An evaluation method, device and equipment for heat storage efficiency of an enclosure and a storage medium
By conducting experiments and parameter inversion optimization on the building envelope across temperature ranges of characteristic changes, a discrete numerical model based on the enthalpy method was constructed. This solved the problem that existing technologies cannot accurately quantify the nonlinear thermal property changes of composite building envelopes, achieving precise multi-dimensional evaluation of thermal storage efficiency and improving environmental adaptability.
CN121978165BActive Publication Date: 2026-06-23SOUTH CHINA UNIV OF TECH
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- SOUTH CHINA UNIV OF TECH
- Filing Date
- 2026-04-09
- Publication Date
- 2026-06-23
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Figure CN121978165B_ABST
Abstract
The present application relates to the field of building thermal technology, solves the problem that the existing technology is not accurate, not complete, and poor in environmental adaptability for evaluating the heat storage performance of the envelope structure, and provides an envelope structure heat storage efficiency evaluation method, device, equipment and storage medium, a target test piece containing a functional material is prepared; a cross-characteristic change temperature interval experiment is carried out by using a dynamic thermal and humid climate wind tunnel, nonlinear thermal response data is obtained; a discrete numerical model of enthalpy method is constructed, parameter inversion is carried out with the minimum root mean square error of the theoretical surface heat flow and the measured heat flow as the target, and the thermal physical property parameters and the effective specific heat capacity curve are obtained; a thermal network model is constructed based on the inversion parameters, the hourly heat flow of each node of the test piece is simulated, and the multi-dimensional heat storage efficiency evaluation index of the envelope structure is calculated. The present application couples high-precision wind tunnel experiment, nonlinear heat transfer model and inversion algorithm, accurately quantifies the dynamic heat storage performance of the envelope structure, and provides a precise and practical solution for the heat storage efficiency evaluation of functional envelope structure.
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