成人大片

COORDINATOR

ADJUNCT PROFESSOR JOHN CROWTHER

Room N106, Engineering North Building

Email john.crowther@adelaide.edu.au

Tel. (08) 8313 5454

 

Guest lecturers will be invited from time to time to present material on specific topics. Current guests are Ruth Beach (Environmental Lawyer), Peter Baghurst (Epidemiologist), Peter Berndt and David Tully (Consultants with Coffey Environments), Andrew Howes (Consultant with Golder Associates).

It is intended that by the end of this
course students will be able to:

1.    Demonstrate comprehension of the main
       scientific and engineering principles of soil and groundwater remediation;

2.    Demonstrate an understanding of the legal, planning and environmental health issues in
       relation  to redevelopment of contaminated sites;

3.    Design and plan a site investigation;

4.    To conduct a risk analysis of a contaminated site;

5.    To propose technically and economically feasible remedies for contaminated sites

Textbook: Bedient, P. B., Rifai, H. S. and Newell, C. J., “Ground Water Contamination: Transport and Remediation”, 2nd Edition, Prentice Hall, Upper Saddle River, NJ, USA, 1999.

Textbook: Nathanail, C P, and Bardos, R P, “Reclamation of Contaminated Land”, J Wiley & Sons, Chichester, UK, 2004

 

1.    Assessment and Reclamation of Contaminated Land, Harrison, R M and Hester, R E, Royal Society of Chemistry, Cambridge, 2001 (electronic resource)

2.    Use of Airborne, Surface, and Borehole Geophysical Techniques at Contaminated Sites. 
A Reference Guide.  September 1993.  EPA/625/R-92/007.  U.S. Environmental Protection Agency, Cincinnati, OH 45268

3.    Subsurface Characterization and Monitoring Techniques: a Desk Reference Guide. Volume I Solids and Ground Water, Appendices A and B, May 1993. EPA/625/R-93/003a. 
U.S. Environmental Protection Agency, Cincinnati, OH 45268

4.    South Australia.  Environment Protection Act 1993

5.    Adelaide City  Council, Contaminated Land Policy, ACC2008/150313, 2008. http://www.adelaidecitycouncil.com/adccwr/publications/policies_strategie/contaminated_land_policy.pdf
(accessed 15 February 2011)

6.    EPA Guidelines for Environmental Management of On-site Remediation. 
Environment Protection Authority, Adelaide, March 2006.

7.    EPA Guideline for Site Contamination, EPA 839/08.  Environment Protection Authority, Adelaide,
December 2008.

8.    EPA Guideline for Assessment of Underground Storage Systems, EPA 580/05. 
Environment Protection Authority, Adelaide, February 2005.

9.    EPA Guideline for Oil Bioremediation, EPA 589/05.  Environment Protection Authority, Adelaide,
November 2005.

10.  Clayton, C R I, Matthews, M C, and Simons, N E, Site Investigation. 2nd Edition, 2005.  Online Geoengineering Library. http://www.geoengineer.org.

11.  Domenico, P A and Schwartz, F W,Physical and Chemical Hydrogeology, 2nd Edition, John Wiley & Sons, New York, 1998.

12. King, H, Site Contamination: Guidelines for the assessment and remediation of groundwater
contamination, Environment protection Authority, Adelaide, SA, February 2009

1       http://www.crccare.com/

2       http://www.epa.sa.gov.au/

3       http://www.environment.gov.au/about/councils/nepc/index.html

4       http://www.nepc.gov.au/

5       http://www.clu-in.org/

6       http://www.environment-agency.gov.uk/

 

 

This course uses a number of different teaching and learning approaches, including:


·        Lectures

·        Problem-solving tutorials

·        Computer laboratories

·        Self-directed activities

·        Design exercise

·        Examination

The information below is provided as a guide to assist students in engaging
appropriately with the course requirements.

