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Hybrid analytical-PINN model enhances geothermal subsurface simulation

Researchers have developed a novel hybrid analytical-physics-informed neural network (PINN) model for simulating subsurface heat transfer in geothermal systems. This approach combines analytical solutions with PINNs to efficiently handle the complexities of heterogeneous soil conditions and borehole heat exchangers. The model effectively removes singularity issues and captures bulk heat transfer by focusing on a learned correction to an idealized homogeneous approximation, demonstrating effectiveness across various analytical models. AI

IMPACT This hybrid model could improve the efficiency and accuracy of simulations for geothermal energy systems, potentially accelerating their development and deployment.

RANK_REASON The cluster contains a research paper published on arXiv detailing a new modeling technique.

Read on arXiv cs.LG →

AI-generated summary · Google Gemini · from 2 sources. How we write summaries →

Hybrid analytical-PINN model enhances geothermal subsurface simulation

COVERAGE [2]

  1. arXiv cs.LG TIER_1 English(EN) · Moke Rao, Thomas Hamacher, Smajil Halilovic ·

    A hybrid analytical-PINN model for subsurface simulation of geothermal heat exchangers in heterogeneous underground

    arXiv:2607.12271v1 Announce Type: new Abstract: In this paper, a parametric physics-informed neural network for solving the heterogeneous soil thermal problem with borehole heat exchangers (BHEs) as singular sources is developed. There are three novel features in the present fram…

  2. arXiv cs.LG TIER_1 English(EN) · Smajil Halilovic ·

    A hybrid analytical-PINN model for subsurface simulation of geothermal heat exchangers in heterogeneous underground

    In this paper, a parametric physics-informed neural network for solving the heterogeneous soil thermal problem with borehole heat exchangers (BHEs) as singular sources is developed. There are three novel features in the present framework; namely, (i) the singularity is naturally …