Building energy consumption monitoring and regulation method and system based on digital twinning

By collecting and analyzing indoor natural gas data in buildings, and combining it with digital twin technology for intelligent identification and control, the problem of insufficient identification and control of natural gas usage scenarios in existing systems has been solved, and precise, visualized, and autonomous building energy consumption management has been achieved.

CN122155106APending Publication Date: 2026-06-05北京英沣特能源技术有限公司

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
北京英沣特能源技术有限公司
Filing Date
2026-03-05
Publication Date
2026-06-05

AI Technical Summary

Technical Problem

Existing natural gas energy consumption monitoring systems are unable to achieve intelligent identification and autonomous control based on indoor natural gas usage scenarios in buildings, resulting in reduced effectiveness of building energy consumption supervision.

Method used

By collecting daily natural gas consumption data, user characteristic text data, and real-time image data in buildings, and combining them with digital twin technology, natural gas user tracking, usage status judgment, and risk avoidance scheduling are achieved, enabling intelligent monitoring and autonomous control across all scenarios.

Benefits of technology

It enables precise and visualized monitoring and autonomous control of the indoor natural gas usage status in buildings, improving the scientific nature and reliability of building energy consumption management, and enhancing the applicability and intelligence of natural gas energy consumption supervision.

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Abstract

The application relates to the technical field of building energy consumption monitoring, and discloses a building energy consumption monitoring and regulation method and system based on digital twinning, which comprises a building energy consumption information preprocessing module, a building energy consumption monitoring module and a building energy consumption regulation module. The building indoor natural gas to-be-determined use state is accurately identified through numerical analysis based on the combination of the building indoor natural gas historical daily average gas consumption parameter and the building indoor natural gas daily gas consumption parameter, the building indoor natural gas use state is analyzed in depth based on safety and the to-be-determined type, the building indoor natural gas to-be-determined use state is finely analyzed in two levels by independently counting the building indoor natural gas daily gas mutation variable data parameter and the preset building indoor natural gas safety daily gas mutation variable interval, the building indoor natural gas use state is finely evaluated based on safety and the dangerous type, and the reliability of the building indoor natural gas energy consumption monitoring is improved.
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