Abstract
Timely and accurate decision-making is critical during gas tunnel emergencies, yet relevant knowledge is typically fragmented across unstructured reports, manuals, and case records, hindering rapid access. To address this challenge, a knowledge recommendation approach was proposed that synergistically combines knowledge graph (KG) and large language model (LLM). This method first constructs a domain-specific KG from heterogeneous emergency documents using prompt-optimized LLMs. During inference stage, it retrieves the most contextually relevant subgraph via semantic similarity-based vector search and re-ranks candidates to enhance precision. This retrieved knowledge dynamically augments the LLM, grounding its responses in verified domain facts and reducing hallucinations. Evaluations show that approach substantially outperforms both standalone LLMs and alternative architectures in accuracy, completeness, and coherence. The method proposed in the study improves the speed and quality of emergency response for gas tunnels, offering a structured and interpretable approach to knowledge-driven decision support in this specific high-risk context.