·        Lectures = 2 hours per week

·        Tutorials = 1 hour per week

·        Computer laboratory = 1 hour per week

·        Self-directed study = 4 hour per week

·        Design exercise = 4 hour per week

Learning
Activities Schedule Soil & Groundwater Remediation   Year 2014

Wk    Day  Date  Time    Topic                                                           Room            Lecturers

1     Tues 29-Jul 1-2pm  Lecture 1: Introduction/Orientation             Ing. Ward. B21    JMC

      Tues   29-Jul 4-5 pm  Computer Lab 1                                       Comp Sci EM108/9  JMC

      Tues   29-Jul 5-6 pm  Lecture 2: The Love Canal Disaster            Ing. Ward. B21    JMC

      Thur    31-Jul 11-12am Lecture 3: Oil, Natural Gas & Petrochem.  Ing. Ward. B21    JMC

2     Tues    5-Aug 1-2 pm  Lecture 4: Gas Manufacture                       Ing. Ward. B21    JMC

      Tues  5-Aug   4-5  pm  Computer Lab 2                                      Comp Sci EM108/9  JMC

      Tues  5-Aug 5-6    pm  Tutorial 1                                                Ing. Ward.     B21    JMC

      Thur  7-Aug 11-12am   Lecture 5: The Port Pirie Smelter               Ing. Ward. B21    JMC

3     Tues 12-Aug 1-2  pm  Lecture 6: Hazards to Health & the Env     Ing. Ward. B21    JMC

      Tues  12-Aug 4-5 pm  Computer Lab 3                                       Comp Sci EM108/9  JMC

      Tues   12-Aug 5-6 pm  Tutorial 2                                                    Ing. Ward.  B21    JMC

      Thur    14-Aug 11-12am Lecture 7: Introduction to Epidemiology Ing. Ward. B21    PBa

4     Tues 19-Aug 1-2 pm  Lecture 8: Epidemiological Case Study       Ing. Ward. B21    PBa

      Tues   19-Aug 4-5 pm  Computer Lab 4                                       Comp Sci EM108/9  JMC

      Tues    19-Aug 5-6 pm  Tutorial 3                                                 Ing. Ward. B21    JMC

      Thur     21-Aug 11-12am Lecture 9: Site Investigation (prelim)    Ing. Ward. B21    JMC

5     Tues 26-Aug 1-2 pm  Lecture 10: Site Investigation(detailed)Ing.     Ward. B21    JMC

      Tues  26-Aug 4-5 pm  Computer Lab 5                                      Comp Sci EM108/9  JMC

      Tues  26-Aug 5-6 pm  Tutorial 4                                                   Ing. Ward.  B21    JMC

      Thur 28-Aug 11-12am Lecture 11: Site Investigation (geophys)  Ing. Ward. B21     JMC

6     Tues  2-Sep 1-2 pm  Lecture 12: Risk Assessment                      Ing. Ward.  B21    JMC

      Tues  2-Sep 4-5 pm   Computer Lab 6                                         Comp Sci EM108/9  JMC

      Tues  2-Sep 5-6 pm    Tutorial 5                                                   Ing. Ward. B21    JMC

      Thur  4-Sep 11-12am Lecture 13: Groundwater Modelling 1        Ing. Ward. B21    JMC

7     Tues  9-Sep 1-2 pm  Lecture 14: Legal  Aspects 1                       Ing. Ward. B21     RB

      Tues  9-Sep 4-5 pm   Computer Lab 7                                           Comp Sci EM108/9  JMC

      Tues  9-Sep 5-6 pm   Tutorial 6                                                      Ing. Ward. B21    JMC

      Thur  11-Sep 11-12am Lecture 15: Legal Aspects 2                       Ing. Ward. B21     RB

8     Tues 16-Sep 1-2 pm  Lecture 16: Physical Remediation                Ing. Ward. B21    JMC

       Tues 16-Sep 4-5 pm  Computer Lab 8                                           Comp Sci EM108/9  JMC

       Tues  16-Sep 5-6 pm  Tutorial 7                                                     Ing. Ward. B21    JMC

      Thur   18-Sep 11-12am Lecture 17: Chemical Remediation              Ing. Ward. B21    JMC

       Mon 22-Sep to      MID SEMESTER BREAK

      Fri  03-Oct 2014     MID SEMESTER BREAK

9     Tues   7-Oct 1-2 pm   Labour Day: No Lecture

      Tues  7-Oct 4-5 pm     Computer Lab 9                                           Comp Sci EM108/9  JMC

      Tues  7-Oct 5-6 pm      Tutorial 8                                                     Ing. Ward. B21    JMC

