ABSTRACT
In order to improve the short-term energy consumption control effect of green buildings and shorten the control time, this paper proposes a short-term energy consumption control method of green buildings based on density peak optimization. Firstly, the research status of green building energy consumption control is analyzed, and the short-term energy consumption data information of green building is obtained. Secondly, the definition of peak density algorithm is given, the short-term energy consumption control model of green building is constructed, and the initial cluster center of the short-term energy consumption model of green building is selected to calculate the probability density of the short-term energy consumption control model of green building. Finally, the adaptive genetic algorithm is used to control the short-term energy consumption of green buildings. The experimental results show that the research method can achieve good prediction accuracy in each season, and the short-term energy consumption control time of green buildings is only 3.2 seconds, indicating that the research method can effectively improve energy consumption control efficiency, shorten the short-term energy consumption control time of green buildings, and verify the superiority of the research method. At the same time, it indicates that the research method has certain application value in short-term energy consumption control of green buildings, and can provide a theoretical basis and data support for the field of short-term energy consumption control of green buildings.
KEYWORDS
PAPER SUBMITTED: 2022-12-19
PAPER REVISED: 2023-02-22
PAPER ACCEPTED: 2023-05-31
PUBLISHED ONLINE: 2023-09-10
THERMAL SCIENCE YEAR
2023, VOLUME
27, ISSUE
Issue 4, PAGES [2999 - 3011]
- Fonseca, J. A, et al., Quantifying the Uncertain Effects of Climate Change on Building Energy Consumption Across the United States, Applied Energy, 277 (2020), Nov.. pp. 115556.1-115556.20
- Kang, H., et al., Changes in Energy Consumption According to Building Use Type Under COVID-19 Pandemic in South Korea, Rene. and Sus. Energy Reviews, 148 (2021), Sept., pp. 111294.1-111294.12
- Rouleau, J., Gosselin, L., Impacts of the COVID-19 Lockdown on Energy Consumption in a Canadian Social Housing Building, Applied Energy, 287 (2021), Apr., pp. 116565.1-116565.11
- Wenninger, S., et al., Explainable Long-Term Building Energy Consumption Prediction Using QLattice, Applied Energy, 308 (2022), Feb., pp. 118300.1-118300.13
- Bevilacqua, P., The Effectiveness of Green Roofs in Reducing Building Energy Consumptions Across Different Climates. A Summary of Literature Results, Renewable and Sustainable Energy Reviews, 151 (2021), 11, pp. 111523.1-111523.23
- Pan, Y., Zhang, L., Data-Driven Estimation of Building Energy Consumption with Multi-Source Heterogeneous Data, Applied Energy, 268 (2020), 15, pp. 114965.1-114965.15
- Sebaibi, N., Boutouil, M., Reducing Energy Consumption of Prefabricated Building Elements and Lowering the Environmental Impact of Concrete, Engineering Structures, 213 (2020), 15, pp. 110594.1-110594.8
- Na, W., Wang, M., A Bayesian Approach with Urban-Scale Energy Model to Calibrate Building Energy Consumption for Space Heating: A Case Study of Application in Beijing, Energy, 247 (2022), May, pp. 123341.1-123341.11
- Ahmed, S. F., et al., Physical and Hybrid Modelling Techniques for Earth-Air Heat Exchangers in Reducing Building Energy Consumption: Performance, Applications, Progress, and Challenges, Solar Energy, 216 (2021), 1, pp. 274-294
- Zhang, G., et al., Accurate Forecasting of Building Energy Consumption via a Novel Ensembled Deep Learning Method Considering the Cyclic Feature, Energy, 01 (2020), 15, pp. 117531.1-117531.15
- Somu, N., et al., A Deep Learning Framework for Building Energy Consumption Forecast, Renewable and Sustainable Energy Reviews, 137 (2021), 3, pp. 110591.1-110591.21
- Fu, H., et al., Review of Developments in Whole-Building Statistical Energy Consumption Models for Commercial Buildings, Renewable and Sustainable Energy Reviews, 147 (2021), 9, pp. 111248.1-111248.10
- Antonio Sa Barreto Neto, et al., Building Energy Consumption Models Based on Smartphone User's Usage Patterns, Knowledge-Based Systems, 213 (2021), Feb., pp. 106680.1-106680.16
- Wang, S., et al., Simulation of Near Zero Energy Consumption Building Energy Consumption Control System Based on Fuzzy PID, Computer Simulation, 38 (2021), 10, pp. 263-267
- Cao, L., et al., Design of Building Energy Consumption Monitoring System Based on WiFi and MQTT, Modern Electronic Technology, 45 (2022), 10, pp. 40-44
- Chakraborty, D., et al., Scenario-Based Prediction of Climate Change Impacts on Building Cooling Energy Consumption with Explainable Artificial Intelligence, Applied Energy, 291 (2021), 6, pp. 116807.1-116807.16
- Zhao, Y., Analysis of Building Energy Consumption under Data Mining, Basic & Clinical Pharmacology & Toxicology, 127 (2020), S1, pp. 155-155
- Wang, R., et al., A Novel Improved Model for Building Energy Consumption Prediction Based on Model Integration, Applied Energy, 262 (2020), Mar., pp. 1388-1401
- Sun, J., et al., Light-Stacking Strengthened Fusion Based Building Energy Consumption Prediction Framework via Variable Weight Feature Selection, Applied Energy, 303 (2021), 6, pp. 117694.1-117694.14
