Simulation Study on Optimal Energy-Saving Design Model of Building Space
Due to the large number of building structural entities,it is difficult to merge and control spatial energy consumption,resulting in a relatively large amount of energy consumption in the current building space.Therefore,ar-ticle proposes the concept of overall building energy consumption as the initial optimization"scale",which refers to the parameters of exterior walls,interior walls,roofs,individual floor slabs,and doors and windows of the building space doors and windows of the building space.First,the ptimal standard values of these scales were solved.Then,the maximum acceptable range of energy consumption under the energy-saving condition was calculated by equivalent conversion method.On this basis,the above values were taken as constraint conditions.After that,the control function was established.Moreover,the standard scale values and the maximum energy consumption range were set as the opti-mal solution.Meanwhile,an optimal energy-saving model was built to set the temperature difference adjustment factor.Finally,the indoor and outdoor temperature difference was adjusted and controlled effectively,thus ensuring that the building parameters met the optimal energy consumption range.Simulation results show that the proposed method has better effect of energy consumption control on heating in winter and cooling in summer,with high conver-gence and robustness.