test and alaboratory report.
Many Process Control concepts will be taught during lectures throughout the semester.Learning in this unit is mainly through lectures that will occasionally contain short group
discussions and quizzes. Tutorials will enable the application of theories, which were taught inlectures to solve practical problems. The first assignments is an online quiz on practicalprocess control, second assignment will involve use of Vissim software and tutorials andtutorials.
All students will complete 1 laboratory session on Process Control rig during the semesteraccording to respective groupings. In Week 8, students will be assessed in a mid-term test.
You can also find information on inclusive teaching practices for students withlearning disabilities or mental health conditions at:www.monash.edu.au/lls/inclusivity/
Assessment Summary
Assignments/tests/laboratory: 30%
Examination (3 hours): 70%
Wk# Submission Date Activity Value%
5 Mon 25th Aug 5pm Process Instrumentation Quiz, due 5pm Mon 3%9 Wed 24th Sep 10am Mid-semester exam (in class, 10am-11am,
Exam Hall 9608)10%
11 Fri 17th Oct 3pm Control Loop Assignment due 5pm Friday 10%12 Various (TBA) Laboratory Report 7%
Total continuous assessment 30%Examination (3 hours) 70%
Total assessment 100%Lab report can be submitted anytime, but no later than this date
Students are required to achieve at least 45% in the total continuous assessmentcomponent (assignments, tests, mid-semester exams, laboratory reports) and at least45% in the final examination component and an overall mark of 50% to achieve a passgrade in the unit. Students failing to achieve this requirement will be given a maximum
Lab Report: There will be ONE lab for the entire semester. You need to do the labs in agroup and submit a lab report by the due date. Details will be provided later.
Examination(s): A 3 hour examination will be held at the conclusion of this unit.
This unit includes four components of assessment, as elaborated below.
Assessment Task 1: Online quiz on Process control lectures (3%) Due Date: Week 5Details of task: Please refer to handouts for detailsRelease dates (where applicable): Week 3Word Count: N/AWord limit (where applicable): N/AWeighting/Value: 3%Presentation requirements: N/A Hurdle requirements (where applicable): N/AIndividual Assessment in Group Tasks (where applicable): N/AEstimated return date: 2 weeks after submissionMultilevel distinction (where applicable): N/ACriteria for Marking: Will be provided when the assignments are released.
Assessment Task 2: Assignment on Control Looping Due Date: Week 11Details of task: Please refer to handouts for detailsRelease dates (where applicable): Week 6Word Count: N/AWord limit (where applicable): N/AWeighting/Value: 10%Presentation requirements: N/A Hurdle requirements (where applicable): N/AIndividual Assessment in Group Tasks (where applicable): N/AEstimated return date: as indicated in unit scheduleMultilevel distinction (where applicable): N/A
Criteria for Marking: Similar criteria for grading of Assessment 1 will be applied.
Assessment Task 3: Laboratory Due Date: 1 week after laboratory session Details of task: Please refer to lab manual for detailsRelease dates (where applicable): N/A
without the written permission of the host Faculty and School/Department.
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Word Count: N/AWord limit (where applicable): N/AWeighting/Value: 7%Presentation requirements: N/A Hurdle requirements (where applicable): N/AIndividual Assessment in Group Tasks (where applicable): N/AEstimated return date: 2 weeks after submission
Multilevel distinction (where applicable): N/ACriteria for Marking: Will be provided in the laboratory manual
Assessment Task 4: Mid sem test Due Date: Week 9Details of task: Please refer to handouts for detailsRelease dates (where applicable): Week 2Word Count: N/AWord limit (where applicable): N/AWeighting/Value: 10%Hurdle requirements (where applicable): N/A
Individual Assessment in Group Tasks (where applicable): N/AEstimated return date: Within 2 weeks of presentation.Multilevel distinction (where applicable): N/ACriteria for Marking: Sample solutions and feedback will be provided.
Examination(s)There will be a final exam during the regular exam period. The exam is of 3 hour duration.This is not an open book exam. Thus, any written material will not be permitted into the exam.Approved (non-programmable) calculators are permitted.
Learning resourcesThese books are useful,but not essential for the course:.
Seborg, Edgar and Mellichamp, “Process Dynamics and Control” 2nd edition, Wiley, 2004 – famous control textbook
Process Control”, T.E. Marlin, McGraw Hill, 2000
The Marlin textbook has an excellent support site. Some of this material will be used in class,but additional exercises are available (questions, quizzes, lecture slides).
http://www.pc-education.mcmaster.ca/ (Links to this site and others as they become available are on Moodle)
Other useful references:
Smith and Corripio, “Principles and Practice of Automatic Process Control”, John Wileyand Sons, 3rd edition - previous 3rd year course textbook
Svrcek, Mahoney and Young, “A Real time approach to Process Control”, 2 nd edition,Wiley 2006 – control without any Laplace transforms! Available via library as an e-resource:http://library.monash.edu.au/vwebv/holdingsInfo?searchId=3340&recCount=20&recPointer =0&bibId=2557215
without the written permission of the host Faculty and School/Department.
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Feedback to youOur Feedback to YouFeedback will be given through written comments on the group assignments and oralpresentation, verbal comments during lectures and tutorials. General feedback will beprovided during lecture on the mid-term test.
Your Feedback to UsMonash is committed to excellence in education and regularly seeks feedback from students,employers and staff. One of the key formal ways students have to provide feedback isthrough SETU, Student Evaluation of Teacher and Unit. The University‟s student evaluationpolicy requires that every unit is evaluated each year. Students are strongly encouraged tocomplete the surveys. The feedback is anonymous and provides the Faculty with evidence ofaspects that students are satisfied and areas for improvement.