      Thur  9-Oct 11-12 am Lecture 18:  Biological Remediation              Ing. Ward. B21    JMC

10    Tues 14-Oct 1-2 pm  Lecture 19: Coffey Environments 1              Ing. Ward. B21    PBe

      Tues   14-Oct 4-5 pm  Computer Lab 10                                         Comp Sci EM108/9  JMC

      Tues 14-Oct 5-6 pm  Tutorial 9                                                          Ing. Ward. B21    JMC

      Thur 16-Oct 11-12am Lecture 20:  Coffey Environments 2                Ing. Ward. B21     DT

11    Tues 21-Oct 1-2 pm  Lecture 21: Groundwater Modelling 2             Ing. Ward. B21    JMC

       Tues 21-Oct 4-5 pm   Computer Lab 11                                             Comp Sci EM108/9  JMC

       Tues 21-Oct 5-6 pm  Tutorial 10                                                         Ing. Ward. B21    JMC

       Thur  23-Oct 11-12am Lecture 22: Golder Associates Lecture 1         Ing. Ward. B21     AH

12   Tues 28-Oct 1-2 pm  Lecture 23: Golder Associates Lecture 2         Ing. Ward. B21     AH

       Tues 28-Oct 4-5 pm  Computer Lab 12                                           Comp Sci EM108/9  JMC

       Tues 28-Oct 5-6 pm  Tutorial 11                                                        Ing. Ward. B21    JMC

       Thur 30-Oct 11-12am Lecture 24: Options, H&S and the Public        Ing. Ward. B21    JMC
 
 

                       RB = Ruth Beach            AH = Andrew Howes

                       PBe = Peter Berndt         DT = David Tully

                       JMC = John Crowther      PBa = Peter Baghurst

No specific requirements

Assessment Task	Start/Due	Type	Weight	Learning Objective
Tutorial Questions	Wk 2/Wk 8	Summative	10%	1,2
Computer Exercises	Wk 1/Wk 7	Summative	10%	1,2
Design Project	Start Wk 4/Wk 12	Summative	30%	1,2,3,4,5,6
End of Semester Examination	During Exam Period	Summative	50%	1,2,3,4,5

 

Attendance at all lectures, tutorials and computer laboratories is regarded as essential
for a successful completion of this course.

Tutorials will be used flexibly to supplement and reinforce the lecture material.  Tutorial question sheets will be issued to allow students to test their understanding. The tutor will assist students as required with hints for solution and feedback.  Outline solutions will be available to students in the following tutorial for self evaluation.  One of the Tutorials will be assessed and represent 10% of the summative assessment of the course.

 
Computer laboratories will be used to introduce students to the main types of software
tools used in the soil and groundwater remediation area, as described in the lectures.  Demonstrators will assist the students with exercises designed to show the capabilities of the various software packages.  It is likely that the design project will require some computational input and students will be assisted to develop their own applications, as required. One of the computer
laboratories will be assessed and represent 10% of the summative assessment of the course.

 
The design project, which is 30% of the summative assessment, will involve realistic problem-solving of a case of contaminated land. Students will be required to submit a structured report with abstract, introduction, sections on methods, data analysis, conclusions and recommendations.


The end of semester examination will be of duration 2 hours with 10 minutes perusal and is
50% of the summative assessment.  The examination will be closed book with no materials permitted and students should attempt 4 questions out of a choice of 6.  Each question will be of equivalent weight and marks for sub-sections will be clearly indicated.  Questions will involve both descriptive answers and numerical calculations.  A standard, scientific calculator will be required but programmable calculators, computers and other electronic aids will not be permitted.  Students must enter their answers legibly by hand in the answer book provided.  The minimum mark for a pass will be 40% for this examination.

 

The design project is due in week 12. Students will be required to submit a report in hard copy plus an
electronic copy on a labelled CD-ROM attached to the inside rear cover of the report. The front cover of the report should be fully labelled with title, course and student details.  The report should be submitted by the due date (2 p.m. Friday of Week 12) to the office of the School of Civil, Environmental and Mining Engineering, located in Engineering North Building, room N136.  Late submission will in most cases receive a zero mark.  A late submission will be allowed only if a deferred deadline has been approved by the course coordinator prior to the due date because of medical or other extenuating circumstances.  Documentary evidence, such as medical certificate, will be required for deferral.