Thermodynamics

Fundamental of Thermodynamics & Heat Transfer Bachelor of Engineering(BE) videos According to syllabus of Institute of Engineering(IoE), Tribhuwan University (TU)

Intermediate 5 (5 Reviews ) 196 Students enrolled
Created by Mero School Last updated Mon, 17-May-2021 Nepali
What will i learn?
  • After Completion of this Course, Students will get complete knowledge of Fundamentals of Thermodynamics and Heat Transfer, based on syllabus of IoE and will be able to secure good score in IoE exam.

Curriculum for this course
62 Lessons 19:02:03 H:M:S
1. Introduction to Cource
1 Lessons 00:03:17 H:M:S
  • Introduction to Fundamentals of Thermodynamics and Heat Transfer 00:03:17 Free
  • 1.Introduction to thermodynamics 00:25:30 Free
  • 2.Numerical 1 (2072 kartik) Numerical 2 (2072 ashwin) 00:17:52 Free
  • 3.Numerical 3 Numerical 4 (2074 chaitra) 00:25:29
  • 4.Numerical 5 (2072 magh) 00:03:51
  • 1.Energy and Energy Transfer 00:26:33
  • 2.Numerical briefing ( P-V & T-V diagram of various piston-cylinder arrangement) 00:20:16
  • 3.Numerical 1 00:15:26
  • 4.Numerical 2 00:21:29
  • 5.Numerical (2075 Ashwin) 00:31:57
  • 1.Properties Of Common Substance. 00:42:00
  • 2.Numerical (Table Describtion) 00:19:06
  • 3.Numerical (how to obtain the value from table) 00:26:30
  • 4.Numerical 1 (2074 Ashwin) 00:27:20
  • 5.Numerical 2 (2072 kartik) 00:16:38
  • 6.Numerical 3 (2072 chaitra) 00:19:05
  • 7.Numerical 4 (2074 chaitra) 00:34:30
  • 1.First Law of Thermodynamics for control mass and for a cyclic process and its application 00:17:06
  • 2.First law of thermodynamics for control volume (mass and energy conservation equation) 00:19:11
  • 3.Control volume Analysis (Steady state and unsteady state) 00:20:32
  • 4.Control volume application (steady and unsteady state work or flow) 00:17:46
  • 5.Other statements of the first law 00:02:04
  • 6.Numerical 1 (2074 chaitra)(piston-cylinder) 00:17:38
  • 7.Numerical 2 (2074 Ashwin)(piston-cylinder) 00:34:56
  • 8.Numerical 3 -compressor (2075 ashwin) Numerical 4 -turbine(2071 chaitra) 00:25:30
  • 9.Numerical 5 -turbine (2069 ashad) 00:14:46
  • 10.Numerical 6 -nozzle (2073 chaitra) 00:22:33
  • 1.Necessity-Second law of thermodynamics (isolated system)-Reversible & Irreversible processes w.r.t.entropy 00:17:42
  • 2.Entropy Relation for an ideal gases and incompressible substance 00:09:26
  • 3.control mass formulation -control volume formulation of second law 00:15:25
  • 4.Isentropic process for an ideal gas and incompressible substances 00:10:21
  • 5.Carnot cycle - Heat Engine 00:14:16
  • 6.Heat pump - Refrigerator 00:15:59
  • 7.Kelvin planck and clausius statements of second law 00:08:16
  • 8. Numerical 1-entropy (2075 Ashwin) 00:12:44
  • 9.Numerical 2 -Heat engine (2073 chaitra) 00:08:41
  • 10.Numerical 3 -Heat pump (2072 chaitra) 00:08:51
  • 11.Numerical 4 -Heat pump and Refrigerator (2072 kartik) 00:11:55
  • 1.Classification of cycles 00:06:49
  • 2.Brayton cycle theory 00:20:30
  • 3.Brayton cycle Numerical 1 00:20:14
  • 4.Brayton cycle Numerical 2 (2072 magh) 00:13:19
  • 5.Rankine cycle theory 00:21:00
  • 6.Rankine cycle Numerical 1 (2072 ashwin) Numerical 2 (2069 chaitra) 00:28:34
  • 7.Rankine cycle Numerical 3 (2069 ashad) 00:18:44
  • 8. Otto cycle theory 00:21:20
  • 9. Otto cycle Numerical 1 (2074 chaitra) 00:20:51
  • 10.Otto cycle Numerical 2 (2068 chaitra) 00:17:39
  • 11.Diesel cycle Theory 00:23:14
  • 12.Diesel cycle Numerical 1 (2072 chaitra) 00:21:06
  • 13.Diesel cycle Numerical 2 (2074 bhadra) 00:16:52
  • 14.Vapor compression Refrigeration cycle Theory 00:08:04
  • 15.Vapor compression Refrigeration cycle Numerical 1 00:22:01
  • 1.Modes of heat transfer - Conduction heat transfer through plane wall and hollow cylinder 00:14:06
  • 2.Conduction heat transfer through composite plane wall and composite cylinder 00:13:11
  • 3.Thermal resistance - Heat transfer through composite plane wall and composite cylinder using Electrical Analogy 00:25:56
  • 4.Combined Heat Transfer and Overall Heat Transfer Coefficient Calculation for Plane wall (with or without electrical Analogy) 00:21:32
  • 5.Combined Heat Transfer and Overall Heat Transfer Coefficient Calculation for tube (with or without electrical Analogy) 00:21:28
  • 6.Convection and Radiation 00:03:25
  • 7.Numerical 1 - plane Object Related (2074 chaitra) 00:30:33
  • 8.Numerical 2 - Cylindrical Object Related (2074 Ashwin) 00:22:06
  • 9. Numerical 3 - Radiation Related (2075 Ashwin) 00:07:02
  • Requirements
    • Students are required to have knowledge of Fundamentals of Thermodynamics and Heat Transfer, based on syllabus of IoE .
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    Description

    The videos herein are strictly based on syllabus of Institute of Engineering Tribhuvan University, Nepal promoting e-Learning in Nepal and are made with intention to provide guidance to the Bachelor in Engineering(BE) appearing students, for securing good results. The course tries to cover all the basics of Thermodynamics, Energy transfer and Properties of Common Substances. This course also comprises with First Law and Second Law of Thermodynamics along with Thermodynamic Cycles and Heat transfer with solution of most frequently asked questions in final exam of BE with fundamental theories and numericals. We strongly believe that, viewers will be benefited from these videos and the thrist of curiosity of viewers will be quenched! Feedbacks and suggestion to improve are always welcome and highly appreciated! 

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    • 62 Lessons
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