CUG WORKSHOP
Academic Calender
Dear students,
Welcome to the new semester!
I look
forward to working with you over the next 18 weeks in ADVANCED ENVIRONMENTAL INSTRUMENTATION(2151302). Get
ready for a journey of a lifetime learning memories. In this class you will learn about instrumental method of chemical and pollutant analysis by optical and/or electro-analytic techniques. Some of the instruments like GC, FTIR, Spectrophotometer, TOC and many more. more over it we will learn some research and data analysis methods too. These will be useful to your shining carrier in the field of environmental science and engineering.
Weekly
participation in 3 lectures and one laboratory of 4 hours are essential throughout the course to be successful in the subject. This course will have 7 Labs, 5 Hand written assignments, One power point presentation/Video Lecture collection, One active learning assignment in MS-Word file. One Open Ended Project work.
We hope that, once more it is a good
and interesting course program for you.
Even though we have tried to finalize our scheduling and class rooms allocations, Class room and time changes may occur. Therefore, we would like to ask you to frequently
check our notice boards for notifications and updates. It is also advised to visit this blog frequently for getting new learning experiences, learning materials or some instructions.
After learning the course you will be able to:
-Use the instrumental method of analysis.
-Demonstrate the ability to operate sophisticated state of art analytical instrument to quantify micro level contaminants
-Exhibit the capability to operate and calibrate analytical instruments like TOC analyzer and GC
-Carry out statistical analysis of the data.
Once again welcome, and have nice learning experience.
After learning the course you will be able to:
-Use the instrumental method of analysis.
-Demonstrate the ability to operate sophisticated state of art analytical instrument to quantify micro level contaminants
-Exhibit the capability to operate and calibrate analytical instruments like TOC analyzer and GC
-Carry out statistical analysis of the data.
Once again welcome, and have nice learning experience.
Link for Video Lectures of NPTEL
List of Experiments
NO
|
TOPIC
|
Safety
Test and Safety Symbols
|
|
1
|
Determination
of the turbidity in the given samples.
|
2
|
Determination
of flouride concentration in drinking water using spectrophotometer.
|
3
|
To determine the iron content in commercially
available vitamin tablet using spectrophotometer.
|
4
|
To separate the components of chlorophyll by ascending paper
chromatography.
|
5
|
To
study the thin layer chromatography (TLC).
|
6
|
Determination of
metal (copper) using
Atomic Absorption Spectrophotometer.
|
7
|
To
become familiar with applications, parameters, and instrumentation used in
ion chromatography
|
8
|
To
study the GC, study of influence of various operating parameters on the
performance of GC.
|
9
|
Determination of TOC from wastewater
using TOC analyzer
|
Sr. No
|
Assignments
no. / Unit
|
Expected
Date
|
Submission Date
|
Grade
|
Faculty Sign
|
|
1
|
Assignment:1
|
22-07-2016
|
||||
2
|
Assignment:2
|
06-08-2016
|
||||
3
|
Assignment:3
|
01-09-2016
|
||||
4
|
Assignment:4
|
01-10-2016
|
||||
5
|
Assignment:5
|
21-10-2016
|
||||
Assignment:-1
|
Suggested Marks
|
||||||
What is Advanced Environmental Instrumentation? What is its Importance?
|
7
|
||||||
Explain the mechanism of environmental analysis
|
7
|
||||||
Write about steps of environmental analysis process
|
4
|
||||||
Give the classification of analytical methods of analysis.
|
7
|
||||||
What is the role of environmental chemist?
|
4
|
||||||
What is Electromagnetic spectrum? Explain in detail.
|
5
|
||||||
Describe the Lambert and Beer
laws of light absorption
|
7
|
||||||
Explain visual colorimetry in detail.
|
7
|
||||||
Write about instrumentation and workings of UV-Visible spectrophotometry
|
7
|
||||||
Differentiate between spectrophotometry and colorimetry
|
7
|
||||||
Assignment:-2
|
|||||||
Explain
Working principle of Flame photometer. Which parameters can be measured using
flame photometer?
|
7
|
||||||
Give the
difference between Raman Spectroscopy and Infrared
Spectroscopy.
|
7
|
||||||
Write a short note on Mass Spectroscopy.
|
5
|
||||||
Explain Atomic Adsorption Spectroscopy in detail.
|
5
|
||||||
Differentiate following molecules based on IR-spectroscopy
 |
4
|
||||||
|
3
|
||||||
|
|||||||
|
7
|
||||||
Write a note on atomic
spectroscopy
|
5
|
||||||
|
6
|
||||||
Assignment:-3
|
|||||||
Write the sources of Turbidity in
river water. What is significance of
turbidity? And methods of determination.
|
7
|
||||||
|
7
|
||||||
Give the difference between
visible and instrumental method for
measurement of turbidity.
|
4
|
||||||
Explain “Jackson
Candle Turbidity Meter” with neat sketch.
|
7
|
||||||
Write application of turbidity data and its standard unit.
|
5
|
||||||
|
7
|
||||||
Explain the working principle and
operation of each unit of High Performance
Liquid Chromatograph
with sketch.
|
7
|
||||||
Give the applications of High Performance Liquid
Chromatography.
|
3
|
||||||
Explain the working principle and
operation of each unit of gas chromatograph
with sketch. Along
with its merits and demerits.
