VENTILATION SYSTEM WITH GROUND HEAT EXCHANGER

This paper describes the analysis of the possibility of use of the direct-contact air, gravel, ground heat exchanger (acronym GAHE), patented at the Wroclaw University of Science and Technology, as a means of improving microclimate parameters in dairy cows’ barns. Different possibilities of introducing GAHE to the standard mechanical ventilation system of cowsheds have been proposed and investigated. Based on literature data, the required air parameters in the barns of dairy cows were determined and discussed. Computer simulations were carried out and the results obtained were compared to the baseline model. Year-round changes in microclimate parameters, especially air temperature, relative humidity, and THI index were investigated. The benefits of GAHE use were indicated. The possible increase in the minimum air volume of ventilation during the winter season and the decrease in the maximum values of this parameter in the summer were presented. Indications were made of the systems where the application of GAHE could be the most beneficial. A further research path has been proposed.

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THERMODYNAMIC OPTIMIZATION OF HORIZONTAL MULTICHANNEL GROUND HEAT EXCHANGER

10.1615/tfec2018.fip.021677 ◽

2018 ◽

Author(s):

Mayameen N. Reda ◽

Titan C. Paul ◽

Rajib Mahamud

Keyword(s):

Heat Exchanger ◽

Thermodynamic Optimization ◽

Ground Heat Exchanger

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Analysis of Heat Exchange Rate for Low-Depth Modular Ground Heat Exchanger through Real-Scale Experiment

Energies ◽

10.3390/en14071893 ◽

2021 ◽

Vol 14 (7) ◽

pp. 1893

Author(s):

Kwonye Kim ◽

Jaemin Kim ◽

Yujin Nam ◽

Euyjoon Lee ◽

Eunchul Kang ◽

...

Keyword(s):

Exchange Rate ◽

Heat Exchanger ◽

Heat Exchange ◽

Heat Pump ◽

Heat Extraction ◽

Ground Heat Exchanger ◽

Pump System ◽

Heat Pump System ◽

Scale Experiment ◽

Real Scale

A ground source heat pump system is a high-performance technology used for maintaining a stable underground temperature all year-round. However, the high costs for installation, such as for boring and drilling, is a drawback that prevents the system to be rapidly introduced into the market. This study proposes a modular ground heat exchanger (GHX) that can compensate for the disadvantages (such as high-boring/drilling costs) of the conventional vertical GHX. Through a real-scale experiment, a modular GHX was manufactured and buried at a depth of 4 m below ground level; the heat exchange rate and the change in underground temperatures during the GHX operation were tracked and calculated. The average heat exchanges rate was 78.98 W/m and 88.83 W/m during heating and cooling periods, respectively; the underground temperature decreased by 1.2 °C during heat extraction and increased by 4.4 °C during heat emission, with the heat pump (HP) working. The study showed that the modular GHX is a cost-effective alternative to the vertical GHX; further research is needed for application to actual small buildings.

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