課程大綱(Course Outline)
英授(Taught in English)

Trace Environmental Analysis

Course Syllabus

 

A – COURSE IDENTIFICATION

Year: 2014, Semester 2

Course level: Graduate

Credit hours: 3

Lecturer: Professor Ta-Chang Lin

 

B - BRIEF DESCRIPTION

This course introduces necessary chemical knowledge required in carrying out trace environmental analysis. It covers pretreatment of environmental samples, qualitative and quantitative methods in chemical analysis, some principles of instrumental analysis, and QA/QC in the laboratory.

 

C - OBJECTIVES

1. Purpose of the course

To provide students of Environmental Engineering with basic knowledge of trace environmental chemical analysis, including sample preparation techniques, qualitative and quantitative analytical methods for organic and inorganic analytes, and principles of instrumental analysis.

 

2. Expected outcomes of the course

Upon successful completion of this course, students will:

  • Understand the general principles of sample preparation techniques for environmental samples, including air, water, waste and soil samples.
  • Understand the general principles of qualitative and quantitative methods of chemical analyses.
  • Understand the general principles of the major instruments used in trace environmental analysis -- including Gas Chromatography, Gas Chromatography/Mass Spectrometry, Atomic Absorption Spectrometer, and Inductively-Coupled Plasma Atomic Emission Spectrometer.
    • Be able to understand and implement most of the quantitative chemical analyses set out in standard or official methods manuals.

 

D – GRADING POLICY

Exams: There will be a midterm and a final exam. Each exam will count 35% of the grade.

Homework: All homework assignments will count 10% of the grade.

Presentation: At the end of the course each student will have a 15-minute paper presentation (in English) which includes questions and discussion. This presentation will count 20% of the grade.


E- COURSE SCHEDULE

 

Week

Topic

1

Introduction to Trace Analysis

2

Sample Preparation; Trends in Sample Preparation

3

Organic Extraction Techniques

4

Solid Phase Extraction

5

Sample Concentration Techniques

6

Solid Phase Microextraction (SPME) -- Theory and Optimization

7

SW-846: Cleanup, Alumina Cleanup, Silica Gel Cleanup

8

(Mid-term Exam)

9

Gas Chromatography

10

Gas Chromatography (continued)

11

Gas Chromatography/Mass Spectrometry

12

High-Performance Liquid Chromatography (HPLC)

13

Atomic Absorption Spectroscopy (AA); Inductively Coupled Plasma Atomic Emission Spectrometry (ICP-AES)

14

Method Detection Limit (MDL); Quality Assurance/Quality Control

15

Paper Presentation and Discussion by Students

16

Paper Presentation and Discussion by Students

17

(Final Exam)