In the dual carbon development environment, flexible combined renewable resources and energy storage system with IES(integrated energy system) becomes more and more important. Analyzing the coupling mechanism of multi-energy plays a significant role in low-carbon IES planning and operation. Therefore, in this paper, after fully considering the advantages of advanced adiabatic compressed air energy storage (AA-CAES) in the micro IES, the configuration and scheduling strategy of the micro IES with Solar photovoltaic/thermal (PV/T)/AA-CAES are optimized. Firstly, the CCHP(combined power/heating/cooling) characteristics of AA-CAES are modeled in detail. Its operation constraints are also established. Secondly, bi-level programming method is employed to solve the problem. Capacity is optimized in the upper level with the objective of minimizing the sum of benefit brought by AA-CAES and the fixed cost. Dispatch cost and the treating cost of carbon are optimized in the lower level. Finally, the obvious method proposed in this paper is simulated and analyzed with an industrial park .