在大规模风电并网运行环境下，风电的不确定性间歇出力诱变了电力系统可靠性运行特征，系统充裕性鲁棒决策成为安全稳定消纳技术的必然方式。针对充裕调控量在满足系统不确定性需求的过程中，如何鲁棒跟随决策者期望的调控问题，该文提出一种“广义充裕–经济”博弈自适应调控机制。首先，设计出“广义充裕–经济”微分博弈模型，并应用鲁棒控制理论证明该模型博弈解的存在性。进一步，定义进化向量与置信区间，提出反馈进化方程，与博弈解级联获得博弈自适应解，超前修正了该解的动态鲁棒性。最后，在抵御最恶劣不确定性充裕需求波动方式下，实现鲁棒跟随决策者期望的广义充裕资源经济动态超前调控决策。采用含风电运行的实际电网作为验证实例，结果验证了该机制模型及方法具有良好的鲁棒性与经济性。“,”With the large-scale wind power penetration, the feature change of reliability operation is induced by uncertainty output, so adequacy robust decision becomes an inevitable way for wind energy security-stability utilization. According to the problem of robustness tracking decision-maker expectation, in the process of uncertainty demand for Adequacy dispatch, the adaptive dispatch mechanism on ‘general adequacy-economy’ game was proposed. Firstly, the ‘general adequacy-economy’ differential game model was designed, and the robust control theory was introduced to prove the existence of the differential game solution. In addition, the evolution vector and confidence interval was defined and evolutionary feedback equation was established, cascading the differential game solution to obtain the adaptive game solution and look-ahead revise its dynamic robustness. Ultimately, the ‘general adequacy- economy’ dynamic look-ahead dispatch is achieved, which could satisfy robustness tracking decision-maker expectation in worst uncertainty mode for Adequacy resource demand.The proposed mechanism model and method are applied to wind energy integrated grid actual operation, and the results show its robustness and economy.