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Thermodynamics II

Offered By: Cal Poly Pomona via YouTube

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Thermodynamics Courses Thermodynamic Cycles Courses

Course Description

Overview

Dive deep into advanced thermodynamic concepts and applications in this comprehensive course from Cal Poly Pomona. Begin with a thorough review of fundamental principles, including variable specific heats and isentropic efficiency. Explore various thermodynamic cycles, such as Otto, Diesel, Stirling, Ericsson, Brayton, and Rankine, analyzing their ideal and non-ideal forms. Investigate gas power cycles, vapor-compression refrigeration, and absorption refrigeration systems. Study Maxwell relations, the Clapeyron equation, and other crucial thermodynamic property relationships. Examine ideal gas mixtures, humidity, and psychrometrics, including the use of psychrometric charts for air conditioning processes. Delve into combustion principles, including stoichiometric combustion and combustion with excess air. Benefit from midterm reviews and a final course overview to solidify your understanding of these advanced thermodynamic concepts.

Syllabus

Thermodynamics: Course overview, Review of thermodynamics fundamentals (26 of 51).
Thermodynamics: Review of fundamentals, variable specific heats, isentropic efficiency (27 of 51).
Thermodynamics: Review of thermodynamic cycles, Gas power cycles, Otto Cycle (28 of 51).
Thermodynamics: Otto cycle, Diesel cycle (29 of 51).
Thermodynamics: Diesel cycle (30 of 51).
Thermodynamics: Stirling and Ericsson cycles, Ideal and non-ideal simple Brayton cycle (31 of 51).
Thermodynamics : Brayton cycle with regeneration, Brayton cycle with intercooling (32 of 51).
Thermodynamics: Brayton cycle with intercooling and reheating, Ideal simple Rankine cycle (33 of 51).
Thermodynamics : Ideal and non-ideal Rankine cycle, Rankine cycle with reheating (34 of 51).
Thermodynamics : Rankine cycle with reheating, Feedwater heaters (35 of 51).
Thermodynamics: Rankine cycle with open feedwater heater, Closed feedwater heater (36 of 51).
Thermodynamics: Closed feedwater heaters, Vapor-compression refrigeration cycle (37 of 51).
Thermodynamics: Non-ideal vapor-compression cycle, absorption refrigeration cycle (38 of 51).
Thermodynamics: Review of midterm exam, Maxwell relations (39 of 51).
Thermodynamics: Clapeyron equation, Various thermodynamic property relationships (40 of 51).
Thermodynamics: Other thermodynamic property relationships, Ideal gases (41 of 51).
Thermodynamics: Overview of ideal gas mixtures, Amagat's and Dalton's laws (42 of 51).
Thermodynamics: Properties of ideal gas mixtures, Dry air/water vapor mixtures (43 of 51).
Thermodynamics: Humidity, Enthalpy of air/water vapor mixtures, Dew point (44 of 51).
Thermodynamics: Dew point, Adiabatic saturation, Psychrometer (45 of 51).
Thermodynamics: Psychrometric chart, Air conditioning processes (46 of 51).
Thermodynamics: Midterm review, Heating with humidification, Dehumidification by cooling (47 of 51).
Thermodynamics: Dehumidification by cooling, Evaporative cooling, Cooling towers (48 of 51).
Thermodynamics: Wet cooling towers, Stoichiometric combustion (49 of 51).
Thermodynamics: Combustion with excess air, dew point of combustion products (50 of 51).
Thermodynamics: Combustion with excess air review, Course review (51 of 51).
Thermodynamics: Interview with Professor David Miller.


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