翻译：综上所述。与FTB相比TDTB条件下浅层墙体9m的热通量明显更低换热潜力更差且墙深越浅影响越大。由此看来TDTB对浅层墙体热通量的影响是显著的若以FTB条件作为墙体设计依据将会高估墙体的热通量水平引导不恰当的GHEs管道布局。从本节的分析结果来看在额定的建筑冷热负荷条件下设计GHEs时应考虑地温季节性变化对管道传热的影响并尽可能采用较深的管道埋深或更密集的排管密度以增加管道与地面的接触面积提

In summary, compared with the FTB condition, the heat flux of shallow walls (<9m) under the TDTB condition is significantly lower, and the heat transfer potential is worse, with a greater impact as the wall depth becomes shallower. Therefore, the effect of TDTB on the heat flux of shallow walls is significant. If the FTB condition is used as the basis for wall design, the heat flux level of the wall will be overestimated, leading to inappropriate GHEs pipeline layout. From the analysis results of this section, when designing GHEs under rated building cooling (heating) load conditions, the seasonal variation of ground temperature should be considered, and deeper pipeline burial depth or denser pipeline arrangement should be adopted as much as possible to increase the contact area between the pipeline and the ground, improve the pipeline's response to the ground temperature, reduce the fluctuation of the pipeline's heat transfer, and improve the heat exchange efficiency of GHEs.