|
7
|
||||||
What is chromatography? Give
the difference between stationary
phase and mobile
phase in chromatography
|
7
|
||||||
Assignment:-4
|
|||||||
Give the difference between
adsorption and partition
chromatography
with examples.
|
5
|
||||||
|
3
|
||||||
Explain the principle of Ion Chromatography(IC) in detail
|
4
|
||||||
Explain following terminology use in chromatography
1.Normal phase 2.Reverse phase 3.Retention time 4.Retention volume
5.Relative retention 6.Column efficiency 7.Resolution
|
7
|
||||||
|
3
|
||||||
|
7
|
||||||
|
7
|
||||||
Write a note on thin layer
chromatography
|
5
|
||||||
Explain the significance of
chromatography in a method of analysis
|
4
|
||||||
Word file preparation Topics and Power point presentation / video lecture collection Topics are as per the below List..
| Topics for Word and PPT/video file preparation | |
| ENROLLMENT NO | Topic |
| 140190113001 | Introduction to instrumental method of analysis |
| 140190113002 | Spectroscopic Methods of Analysis: Introduction |
| 140190113003 | Electromagnetic spectrum |
| 140190113005 | Beer- Lambert law with Applications |
| 140190113006 | Visual Colourimetry |
| 140190113007 | UV-Visible spectrophotometry |
| 140190113009 | Infrared Spectroscopy |
| 140190113010 | Raman Spectroscopy |
| 140190113011 | Atomic Absorption Spectroscopy |
| 140190113012 | Flame Emission Spectroscopy |
| 140190113013 | Mass Spectroscopy |
| 140190113014 | Turbidimetry and nephalometry Visual method |
| 140190113015 | Instrumental method of turbidity measurement |
| 140190113016 | Chromatography: Introduction |
| 140190113017 | Classification of chromatographic methods |
| 140190113018 | Column Chromatography |
| 140190113019 | Liquid Chromatography |
| 140190113021 | Adsorption Column Chromatography |
| 140190113023 | Ion exchange Chromatography |
| 140190113024 | Gas Chromatography |
| 140190113025 | High Performance Liquid Chromatography |
| 140190113028 | Ion Chromatograph |
| 140190113031 | Partition chromatography |
| 140190113032 | Exclusion chromatography |
| 140190113034 | Elctrochromatography |
| 140190113036 | Gas Chromatography |
| 140190113037 | Inductively Coupled Plasma—Atomic Emission Spectroscopy |
| 140190113038 | Supercritical Fluid Chromatography and Extraction |
| 140190113039 | Reliability of Analytical Data and Statistical Analysis |
| 140190113040 | Electrophoresis |
| 140190113041 | Supramolecules in Solvent Extraction |
| 140190113042 | Complexometric (EDTA) Titrations |
| 140190113044 | Principles of Chromatography |
| 140190113045 | Partition Chromatography |
| 140190113046 | Sampling in Analysis |
| 140190113047 | Solvent Extraction |
| 140190113048 | Precipitation Titrations |
| 140190113049 | Polarimetry and Related Methods |
| 140190113050 | Electron Spectroscopy |
| 140190113051 | Radioanalytical Techniques |
| 140190113052 | Electroanalytical Methods: Potentiometry |
| 140190113053 | Chemical Sensors and Biosensors |
| 140190113054 | Polarography and Voltammetric Methods |
| 140190113055 | Volumetric Analysis—Acid Base Titrations |
| 140190113058 | Chemiluminescence Spectroscopy |
| 140190113060 | X-Ray Spectroscopy |
| 140190113061 | Electron Spin Resonance Spectroscopy |
| 140190113062 | Mössbauer Spectroscopy |
| 140190113063 | Atomic Fluorescence Spectroscopy |
| 130190113033 | On-line Analysers-Automated Instrumentation Methods |
| 100110113047 | Redox Titrations |
| 110190113032 | Solvent Extraction method |
| 110190113056 | Water quality parameters and standards |
| 110193113007 | Ionisation Spectroscopy |
| 120190113010 | Supramolecules in Solvent Extraction |
| 120190113058 | Thermoanalytical Methods |
| 120193113002 | Atomic Emission Spectroscopy |
| 130190113042 | Capillary Electrophoresis |
| 120190113049 | NMR Spectroscopy |
Open Ended Project
Sr. No
|
Open Ended
Project Topic
|
Date of final report submission
|
Submission Date
|
Grade
|
Faculty Sign
|
1
|
|
01-10-2016
|
Submit on the email aeibrsudani@gmail.com
|
||
Enroll no.(s) Of Partner if any
|
|||||
Word file
Sr. No
|
Topic of
MS-Word file
|
Date of
submission
|
Submission Date
|
Grade
|
Faculty Sign
|
1
|
22-07-2016
|
Submit on the email aeibrsudani@gmail.com
|
PPT file
Sr. No
|
Topic of MS-PPT file
|
Expected Date
|
Submission Date
|
Grade
|
Faculty Sign
|
1
|
28-07-2016
|
Submit on the email aeibrsudani@gmail.com
|
Sort Answer Questions Assignment: Download the word file format and write questions and answers from your word file topics in the given word file format and submit by email on aeibrsudani@gmail.com. within time limit.
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