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Boiling Heat Transfer And Two-Phase Flow by L S Tong Book Details
| Book Name | Boiling Heat Transfer And Two-Phase Flow |
| Author | L S Tong |
| Category | Mechanical Engineering Books, Education Books |
| Book Language | English |
| Publisher | Taylor & Francis Publishers |
| Pages | 572 |
| ISBN | 1560324856 |
| Country | India |
| Book Size | 10 MB |
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About Boiling Heat Transfer And Two-Phase Flow by L S Tong Book
Boiling heat transfer and two-phase flow are critical topics in the study of heat transfer, particularly in situations where a liquid changes phase to a vapor (boiling) and both liquid and vapor phases coexist (two-phase flow). These phenomena are encountered in a wide range of engineering applications, including power generation, refrigeration, electronics cooling, and more. Understanding boiling and two-phase flow is essential for designing efficient and safe heat transfer systems.
Here are some key aspects and concepts related to boiling heat transfer and two-phase flow:
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Boiling Phenomena: Boiling occurs when a liquid is heated to its boiling point and undergoes a phase change to vapor. It can happen in different modes: pool boiling (boiling on a surface immersed in a liquid), flow boiling (boiling within a flowing fluid), and nucleate boiling (formation of vapor bubbles on a surface).
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Heat Flux and Critical Heat Flux: The heat flux is the rate at which heat is transferred per unit area. Critical heat flux (CHF) is the point at which the heat transfer becomes limited due to a significant increase in the vapor production. This is a critical consideration to prevent overheating and damage.
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Nucleate Boiling: Nucleate boiling involves the formation and departure of tiny vapor bubbles on a heated surface. These bubbles provide enhanced heat transfer due to the agitation and increased surface area.
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Film Boiling: As boiling intensifies, a continuous vapor film can form on the heated surface, reducing direct contact between the surface and the liquid. This can lead to reduced heat transfer coefficients and potentially dangerous situations.
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Two-Phase Flow: Two-phase flow occurs when both liquid and vapor phases are present. This could be due to boiling, evaporation, or condensation. Understanding the flow patterns, pressure drops, and heat transfer in two-phase flow is crucial for many applications.
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Flow Patterns: In two-phase flow, different flow patterns can emerge, such as bubbly flow, slug flow, annular flow, and mist flow. Each pattern has unique characteristics that impact heat transfer and fluid dynamics.
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Pressure Drop: Two-phase flow systems often exhibit pressure drops due to the friction between phases and the changes in flow patterns. Managing pressure drop is essential for system efficiency.
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Boiling Crisis and Dryout: Dryout occurs when the liquid supply to a boiling surface becomes insufficient, leading to a sudden reduction in heat transfer. This can result in surface overheating and potential equipment damage.
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Heat Transfer Enhancement: Researchers and engineers often explore ways to enhance boiling heat transfer, such as by using enhanced surfaces, additives, or changing fluid properties.
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Applications: Boiling and two-phase flow are encountered in various applications, including nuclear reactors, steam generators, heat exchangers, and cooling systems.
Understanding the complex interactions between fluid dynamics, heat transfer, and phase change is essential for effectively designing and operating systems that involve boiling heat transfer and two-phase flow. Researchers and engineers use experimental, analytical, and computational methods to model and optimize these phenomena for various applications.
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