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A finned tube hot water radiator with a fan blowing air over it is kept in rooms during winter. The major portion of the heat transfer from the radiation is due to
- a)Combined conduction and radiation
- b)Radiation to the surroundings
- c)Better conduction
- d)Convection to the air
Correct answer is option 'D'. Can you explain this answer?
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Verified Answer
A finned tube hot water radiator with a fan blowing air over it is kep...
Convection is a process in which thermal energy is transferred between solid and fluid flowing through it.
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A finned tube hot water radiator with a fan blowing air over it is kep...
Heat Transfer in Finned Tube Hot Water Radiator with Fan
Heat transfer is an essential process in various engineering applications, including heat exchangers. In the case of a finned tube hot water radiator with a fan, the heat transfer process involves convection to the air.
Convection Heat Transfer
Convection heat transfer is the process of heat transfer due to the movement of fluids. In the case of the finned tube hot water radiator, convection heat transfer occurs when the fan blows air over the radiator. The air absorbs heat from the hot water in the radiator through convection, which causes the air molecules to move faster and spread out.
Finned Tube Hot Water Radiator
A finned tube hot water radiator is a heat exchanger that transfers heat from hot water to air. The radiator consists of multiple tubes with fins attached to them. The fins increase the surface area of the tubes, which enhances the heat transfer process. When hot water flows through the tubes, it transfers heat to the fins, which, in turn, transfer heat to the surrounding air.
Factors Affecting Heat Transfer in Radiator
The major portion of heat transfer from the radiation is due to convection to the air. However, the following factors also affect the heat transfer process in the radiator:
- Combined conduction and radiation: Heat transfer can also occur through conduction and radiation. However, convection is the dominant mode of heat transfer in the radiator.
- Radiation to the surroundings: Radiation heat transfer occurs between objects with different temperatures. However, in the case of the radiator, the heat transfer due to radiation is minimal compared to convection.
- Better conduction: Conduction heat transfer occurs when there is a temperature difference between two objects in contact. In a finned tube hot water radiator, the fins increase the surface area, which enhances conduction heat transfer.
Conclusion
In conclusion, the major portion of heat transfer in a finned tube hot water radiator with a fan is due to convection to the air. Although other factors such as conduction and radiation contribute to heat transfer, convection is the dominant mode of heat transfer in the radiator.
Heat transfer is an essential process in various engineering applications, including heat exchangers. In the case of a finned tube hot water radiator with a fan, the heat transfer process involves convection to the air.
Convection Heat Transfer
Convection heat transfer is the process of heat transfer due to the movement of fluids. In the case of the finned tube hot water radiator, convection heat transfer occurs when the fan blows air over the radiator. The air absorbs heat from the hot water in the radiator through convection, which causes the air molecules to move faster and spread out.
Finned Tube Hot Water Radiator
A finned tube hot water radiator is a heat exchanger that transfers heat from hot water to air. The radiator consists of multiple tubes with fins attached to them. The fins increase the surface area of the tubes, which enhances the heat transfer process. When hot water flows through the tubes, it transfers heat to the fins, which, in turn, transfer heat to the surrounding air.
Factors Affecting Heat Transfer in Radiator
The major portion of heat transfer from the radiation is due to convection to the air. However, the following factors also affect the heat transfer process in the radiator:
- Combined conduction and radiation: Heat transfer can also occur through conduction and radiation. However, convection is the dominant mode of heat transfer in the radiator.
- Radiation to the surroundings: Radiation heat transfer occurs between objects with different temperatures. However, in the case of the radiator, the heat transfer due to radiation is minimal compared to convection.
- Better conduction: Conduction heat transfer occurs when there is a temperature difference between two objects in contact. In a finned tube hot water radiator, the fins increase the surface area, which enhances conduction heat transfer.
Conclusion
In conclusion, the major portion of heat transfer in a finned tube hot water radiator with a fan is due to convection to the air. Although other factors such as conduction and radiation contribute to heat transfer, convection is the dominant mode of heat transfer in the radiator.
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A finned tube hot water radiator with a fan blowing air over it is kept in rooms during winter. The major portion of the heat transfer from the radiation is due toa)Combined conduction and radiationb)Radiation to the surroundingsc)Better conductiond)Convection to the airCorrect answer is option 'D'. Can you explain this answer?
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A finned tube hot water radiator with a fan blowing air over it is kept in rooms during winter. The major portion of the heat transfer from the radiation is due toa)Combined conduction and radiationb)Radiation to the surroundingsc)Better conductiond)Convection to the airCorrect answer is option 'D'. Can you explain this answer? for Chemical Engineering 2024 is part of Chemical Engineering preparation. The Question and answers have been prepared according to the Chemical Engineering exam syllabus. Information about A finned tube hot water radiator with a fan blowing air over it is kept in rooms during winter. The major portion of the heat transfer from the radiation is due toa)Combined conduction and radiationb)Radiation to the surroundingsc)Better conductiond)Convection to the airCorrect answer is option 'D'. Can you explain this answer? covers all topics & solutions for Chemical Engineering 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for A finned tube hot water radiator with a fan blowing air over it is kept in rooms during winter. The major portion of the heat transfer from the radiation is due toa)Combined conduction and radiationb)Radiation to the surroundingsc)Better conductiond)Convection to the airCorrect answer is option 'D'. Can you explain this answer?.
A finned tube hot water radiator with a fan blowing air over it is kept in rooms during winter. The major portion of the heat transfer from the radiation is due toa)Combined conduction and radiationb)Radiation to the surroundingsc)Better conductiond)Convection to the airCorrect answer is option 'D'. Can you explain this answer? for Chemical Engineering 2024 is part of Chemical Engineering preparation. The Question and answers have been prepared according to the Chemical Engineering exam syllabus. Information about A finned tube hot water radiator with a fan blowing air over it is kept in rooms during winter. The major portion of the heat transfer from the radiation is due toa)Combined conduction and radiationb)Radiation to the surroundingsc)Better conductiond)Convection to the airCorrect answer is option 'D'. Can you explain this answer? covers all topics & solutions for Chemical Engineering 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for A finned tube hot water radiator with a fan blowing air over it is kept in rooms during winter. The major portion of the heat transfer from the radiation is due toa)Combined conduction and radiationb)Radiation to the surroundingsc)Better conductiond)Convection to the airCorrect answer is option 'D'. Can you explain this answer?.
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A finned tube hot water radiator with a fan blowing air over it is kept in rooms during winter. The major portion of the heat transfer from the radiation is due toa)Combined conduction and radiationb)Radiation to the surroundingsc)Better conductiond)Convection to the airCorrect answer is option 'D'. Can you explain this answer?, a detailed solution for A finned tube hot water radiator with a fan blowing air over it is kept in rooms during winter. The major portion of the heat transfer from the radiation is due toa)Combined conduction and radiationb)Radiation to the surroundingsc)Better conductiond)Convection to the airCorrect answer is option 'D'. Can you explain this answer? has been provided alongside types of A finned tube hot water radiator with a fan blowing air over it is kept in rooms during winter. The major portion of the heat transfer from the radiation is due toa)Combined conduction and radiationb)Radiation to the surroundingsc)Better conductiond)Convection to the airCorrect answer is option 'D'. Can you explain this answer? theory, EduRev gives you an
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