At home and abroad, preliminary studies have been carried out on the evaluation and identification of green power consumption level, but they are all electricity certification oriented to the generation side, and lack of certification and identification system oriented to the green power consumption side to evaluate the consumption behavior of green power users. An evaluation index system for green electricity consumption identification were designed, which includes three aspects: consumption fluctuation, consumption level, and environmental benefits, with a total of 10 indicators. By combining the subjective and objective methods of Analytic Hierarchy Process and Entropy Weight, the indicator weights were determined, and the weighted TOPSIS method was used to construct a multi-attribute coordinated and graded evaluation model for green power consumption, which supports rapid evaluation and verification of enterprise green power consumption levels and attributes. Six typical industrial users were selected as the research subjects, and the scores of each user indicator were calculated through the established evaluation model to characterize the comprehensive level of green electricity consumption of users. This provides a basis for designing corresponding scoring systems for different user indicators in the future.