A fast and accurate semi-analytical method to determine the thermal response of bore fields

TL;DR

This paper introduces a fast, accurate semi-analytical method for calculating the thermal response of borehole heat exchanger fields, improving design precision and computational efficiency over existing simplified methods.

Contribution

An alternative semi-analytical method with optimized implementation that accurately models bore field thermal response and enables field optimization, surpassing previous approaches.

Findings

The new method reduces computation time significantly.

It accurately captures the thermal response of various bore field shapes.

The analysis highlights the limitations of uniform heat rate and temperature assumptions.

Abstract

The design and the simulation of a borehole-heat-exchanger (BHE) field is usually performed by simplified methods that yield either an overestimation or an underestimation of the thermal response. The methods employing the assumption of a uniform heat rate per unit BHE length overestimate the thermal response, while those employing the assumption of a uniform temperature of the external surface of the BHEs underestimate it. An accurate semi-analytical method to determine the g-function of a bore field with the real condition of BHEs fed in parallel with equal inlet temperature was developed by Cimmino (Int J Heat Mass Tran 91, 2015). An alternative semi-analytical method that yields the same results is presented in this paper. The method is implemented in a C++ program, available at the open-source online data repository of the University of Bologna. Thanks to several optimizations, the program yields a very accurate thermal response of bore fields of any shape with an extremely short computation time. The program is employed to analyze the inaccuracies caused by the assumptions of uniform heat rate and uniform surface temperature of the BHEs. It is also used to illustrate the low performance of the central BHEs in large and compact bore fields, and to show how the bore field can be optimized for a given plot of land and a fixed total length of the field.