THERMAL SCIENCE

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CALCULATION AND EVALUATION OF BUILDING THERMAL ENERGY CONSUMPTION AND CARBON EMISSIONS BASED ON BIM TECHNOLOGY

ABSTRACT
In order to calculate the carbon emissions in the construction process to achieve low-carbon buildings and low-carbon construction, the author puts forward the calculation and evaluation of building thermal energy consumption and carbon emissions based on building information modeling (BIM) technology. The author first proposed the important value and application of BIM technology in energy consumption evaluation of green buildings, taking a gymnasium as an example, a carbon emission accounting system for building construction and installation process is established based on BIM technology, and the carbon emissions in building construction and installation process are calculated and analyzed. The results show that the carbon emission during the construction and installation of a gymnasium is 766300 tons, of which the carbon emission caused by building materials is 737200 tons, the carbon emission caused by mechanical equipment is 4500 tons, and that caused by office and living is 34500 tons, accounting for 94.90%, 0.59%, and 4.51%, respectively. In conclusion through data analysis, determine the largest carbon emission source in the construction process, and then propose targeted carbon emission reduction measures in the construction process of the construction industry.
KEYWORDS
PAPER SUBMITTED: 2022-08-28
PAPER REVISED: 2022-10-25
PAPER ACCEPTED: 2022-11-06
PUBLISHED ONLINE: 2023-03-25
DOI REFERENCE: https://doi.org/10.2298/TSCI2302223C
CITATION EXPORT: view in browser or download as text file
THERMAL SCIENCE YEAR 2023, VOLUME 27, ISSUE Issue 2, PAGES [1223 - 1230]
REFERENCES
  1. Ilgın, H. E., Karjalainen, M., Preliminary Design Proposals for Dovetail Wood Board Elements in Multi-Story Building Construction, Architecture, 1 (2021), 1, pp. 56-68
  2. Marieta, C., et al., Municipal Solid Waste Incineration Fly Ash to Produce Eco-Friendly Binders for Sustainable Building Construction, Waste Management, 120 (2021), Feb., pp. 114-124
  3. Berlak, J., et al., Digitalization's Impacts on Productivity: A Model-Based Approach and Evaluation in Germany's Building Construction Industry, Production Planning and Control, 32 (2021), 4, pp. 335-345
  4. Feng, Y., Research on Visualization of Prefabricated Building Process Based on BIM Technology, 61 (2021), 4, pp. 2775-2786
  5. Kuok, K. K., et al., Application of Building Information Modelling (BIM) Technology in Drainage System Using Autodesk InfraWorks 360 Software, 14 (2022), 1, pp. 2583-2600
  6. Kazemian, S., et al., Carbon Management Accounting (CMA) Practices in Australia's High Carbon-Emission Industries, Sustainability Accounting, Management and Policy Journal, 13 (2022), 5, pp. 1132-1168
  7. Zhao, K., et al., Impact of Uncertainty on Regional Carbon Peak Paths: An Analysis Based on Carbon Emissions Accounting, Modelling, and Driving Factors, Environmental Science and Pollution Research, 29 (2022), 12, pp. 17544-17560
  8. Wiedmann, T., et al., Three‐Scope Carbon Emission Inventories of Global Cities, Journal of Industrial Ecology, 25 (2021), 3, pp. 35-750
  9. Hu, H., et al., Research on Cost Accounting of Enterprise Carbon Emission (in China), Mathematical Biosciences and Engineering, 19 (2022), 11, pp. 11675-11692
  10. Adedoyin, F. F., et al., Environmental Degradation, Energy Consumption and Sustainable Development: Accounting for the Role of Economic Complexities with Evidence from World Bank Income Clusters, Business Strategy and the Environment, 30 (2021), 5, pp. 2727-2740
  11. Wang, J., Xia, W., Research on Enterprise Carbon Accounting under the Framework of Carbon Emission Management Accounting - Taking Chemical Enterprises as an Example, Accounting and Corporate Management, 4 (2022), 1, pp. 52-61
  12. Nie, X., et al., Contributing to Carbon Peak: Estimating the Causal Impact of Eco‐Industrial Parks on Low‐Carbon Development in China, Journal of Industrial Ecology, 26 (2022), 4, pp. 1578-1593
  13. Peng, T., Deng, H., Research on the Sustainable Development Process of Low-Carbon Pilot Cities: The Case Study of Guiyang, A Low-Carbon Pilot City in South-West China, Environment, Development and Sustainability, 23 (2021), 2, pp. 2382-2403
  14. Liu, Z., Jiang, G., Optimization of Intelligent Heating Ventilation Air Conditioning System in Urban Building Based on BIM and Artificial Intelligence Technology, Computer Science and Information Systems, 18 (2021), 4, pp. 1379-1394

© 2024 Society of Thermal Engineers of Serbia. Published by the Vinča Institute of Nuclear Sciences, National Institute of the Republic of Serbia, Belgrade, Serbia. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution-NonCommercial-NoDerivs 4.0 International licence