61621 CHEMICALS IN THE ENVIRONMENT

Year	No.	Offer	Mode	Description			Cred. Pts
98	61621 	S2  	D 	CHEMICALS IN THE ENVIRONME	1.00

Contents

• Staffing
• Pre-requisite(s)
• Rationale
• Synopsis
• Objectives
• Topics
• Texts
• Recommended References
• Student Workload
• Assessment Details
• Other Requirements

STAFFING:

PRE-REQUISITE(S)

61613

RATIONALE:

This unit establishes the study of sampling and analysis of substances
in  the natural environment both at macro levels and trace levels with
particular emphasis on environmental systems.

SYNOPSIS:

Topics   include  sampling  theory,  sample  preparation,   separation
analysis,  volumetric analysis, atomic absorption spectroscopy,  flame
photometry,  radiochemistry  and tracers,  trace  analysis,  automated
methods,  water  analysis, soil analysis, air  and  gas  analysis  and
nitrogen and phosphate determination in biological specimens. A  study
of  pollution  of  air, soil and water including  toxicology  will  be
undertaken to allow the student to identify and measure pollutants.

The  importance of colloids and surface properties in the  environment
will be studied.

OBJECTIVES:

On completion of this unit students will be able to:

1. sample from natural systems;
   
2. investigate the forms and extractibility of chemical
   substances from biological and geological systems;
   
3. apply quantitative techniques of measurement to biological and
   geological samples;
   
4. operate analytical instrumentation for quantitative
   measurements;
   
5. acquire, report and process data of chemical parameters
   derived from chemical systems.
   
6. define the role of colloids in the environment.
   

TOPICS:

 Description                                                    Weighting(%)

Water chemistry, water pollution, water sampling, in situ             10.00
monitoring, sample preservation, sample extraction.

Atmospheric chemistry - air pollution, sampling automatic             10.00
monitoring, particulates and aerosols.

Soil chemistry, soil sampling, soil pollution, extraction             10.00
procedures, degradation of organic pollutants.

Nuclear   and   radiation   chemistry,   measurement   of             10.00
radioactive  particles  isotope identification,  tracers,
radioactive labelling and radioactive clocks.

Low  level  detection (trace analysis), sampling  theory,             25.00
chromatographic techniques of separation, GLC, HPLC,  ion
chromatography,  flame spectrophometry, emission,  atomic
absorption,   furnace  techniques.   Colorimetry,   metal
complexes,  extraction.  Clean  laboratory  requirements.
Environmental Analysis: Sampling, reagent purity, special
laboratory   requirements   and   glassware.   Gas/liquid
chromatography  for pesticide analysis.  Water  Analysis:
Common  pollutants, dissolved oxygen measurements, oxygen
demand  (chemical  and biological),  water  hardness  and
treatment,  toxic  metals. Ion chromatography  for  anion
measurement.  Soil  Analysis: Cation  exchange  capacity,
exchange  acidity, base saturation, soil  organic  matter
and  C/N  ratios,  soil gases, soil  pollution,  nutrient
retention  by  clays. Air and Gas Analysis:  Analysis  of
particulate  matter and noxious gases in the  atmosphere.
Nitrogen and Phosphate Determinations.

Ecotoxicology and laboratory procedures, definition of LC             14.00
50,   LD  50,  and  LOEC,  environmental  modelling   and
biological indicators.

Surface   properties  of  colloids,   classification   of             21.00
colloids, stability of hydophobic and hydophilic  systems
clay   chemistry.  Surfactants  micelles,   wetting   and
penetration, detergency and flotation.

