Litcius/Paper detail

Experimental and Numerical Study of Heat Pipe Heat Exchanger with Individually Finned Heat Pipes

Grzegorz Górecki, Marcin Łęcki, Artur Gutkowski, Dariusz Andrzejewski, Bartosz Warwas, Michał Jan Kowalczyk, Artur Romaniak

2021Energies23 citationsDOIOpen Access PDF

Abstract

The present study is devoted to the modeling, design, and experimental study of a heat pipe heat exchanger utilized as a recuperator in small air conditioning systems (airflow ≈ 300–500 m3/h), comprised of individually finned heat pipes. A thermal heat pipe heat exchanger model was developed, based on available correlations. Based on the previous experimental works of authors, refrigerant R404A was recognized as the best working fluid with a 20% heat pipe filling ratio. An engineering analysis of parametric calculations performed with the aid of the computational model concluded 20 rows of finned heat pipes in the staggered arrangement as a guarantee of stable heat exchanger effectiveness ≈ 60%. The optimization of the overall cost function by the “brute-force” method has backed up the choice of the best heat exchanger parameters. The 0.05 m traversal (finned pipes in contact with each other) and 0.062 m longitudinal distance were optimized to maximize effectiveness (up to 66%) and minimize pressure drop (less than 150 Pa). The designed heat exchanger was constructed and tested on the experimental rig. The experimental data yielded a good level of agreement with the model—relative difference within 10%.

Topics & Concepts

RecuperatorPlate fin heat exchangerHeat exchangerMicro heat exchangerPlate heat exchangerHeat pipeHeat spreaderMaterials scienceCondenser (optics)Mechanical engineeringRegenerative heat exchangerMoving bed heat exchangerThermodynamicsMechanicsHeat transferEngineeringOpticsPhysicsLight sourceHeat Transfer and OptimizationHeat Transfer and Boiling StudiesRefrigeration and Air Conditioning Technologies