Heat transfer in ground heat exchangers with groundwater advection

A ground heat exchanger (GHE) is devised for extraction or injection of thermal energy from/into the ground. Bearing strong impact on GHE performance, the borehole thermal resistance is defined by the thermal properties of the construction materials and the arrangement of flow channels of the GHEs.

Debonding in ground heat exchangers used with geothermal heat pumps may occur for a variety of reasons, such as shrinkage of the backfill materials or surrounding formation, improper grouting and thermal mismatch. The effect of thermal contact resistance on the heat conduction due to debonding in gr

## Abstract A detailed analysis of the effect of local heat transfer distributions, which were determined experimentally, on temperature distributions in the fins and in the fluid between two adjacent fins of finned tube heat exchangers is presented. The heat transfer distributions, obtained by a m

The sea-water samples used had a chlorinity of 16 and were obtained from the Firth of Clyde near the entrance to Loch Long. Their surface tension at IOWC was found to be 58.7 dyn/cm, as compared with 71.8 dyn/cm for a sample of freshwater. The freshwater used for comparison was Glasgow City water.

IIAt the Moscow Aviation Institute a highly effective method was developed to enhance heat transfer in tubular heat exchangers, and comprehensive studies were made of its effectiveness when applied to gas and liquid flow in tubes, circular channels, and in-flow tube bundles over a wide range of perf