For more information on Monash‟s educational strategy, and on student evaluations, see:http://www.monash.edu.au/about/monash-directions/directions.html
The due dates for the submission of assignments are given in the previous section. Pleasemake every effort to submit work by the due dates. A standard 10% late per day penaltyapplies. Students are advised to NOT assume that granting of an extension is a matter ofcourse.
If you need an extension for any of the assignments, the lab, or you are unable to sit the mid-semester test, you must a submit written request no later than 2 days after the originalassignment or test date using the “Request for Special Consideration – In Class Assessment”form, available at: www.monash.edu/exams/assets/docs/in-semester.pdf and attachsupportive evidence such as medical certificate (see link for accepted evidence). This formshould be submitted to the Chemical Engineering Office in B36.
The unit coordinator will review your application and you will be notified via email of theoutcome of you application and the arrangements, including whether any penalty in marks willapply. Note that other lecturers or tutors cannot grant special consideration for assignmentsor tests.
If you are late in applying for an extension or you don‟t have a good reason, you should stillsubmit the work, but 10% of the total marks available for that assessment component will
usually be deducted for each day late.
No assignment will be accepted once an assignment has been returned to theclass. Resubmission of assignments is not permitted.
Remember, you are required to keep an up-to-date copy of all submitted assignments tosafeguard against the loss of work through accident or error.
without the written permission of the host Faculty and School/Department.
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Returning assignmentsAssignments will be returned within two weeks of the submission date or after receipt,whichever is later.
Resubmission of assignments
Resubmission of assignments is not permitted.
Referencing requirements
To build your skills in citing and referencing, and using different referencing styles, see theonline tutorial Academic Integrity: Demystifying Citing and Referencing at www.lib.monash.edu.au/tutorials/citing/
Assignment submissionHard Copy Submission: Assignments must include a cover sheet. The coversheet isaccessible via the Monash portal page located at http://my.monash.edu.au under the heading„Learning and teaching tools.‟ Please keep a copy of tasks completed for your records. Allassignments should be submitted to Ms. Poovarasi Balan’s office (5-5-40A) before 3pm.
Online Submission: If Electronic Submission has been approved for your unit, please submityour work via the VLE site for this unit, which you can access via links in the my.monashportal.
Please keep a copy of tasks completed for your records.
Required ResourcesStudents generally must be able to complete the requirements of their course withoutthe imposition of fees that are additional to the student contribution amount or tuitionfees. However, students may be charged certain incidental fees or be expected to make
certain purchases to support their study. For more information about this, go toAdministrative Information for Higher Education Providers: Student Support, Chapter21, Incidental Fees at:http://www.innovation.gov.au/HigherEducation/TertiaryEducation/ResourcesAndPublications/ Pages/default.aspxTechnological Requirements
Students have to check their e-mails and Moodle page regularly for updates orannouncements on the unit.
Safety Requirements
Safety is very important to maintain a good learning and working environment. In particular,safety in laboratories is of paramount importance.
For attendance to laboratory sessions you are required to arrive in time and to wearappropriate shoes and garments (e.g. long trousers, closed shoes). In the event that youarrive late or are not wearing appropriate clothing/shoes you might be refused access to thelaboratory and be required to attend at another session.
without the written permission of the host Faculty and School/Department.
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During the laboratory session you will be provided a brief safety induction before you areallowed to commence any experiments. You are required at all times during the laboratorysession to comply with the safety regulations and wear your Personal Protective Equipment(PPE). Penalties apply if you do not comply with the safety regulations of the laboratory or donot wear the PPE. If you are caught not wearing your PPE at any point during the laboratorysession you will be:
1. issued a ticket (first offence),
2. ejected from the laboratory for the remainder of the session and will have to completethe laboratory at another day (second offence)
3. banned from accessing the laboratory pending a review with the Head of Departmentto discuss your breach of safety rules (third offence).
Examination material or equipment
Calculators
A faculty approved calculator is permitted (meaning only scientific calculators that are notprogrammable and detailed in the list below will be permitted in the examination. Thesecalculators must be checked by the faculty and have either a Faculty of Engineering or aFaculty of Science approved sticker)
A list of the Faculty of Engineering approved calculators and the process for obtaining asticker is available online at:
IMPORTANT: Only these listed calculators with the authorised “Monash University-
Science” or “Monash University-Engineering” STICKER will be allowed into theexamination by the invigilators.
OTHER INFORMATION
Policies
Monash has educational policies, procedures and guidelines, which are designed to ensurethat staff and students are aware of the University‟s academic standards, and to provideadvice on how they might uphold them. You can find Monash‟s Education Policies at:www.policy.monash.edu.au/policy-bank/academic/education/index.html
Key educational policies include:
Student Academic Integrity Policy and Student Academic Integrity: ManagingPlagiarism and Collusion Procedures ;
Student ServicesThe University provides many different kinds of services to help you gain the most from yourstudies.Contact your tutor if you need advice and see the range of services available atwww.monash.edu.au/students
Monash University LibraryThe Monash University Library provides a range of services, resources and programs thatenable you to save time and be more effective in your learning and research. Go towww.lib.monash.edu.au or the library tab in my.monash portal for more information.
Disability Liaison UnitStudents who have a disability or medical condition are welcome to contact the DisabilityLiaison Unit to discuss academic support services. Disability Liaison Officers (DLOs) visit allVictorian campuses on a regular basis.
Website: www.monash.edu/equity-diversity/disability/index.html Telephone: 03 9905 5704 to book an appointment with a DLO
Email: [email protected] In: Equity and Diversity Centre, Level 1, Building 55, Clayton Campus.