OTTO CYCLE & Internal Combustion Engines in 10 Minutes!
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- Опубліковано 16 лип 2024
- Gasoline Engine
Internal Combustion Engine
Four Stroke Engine
Air Fuel Mixture
Otto Cycle
Exhaust Valve
Intake Valve
Spark Plug
Links Mentioned During the Lecture:
Brayton Cycle: • Ideal BRAYTON CYCLE Ex...
Flow Work and Energy Conservation in Open Systems: • FLOW WORK & Energy Con...
Reference Entropy and Specific Heats: • REFERENCE ENTROPY and ...
0:00 Background
0:24 Internal Combustion Engine Stages
2:15 The Ideal Otto Cycle
2:48 Assumptions for Ideality
3:37 Pv-Diagram for Otto Cycles
3:52 Ts-Diagram for Otto Cycles
4:22 TDC and BDC
4:45 Compression Ratio
4:55 Energy Conservation
6:59 Isentropic Relationships
7:37 Otto Cycle Example
8:15 Solution
Example 1: • Helium OTTO CYCLE Pres...
Example 2: • Otto Cycle THERMAL EFF...
Example 3: • Otto Cycle MEAN EFFECT...
Previous Lecture:
27. Intercooling, Reheating, and Regenerators:
• Regeneration, Intercoo...
Next Lecture:
29. Standard Diesel Cycle
• Thermodynamics DIESEL ...
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Other Thermodynamics Lectures:
1. Thermodynamics Intro and Units Review: • THERMODYNAMICS Basic U...
2. Zeroth Law of Thermodynamics: • ZEROTH LAW of Thermody...
3. Closed vs. Open Systems & Intensive vs. Extensive Properties: • CONTROL VOLUMES - Clos...
4. First Law and Energy Types: • Energy Conservation Eq...
5. Efficiency in Thermodynamic Systems: • EFFICIENCY of Thermody...
6. Five Regions of T-v Diagrams: • T-v Diagrams and PROPE...
7. Interpolating and Quality Derivation: • INTERPOLATION for Ther...
8. Enthalpy and Internal Energy: • ENTHALPY and INTERNAL ...
9. Compressed Liquid Properties: • Thermodynamics COMPRES...
10. Ideal Gas and Compressibility Factor: • Ideal Gas Equation and...
11. Specific Heats: • Thermodynamics SPECIFI...
12. Specific Heat Relationships of Ideal Gases and Incompressible Substances: • Specific Heat and Ener...
13. Polytropic Process Work: • Work Expressions for P...
14. Mass and Volumetric Flow Rate: • Volumetric and MASS FL...
15. Flow Work and Energy Conservation in Open Systems: • FLOW WORK & Energy Con...
16. Pipe Flow, Nozzles, Diffusers, and Throttling Devices: • Pipe Flow, Nozzles, Di...
17. Turbines, Compressors, and Pumps: • Thermodynamics - Turbi...
18. Mixing Chambers and Heat Exchangers: • Heat Exchangers and Mi...
19. Transient Systems:
20. Second Law Intro and Power Cycles: • 2nd Law Intro and POWE...
21. Refrigerators and Heat Pumps: • REFRIGERATION and Heat...
22. Carnot Cycles and Reversible Processes: • Reversible Processes a...
23. Entropy as a Thermodynamic Property: • Thermodynamics - ENTRO...
24. Reference Entropy and Specific Heats: • REFERENCE ENTROPY and ...
25. Isentropic Efficiency: • Turbines, Compressors,...
26. Brayton Cycle: • Ideal BRAYTON CYCLE Ex...
27. Intercooling, Reheating, and Regenerators: • Regeneration, Intercoo...
28. Otto Cycle: • OTTO CYCLE & Internal ...
29. Standard Diesel Cycle: • Thermodynamics DIESEL ...
30. Rankine Cycle:
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Other Engineering Courses (Playlists):
/ lessboringlectures
Statics: • Statics: Engineering M...
Mechanics of Materials: • Mechanics of Materials
Machine Design: • Mechanical Engineering...
SolidWorks (CAD): • SolidWorks (CAD)
Fluid Mechanics: • Fluid Mechanics
CORRECTIONS: Starting at 9:16, the values should be u2 = 514.497 kJ/kg, u3 = 1234.5 kJ/kg, and T3 = 1531.45 K.
Correction: At 5:44, the TDC and BDC are reversed in your P-V diagram. You reversed it from the previous slide.
I am writing in 2days and Ihve faithin these videos
I just found your channel the other day. This is fantastic content! Thank you for providing less boring lectures. You are a GOAT
Got one of those. Exhaust sounds different! Gets bloody good KMPL!
excellent content
Thank you so much !!!!
Nice one, great to watch your video, love from India, which app are you using for this
Just in time.
whats better for otto cycle use PV=nRT or using tables?Because if we want to calculate MEP we need V1