Difference between revisions of "Ageing in heat integration"

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Back to [[Subsection DA food|EFFICENCY FINDER OF FOOD INDUSTRY]]
 
Back to [[Subsection DA food|EFFICENCY FINDER OF FOOD INDUSTRY]]
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===GENERAL INFORMATION===
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Most commons are shell-and-tubes or plate heat-exchangers.
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===TECHNOLOGY DESCRIPTION, TECHNIQUES AND METHODS===
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====Shell and tube heat exchangers====
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The shell and tube heat exchangers is configured as a bundle of tubes inside a shell. Specific forms differ according to the number of shell and tubes passes. Baffles are installed inside the shell to increase the convection coefficient and improve the heat transfer between fluids. The tubes are supported by the baffles and this way vibration due to the fluid circulation is reduced.
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[[File:Shell_and_tubes_heat_exchanger.jpg]]
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Illustration 1: Shell and tubes heat exchanger [1]
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The shell construction allows this heat exchanger to be suited for higher-pressure applications. One fluids runs along the tubes and the other fluid runs over the tubes, conducted by the baffles and increasing the heat convection. The cross section of the inner tubes is rounded and the geometrical construction characteristics depends on the requirements of the heat exchange (pressure, temperature, flow rate, fluid, etc.)
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Some configurations of the shell and tube heat exchanger are shown below:
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[[File:Shell_and_tubes_heat_exchanger_2.jpg]]
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Illustration 2: Shell and tubes heat exchanger [2]
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[[File:Shell_and_tubes_heat_exchanger_3.jpg]]
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Illustration 3: Shell and tubes heat exchanger [3]
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====Plate Heat Exchangers====
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Plate heat exchangers are systems that separates two air flows with solid elements (plates). The heat exchange occurs through the plates, which can be built with fins to maximize the contact surface and increase the exchange efficiency. Depending on the flows direction the system will be parallel flows or countercurrent flows. The plate heat exchanger efficiency is around 75% [4].
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[[File:Plate_and_Plate-Fin_heat_exchangers.jpg]]
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Illustration 1: Plate and Plate-Fin heat exchangers [5]
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===CHANGES IN PROCESS===
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The installation of a heat exchanger does not implies a change in the process, because the main aim of the measure is to harness wasted fluid (and wasted energy) and pre-heat or pre-cool an incoming fluid to the process. Therefore, process can be kept identical, and the heat exchangers affects the fluid in an early stage and when it already has came out from the process.
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===ENERGY SAVINGS POTENTIALS===
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===CHANGES IN THE ENERGY DISTRIBUTION SYSTEM===
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===REFERENCES===
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[1] Fundamentals of heat and mass transfer. Incropera, DeWitt, Bergman, Lavine
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[2] Fundamentals of heat and mass transfer. Incropera, DeWitt, Bergman, Lavine
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[3] Heat exchanger handbook. 2on edition. KuppanThulukkanam
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[4] Fundamentals of Heating Systems. ASHRAE
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[5] Fundamentals of Heating Systems. ASHRAE
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*Case studies
 
*Case studies
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**[[Media: RudolfÖlz.pdf| Rudolf Ölz]]
 
**[[Media: RudolfÖlz.pdf| Rudolf Ölz]]
 
**[[Media: ToniBräu.pdf | Toni Bräu ]]
 
**[[Media: ToniBräu.pdf | Toni Bräu ]]
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Back to [[Subsection DA food|EFFICENCY FINDER OF FOOD INDUSTRY]]
 
Back to [[Subsection DA food|EFFICENCY FINDER OF FOOD INDUSTRY]]

Latest revision as of 12:09, 17 March 2015

Back to EFFICENCY FINDER OF FOOD INDUSTRY


GENERAL INFORMATION

Most commons are shell-and-tubes or plate heat-exchangers.


TECHNOLOGY DESCRIPTION, TECHNIQUES AND METHODS

Shell and tube heat exchangers

The shell and tube heat exchangers is configured as a bundle of tubes inside a shell. Specific forms differ according to the number of shell and tubes passes. Baffles are installed inside the shell to increase the convection coefficient and improve the heat transfer between fluids. The tubes are supported by the baffles and this way vibration due to the fluid circulation is reduced.


Shell and tubes heat exchanger.jpg

Illustration 1: Shell and tubes heat exchanger [1]


The shell construction allows this heat exchanger to be suited for higher-pressure applications. One fluids runs along the tubes and the other fluid runs over the tubes, conducted by the baffles and increasing the heat convection. The cross section of the inner tubes is rounded and the geometrical construction characteristics depends on the requirements of the heat exchange (pressure, temperature, flow rate, fluid, etc.)

Some configurations of the shell and tube heat exchanger are shown below:

Shell and tubes heat exchanger 2.jpg

Illustration 2: Shell and tubes heat exchanger [2]


Shell and tubes heat exchanger 3.jpg

Illustration 3: Shell and tubes heat exchanger [3]


Plate Heat Exchangers

Plate heat exchangers are systems that separates two air flows with solid elements (plates). The heat exchange occurs through the plates, which can be built with fins to maximize the contact surface and increase the exchange efficiency. Depending on the flows direction the system will be parallel flows or countercurrent flows. The plate heat exchanger efficiency is around 75% [4].


Plate and Plate-Fin heat exchangers.jpg

Illustration 1: Plate and Plate-Fin heat exchangers [5]



CHANGES IN PROCESS

The installation of a heat exchanger does not implies a change in the process, because the main aim of the measure is to harness wasted fluid (and wasted energy) and pre-heat or pre-cool an incoming fluid to the process. Therefore, process can be kept identical, and the heat exchangers affects the fluid in an early stage and when it already has came out from the process.


ENERGY SAVINGS POTENTIALS

CHANGES IN THE ENERGY DISTRIBUTION SYSTEM

REFERENCES

[1] Fundamentals of heat and mass transfer. Incropera, DeWitt, Bergman, Lavine

[2] Fundamentals of heat and mass transfer. Incropera, DeWitt, Bergman, Lavine

[3] Heat exchanger handbook. 2on edition. KuppanThulukkanam

[4] Fundamentals of Heating Systems. ASHRAE

[5] Fundamentals of Heating Systems. ASHRAE



Back to EFFICENCY FINDER OF FOOD INDUSTRY