PRACTICALS
Weak  Acid Titrations - determination of amino acids  and
boric  acid by alkalimetry, modification of Ka values  by
chemical addition, speciation of organic acids.
Alkalinity of Water - carbonate/bicarbonate bases of  the
weak   carbonic  acid  system,  pH  determination  during
neutralisation with standard acid, buffer systems.
Flame spectroscopy - determination of Ca and Mg by atomic
absorption   methods,  influence  of   chemical   matrix,
radiation and ionisation buffering, calibration curves.
Hardness of Water - EDTA compleximetric titration use  of
metal indicators, selective titration of metal ions.
Dissolved  Oxygen - dissolved oxygen meter and "in  situ"
measurement. Comparison of titrimetric method of Winkler,
concentration stratification in water bodies.
Chlorine  Determination - residual  chlorine  in  treated
water, iodometric titration.

Project  - sample collection and preservation, "in  situ"
measurements, methodology of selected parameters, seminar
presentation and report.

Soil  Organic  Matter - soil sampling  and  digestion  of
O.M., redox titration, segregation of particulate matter.

Colorimetric  determination  of  phosphate  -  water  and
fertiliser   analysis,  sample  digestion,   methodology,
wavelength selection and calibration curves.

Chloride determination using absorption indicators

Preparation and properties of colloid systems.

Analysis of a detergent in water.

TEXT and MATERIALS to be PURCHASED:

RECOMMENDED REFERENCE MATERIALS:

Black, C.A. ed, 1965, Methods of Soil Analysis, Agronomy No. 9,
American Society of Agronomy Inc.

Christian, G.D. 1994, Analytical Chemistry, 5th edn, Wiley.

Connell, D.W. & Miller,G.J. 1984, Chemistry and Ecotoxicology of
Pollution, Wiley.

Everett, D.H. 1988, Basic Principles of Colloid Science, Royal
Society of Chemistry.

Keith, L.H. 1991, Environmental Sampling and Analysis, Lewis.

KrausKopf, K. B. 1979, Introduction to Geochemistry, 2nd edn, McGraw-
Hill.

Manahan, S.E. 1991, Environmental Chemistry, Lewis.

Paasivirta, J. 1991, Chemical Ecotoxicology, Lewis.

Parfitt, G.D. Principles of the Colloidal State, Royal Society of
Chemistry.

Shaw, D.J. 1992, Introduction of Colloid and Surface Chemistry,
Butterworths.

Standard Methods for the Examination of Water and Waste
Water,APHA/AWWA/WPCF, 1985.

STUDENT WORKLOAD REQUIREMENTS:

	ACTIVITY				HOURS
Lectures                                      	28
Tutorials/Workshops                           	12
Laboratory or Practical Classes               	39
Field Trips                                   	3
Report Writing                                	35
Private Study                                 	50
Examinations                                  	3

ASSESSMENT DETAILS:

No  *F/S Marks     Due        Description                              Wtg(%)    LBL WWW
1   S              END S2    3HR THEORY EXAMINATION (CLSD BK)          50.00     N   N
2   S              WEEKLY    PRACTICAL ASSIGNMENTS                     30.00     N   N
3   S              END SEM   FIELD PROJECT SEMINAR AND REPORTS         20.00     N   N

OTHER REQUIREMENTS:

1    Students are required to participate actively in at least 80%  of
     the practical/tutorial classes in this unit.
2    All  students must present an oral dissertation of Field  Project
     as well as written reports.
3    In accordance with University Policy and Guidelines,
3.1  an  Examiner  may  grant  an extension of  the  due  date  of  an
     assignment in extenuating circumstances;
3.2  no  assignments  will be accepted for assessment  purposes  after
     assignments  or  model  solutions have been  released  except  in
     extenuating circumstances;
3.3  assignments  submitted after the due date without any extenuating
     circumstances  will  attract a penalty of  at  most  20%  of  the
     assigned mark for each working day late;
3.4  students who submit an assignment after the due date and wish  to
     claim   extenuating   circumstances,  must  provide   documentary
     evidence with the assignment explaining the circumstances;
3.5  the   unit  examiner  shall  consider  a  claim  for  extenuating
     circumstances and decide on the outcome;
3.6  the  decision of the Dean shall be final in any dispute that  may
     arise in the implementation of these guidelines.