One-Dimensional Modeling of Triple-Pass Concentric Tube Heat Exchanger in the Parabolic Trough Solar Air Collector

Phu, Nguyen Minh; Ngo, Tu Thien

doi:10.5772/intechopen.100008

Heat Exchangers 2022

DOI: 10.5772/intechopen.100008

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One-Dimensional Modeling of Triple-Pass Concentric Tube Heat Exchanger in the Parabolic Trough Solar Air Collector

Nguyen Minh Phu¹,

Tu Thien Ngo²

Abstract: The parabolic trough solar collector has a very high absorber tube temperature due to the concentration of solar radiation. The high temperature leads to large heat loss to the environment which reduces efficiency of the parabolic trough collector. The heat loss reduction can be obtained by adopting a multi-pass fluid flow arrangement. In this chapter, airflow travels in three passes of the receiver to absorb heat from the glass covers and absorber tube to decrease surface temperatures. 1D mathematical model i… Show more

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2023

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Heat Transfer in Double-Pass Solar Air Heater: Mathematical Models and Solution Strategy

Hap¹,

Phu²

2023

Heat Transfer - Fundamentals, Enhancement and Applications

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Multipass air collectors are commonly used because they produce higher air temperature than that of a single-pass one due to reduced top heat loss. In this chapter, two mathematical models of convection and radiant heat transfer in a double-pass solar air heater were presented. They included an average temperature model and a model of temperature variation along the airflow direction. The method for solving these two mathematical models was reported. The average temperature model was solved by dealing with a system of linear algebraic equations, whereas the other model was derived as ordinary differential equations and solved by a numerical integration. The calculation programs were developed in EES software. The computation time of temperature variation model was about 0.9 s, but that of the average temperature model was negligible. Outcomes from two solutions were almost identical. The largest error of the outlet air temperature was 2.1%. The models are applicable to multipass collectors with or without recycling airflow.

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Heat Transfer in Double-Pass Solar Air Heater: Mathematical Models and Solution Strategy

Hap¹,

Phu²

2023

Heat Transfer - Fundamentals, Enhancement and Applications

Self Cite

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One-Dimensional Modeling of Triple-Pass Concentric Tube Heat Exchanger in the Parabolic Trough Solar Air Collector

Cited by 1 publication

References 19 publications

Heat Transfer in Double-Pass Solar Air Heater: Mathematical Models and Solution Strategy

Heat Transfer in Double-Pass Solar Air Heater: Mathematical Models and Solution Strategy

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