Все публикации

Lecture 29 l0:40:19

Lecture 29 l Ideal Diesel Cycle l Ideal Diesel Cycle vs Ideal Otto Cycle l Stirling Cycle l ICE

Lecture 28 l0:51:48

Lecture 28 l Gas Power CycleslAir Standard Cycles l Engine TerminologieslTwo and Four Strokes Engine

Lecture 27 l0:54:16

Lecture 27 l Specific Steam Consumption l Heat Rate l Regeneration Rankine Cycle l Efficiency l

Lecture 26 l0:48:45

Lecture 26 l Rankine Power Cycle Efficiency l Ideal & Actual l Losses in Actual Rankine Power Cycle

Lecture 25 l0:50:17

Lecture 25 l Thermodynamics Cycles l Steam Power Plant l Ideal Rankine Cycle

Lecture 24 l0:49:47

Lecture 24 l Entropy Summary l Abstract

Lecture 23 l0:41:29

Lecture 23 l Exergy Summary

Lecture 22 l0:49:33

Lecture 22 l Exergy of an Open System l Second Law Efficiencies l Relation of Second Law Efficiency

Lecture 21 l0:54:04

Lecture 21 l Exergy of a Finite Body l Quality of Energy l Exergy of Closed System l Concept

Lecture 20 l0:58:30

Lecture 20 l Loss in Available Energy l Increase in Unavailable Energy l Conceptual Question/Answer

Lecture 19 l0:44:52

Lecture 19 l Introduction to Exergy l Dead State l Sources l Available energy referred to a cycle

Lecture18l Entropy Generation0:59:21

Lecture18l Entropy Generation for Open System l Derivation l Rate Equation l Second Law Efficiencies

Lecture 17 l0:46:28

Lecture 17 l Entropy change for Incompressible Substances l Polytropic Process l Adiabatic Process

Lecture 16 l0:52:29

Lecture 16 l Thermodynamics Property Relations l T-s diagram l Entropy change for Ideal Gas lDiagram

Lecture 15 l0:55:18

Lecture 15 l Application of Entropy Principle l Maximum work obtainable from two finite bodies l

Lecture 14 l0:53:45

Lecture 14 l Entropy l Entropy Balance l Isentropic Process l Entropy Generation

Lecture 13 l0:49:55

Lecture 13 l Carnot Second Principle l Heat Engines l Refrigeration & Heat Pump l Important Topics

Lecture 12 l0:50:54

Lecture 12 l Reversed Carnot Heat Engine l Carnot Refrigeration Cycle l Carnot Principle l First

Lecture 11 l0:50:44

Lecture 11 l Kelvin Planck Statement & Clausius Statement l Perpetual Motion Machine of Third Kind l

Lecture 10 l0:55:29

Lecture 10 l Cyclic Heat Engine l Kelvin Planck Statement l COP of Refrigerator l COPHP and COPR

Lecture 9 l0:53:21

Lecture 9 l Non-Steady Flow Process l The Transient Process l Numerical Problems l Concept

Lecture 8 l0:45:09

Lecture 8 l Work & Heat transfer for open system l Isobaric l Isochoric l Isothermal l Adiabatic l

Lecture 7 I0:54:05

Lecture 7 I Steady Flow Energy Equation I Throttling Devices I Heat Exchanger I Numerical Problems

Lecture 6 |1:06:30

Lecture 6 | Nozzles & Diffusers | Turbines | Compressor | SFEE | Numerical Problems