Litcius/Paper detail

A Review of Industrial Load Flexibility Enhancement for Demand-Response Interaction

Jiubo Zhang, Bowen Zhou, Zhile Yang, Yuanjun Guo, Chen Lv, Xiaofeng Xu, Jichun Liu

2025Sustainability11 citationsDOIOpen Access PDF

Abstract

The global transition toward low-carbon energy systems necessitates fundamental innovations in demand-side flexibility, particularly in industrial load regulation. This study presents a systematic review and critical analysis of 90 key research works (2015–2025) to establish a comprehensive framework for industrial load flexibility enhancement. We rigorously examined the tripartite interdependencies among the following: (1) Multi-energy flow physical coupling, addressing temporal-scale disparities in electricity-thermal-gas coordination under renewable penetration; (2) Uncertainty quantification, integrating data-driven and physics-informed modeling for robust decision-making; (3) Market mechanism synergy, analyzing demand response, carbon-P2P hybrid markets, and regulatory policy impacts. Our analysis reveals three fundamental challenges: the accuracy-stability trade-off in cross-timescale optimization, the policy-model disconnect in carbon-aware scheduling, and the computational complexity barrier for real-time industrial applications. The paper further proposes a roadmap for next-generation industrial load regulation systems, emphasizing co-optimization of technical feasibility, economic viability, and policy compliance. These findings advance both academic research and practical implementations for carbon-neutral power systems.

Topics & Concepts

Flexibility (engineering)Demand responseComputer scienceEngineeringEconomicsElectrical engineeringElectricityManagementSmart Grid Energy Management