ENGR405-18S1 (C) Semester One 2018

Industrial Pollution Control

15 points

Details:
Start Date: Monday, 19 February 2018
End Date: Sunday, 24 June 2018
Withdrawal Dates
Last Day to withdraw from this course:
  • Without financial penalty (full fee refund): Friday, 2 March 2018
  • Without academic penalty (including no fee refund): Friday, 18 May 2018

Description

This course aims to advance students' abilities in applying and evaluating the physico-chemical treatment processes for industrial wastewater pollution control, air pollution, and contaminated groundwater remediation, as well as to expose the student to other less frequent pollution sources, such as noise pollution.

COURSE CONTENT:

Air Pollution Control 12 Lectures (A/Prof Matthew Watson)
• Air Pollutants and its Effects
• Gaseous Pollutant Formation and Control in Combustion
• Particle Formation from Combustion and Other Sources
• Pollution Control Equipment: Particulates
• Pollution Control Equipment: Gases
• Measurement and Monitoring of Air Pollution

Industrial Waste Water Treatment 12 Lectures (Dr Laura Banasiak)
• Sources and types of water pollutants
• Water/Wastewater quality parameters
• Types of industrial water pollution control processes/systems
• Biological treatment processes (activated sludge, trickling filters, rotating biological contactor, and lagoons) for biodegradable organics (commonly found in food, beverage, pharmaceutical, petrochemical, and pulp and paper industries)
• Oxidation processes (ozonation, Fenton’s reagent, and chlorination) for recalcitrant organics and inorganics/metals (commonly found in chemical, petrochemical, and electroplating industries)
• Air stripping for volatile organics (commonly found in chemical and petrochemical industries)
• Ion exchange for inorganics/metals (commonly found in electroplating, automotive industries, metal finishing, printed board manufacturing, metal finishing and semiconductor manufacturing industries)
• Hybrid treatment processes (membrane biological reactor)

Soil Pollution Control and Remediation 12 Lectures (Dr Sean Pourazadi)
• Introduction to soil, its importance, and types of contaminants in NZ
• Calculations for phase-partitioning of spilled contaminants in soil
• Plume migration in aquifer and soil
• Soil remediation methods & technologies: vapour extraction; bio-remediation; washing; thermal desorption
• Groundwater remediation: capture-zone analysis; activated carbon adsorption; trickling-filter; air stripping; chemical precipitations of metallic contaminants; UV oxidation process

Learning Outcomes

  • To gain an understanding of strategies, legal requirements and appropriate mitigation and treatment technologies for industrial pollution control.
  • To teach the process design of selected treatment technologies.
  • To promote the solution of open-ended, multi-disciplinary problems typically found in industrial settings.
  • To explain principles of physical/chemical/biological treatment processes
  • To apply such knowledge to perform engineering calculations for simple systems
  • To promote the concept of Kaitiakitanga and understand each engineer’s role as stewards of the environment.

      • University Graduate Attributes

      This course will provide students with an opportunity to develop the Graduate Attributes specified below:

      Critically competent in a core academic discipline of their award

      Students know and can critically evaluate and, where applicable, apply this knowledge to topics/issues within their majoring subject.

Prerequisites

Subject to approval of the Director of Studies

Course Coordinator / Lecturer

Matt James Watson

Lecturers

Laura Banasiak and Sean Pourazadi

Assessment

Assessment Due Date Percentage  Description
Air Pollution Control 17% Week of 21/5
Water Pollution Control 16% Week of 23/4
Final Exam 50% Air Pollution Control 17% Water Pollution Control 17% Soil Pollution Control 13%
Soil Pollution Control 17% Test 1 - Week of 26/3


Workload
• 36 Lectures
• 2 Assignments
• 1Test
• 1 Exam

Textbooks / Resources

COURSE TEXT/MATERIALS
There is no course text. Handouts will be provided to students in lectures and it is also expected that student takes notes. However the following books have proven useful to students at various times during the course:

Air Pollution Control:
• Flagan and Seinfeld, “Fundamentals of Air Pollution Engineering”
• Baumbach, “Air Quality Control”
• Davis, “Air Pollution Engineering Manual”
• Mycock, McKenna and Theodore, “Handbook of Air Pollution Control Engineering and Technology”

Water Pollution Control:
• Wastewater Engineering: Treatment and Resource Recovery, 5th Edition, Metcalf & Eddy/AECOM, George Tchobanoglous, H. David Stensel, Ryujiro Tsuchihashi, Franklin L Burton, McGraw-Hill, 2013
• Hazardous Waste Management, 2nd Edition, LaGrega, M.D., Buckingham, P.L. and Evans, J.C., McGraw-Hill or Waveland Press, Inc., 2001

Soil Pollution Control:
• Jeff Kuo, “Practical Design Calculations for Groundwater and Soil Remediation”

Notes

Relation to Other Courses
ENGR405 is an optional 3rd Professional course.

Course Requirements
There are no prerequisites for this course.

Indicative Fees

Domestic fee $937.00

International fee $5,125.00

* All fees are inclusive of NZ GST or any equivalent overseas tax, and do not include any programme level discount or additional course-related expenses.

For further information see Chemical and Process Engineering .

All ENGR405 Occurrences

  • ENGR405-18S1 (C) Semester One 2018
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