Optical Measurement Techniques in Thermal Sciences (DVD)

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Media Storage Type : DVD-ROM

NPTEL Course Name : Optical Measurement Techniques in Thermal Sciences

NPTEL Subject Matter Expert : Prof. P.K. Panigrahi

NPTEL Co-ordinating Institute : IIT Kanpur

NPTEL Lecture Count : 72


Lecture Titles:

Lecture 1 - Role of experiments in engineering
Lecture 2 - Sources of error
Lecture 3 - Data analysis
Lecture 4 - Similarity principles
Lecture 5 - Design of experiments
Lecture 6 - Uncertainty analysis
Lecture 7 - References
Lecture 8 - Problems
Lecture 9 - Pressure measurement
Lecture 10 - Hot-wire anemometry
Lecture 11 - Temperature measurement
Lecture 12 - Temporal and frequency response
Lecture 13 - References
Lecture 14 - Problems
Lecture 15 - Light sources and LDV
Lecture 16 - Introduction to PIV
Lecture 17 - Two wire hotwire measurement
Lecture 18 - Analysis of PIV data
Lecture 19 - Processing velocity vectors
Lecture 20 - Validation of PIV with HWA
Lecture 21 - References for Velocity Measurement
Lecture 22 - Additional References
Lecture 23 - Problem for module Velocity Measurement
Lecture 24 - Supplementary Reading
Lecture 25 - Wave optics and interference phenomenon
Lecture 26 - Applications, literature review
Lecture 27 - Fringe analysis and image processing
Lecture 28 - Extraction of temperature data
Lecture 29 - Applications - buoyant convection
Lecture 30 - Three dimensional convection phenomenon
Lecture 31 - Introduction to tomography, CBP
Lecture 32 - Iterative algorithms
Lecture 33 - Analysis of wedge fringes and Michelson interferograms
Lecture 34 - Closing Remarks
Lecture 35 - Interferogram
Lecture 36 - References for Interferometry
Lecture 37 - General References
Lecture 38 - Problem for Interferometry
Lecture 39 - Supplementary Reading for Interferometry
Lecture 40 - Introduction to schlieren and shadowgraph
Lecture 41 - Schlieren imaging of crystal growth
Lecture 42 - Crystal growth apparatus
Lecture 43 - Review of optical techniques for imaging crystal growth
Lecture 44 - Three dimensional reconstruction of schlieren data
Lecture 45 - Results and discussion related to crystal growth (part 1)
Lecture 46 - Results and discussion related to crystal growth (part 2)
Lecture 47 - Closure
Lecture 48 - Color schlieren technique
Lecture 49 - Videos
Lecture 50 - References for Schlieren and Shadowgraph
Lecture 51 - Problem for Schlieren and Shadowgraph
Lecture 52 - Supplementary Reading for Schlieren and Shadowgraph
Lecture 53 - Introduction to liquid crystal thermography
Lecture 54 - HSI model
Lecture 55 - Calibration of LCT
Lecture 56 - Measurement of heat transfer coefficient
Lecture 57 - Validation of LCT measurements
Lecture 58 - Videos for liquid crystal thermography
Lecture 59 - References for liquid crystal thermography
Lecture 60 - Problems for Liquid Crystal Thermography
Lecture 61 - Introduction, absorbtion techniques
Lecture 62 - Mie, Rayleigh
Lecture 63 - Raman spectroscopy, fluorescence
Lecture 64 - References for Scattering Techniques
Lecture 65 - Problems for Scattering Techniques
Lecture 66 - Summary Presentation
Lecture 67 - Experimental Study of Rayleigh-Benard Convection Using Interferometric Tomography
Lecture 68 - Experimental Study of Convection in Differentially Heated Fluid Layers Using Laser Interferometry
Lecture 69 - Optical Imaging And Conrol of Convection Around a KDP Crystal Growing From its Aqueous Solution
Lecture 70 - Sensitivity Of A Square Cylinder Wake To Orientation Oscillation In The Intermediate Reynolds Number Regime
Lecture 71 - Convection, Concentration and Surface Feature Analysis During Crystal Growth From Solution Using Shadowgraphy
Lecture 72 - Schlieren-Interferometric Study of Circular And Square Cylinder Wakes: Effect of Buoyancy And Oscillation

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