Media Storage Type : 32 GB USB Stick
NPTEL Subject Matter Expert : Prof. V. Vasudeva Rao
NPTEL Co-ordinating Institute : IIT Kharagpur
NPTEL Lecture Count : 60
NPTEL Course Size : 12 GB
NPTEL PDF Text Transcription : Available and Included
NPTEL Subtitle Transcription : Available and Included (SRT)
Lecture Titles:
Lecture 1 - Introduction to Vacuum, Natural Vacuum
Lecture 2 - History of Vacuum Technology
Lecture 3 - Kinetic Theory of Gases, Physical Parameters of Vacuum and Regions of Vacuum
Lecture 4 - Vacuum Process Applications - I
Lecture 5 - Vacuum Process Applications - II
Lecture 6 - Pumping Speed and Throughput Concepts
Lecture 7 - Rotary Vacuum Pump
Lecture 8 - Diffusion Pump
Lecture 9 - Roots Vacuum Pump
Lecture 10 - Rotary Piston Pump
Lecture 11 - Liquid Ring Pump
Lecture 12 - Steam Jet Ejector
Lecture 13 - Diaphragm Pump
Lecture 14 - Claw Pump
Lecture 15 - Screw Pump
Lecture 16 - Scroll Pump, Sorption Concepts and Pumps
Lecture 17 - Ion Pumping-Sputter Ion Pump
Lecture 18 - Turbomolecular Pump
Lecture 19 - Cryopumps
Lecture 20 - Selection Criteria of Vacuum Pumps
Lecture 21 - Primary vs Secondary Gauges, U Tube/McLeod gauges (Primary)
Lecture 22 - Bourdon/Capacitance Gauges (Mechanical Deflection)
Lecture 23 - Thermo-couple/Pirani gauges (Thermal Conductivity)
Lecture 24 - Spinning Rotor/Ionization/Bayard Alpert Gauges
Lecture 25 - Penning/ Inverted Magnetron gauges, Gauge calibration
Lecture 26 - Vacuum Materials (Metals, Glasses, Ceramics, Greases and Oils)
Lecture 27 - Vacuum Components (Flanges, Couplings, Seals, Valves)
Lecture 28 - Vacuum Chamber Design
Lecture 29 - Fabrication Techniques for Vacuum Systems
Lecture 30 - Testing of Vacuum Systems for Mechanical Failures, Gas Leaks and Outgassing
Lecture 31 - Gas Flow at Low Pressures, Conductance and Effective Pumping Speed Concepts
Lecture 32 - Conductance Calculations in Viscous Flow Region
Lecture 33 - Molecular Flow
Lecture 34 - Transition and Choked Flows
Lecture 35 - Conductance and Pump Down Calculations in Vacuum Systems
Lecture 36 - Design Aspects of Vacuum Systems for Different Applications - Part I
Lecture 37 - Design Aspects of Vacuum Systems for Different Applications - Part II
Lecture 38 - Design of a Vacuum Furnace for Metallurgical Processing
Lecture 39 - Leak Detection in Vacuum Systems
Lecture 40 - Magnetic Deflection Leak Detector and Quadrupole Residual Gas Analyzer
Lecture 41 - Vacuum Processes in Chemical and Pharmaceutical Industries
Lecture 42 - Vacuum for Food Processing
Lecture 43 - Vacuum Technology in the Packaging Industry
Lecture 44 - Vacuum in Wood Industry
Lecture 45 - Vacuum Systems for Medical and Dental Applications
Lecture 46 - Vacuum for Desalination of Sea Water and Treatment of Waste Water
Lecture 47 - Vacuum Technology for Power Sector
Lecture 48 - Vacuum Technology In Oil and Gas Industries
Lecture 49 - Vacuum Technology in LNG industry
Lecture 50 - Vacuum Technology for Cryogenic Applications
Lecture 51 - Vacuum Technology in High Speed Transportation (Hyperloop and Maglev)
Lecture 52 - Vacuum technology for Metallurgical applications
Lecture 53 - Vacuum Technology for Analytical Instruments
Lecture 54 - Vacuum based coating units for thin film deposition
Lecture 55 - Vacuum for solar energy (Thermal and PV)
Lecture 56 - Vacuum Technology for semiconductor chip manufacturing
Lecture 57 - Vacuum Technology for Display Systems
Lecture 58 - Vacuum Technology for Nuclear Applications - Part I
Lecture 59 - Vacuum Technology for Nuclear Applications - Part II
Lecture 60 - Vacuum technology for Space Applications