EDP Sciences logo
Web of Conferences logo
Search
Menu
All issues Volume 207 (2020) E3S Web Conf., 207 (2020) 01007 References
Open Access
Issue
E3S Web Conf.
Volume 207, 2020
25th Scientific Conference on Power Engineering and Power Machines (PEPM’2020)
Article Number 01007
Number of page(s) 10
Section Thermal Equipment, Heat and Mass Transfer Processes
DOI https://doi.org/10.1051/e3sconf/202020701007
Published online 18 November 2020
  1. M. Prignon, G. Van Moeseke, Factors influencing airtightness and airtightness predictive models: A literature review, Energy and Buildings, 146 (2017), p.p. 87-97. [Google Scholar]
  2. M. Igor, A. S. Andelkovic, V. Muncan, M. Kljajic, D. Ruzic. Influence of indoor environmental quality on human health and productivity, Journal of Cleaner Production, 217, April 20, (2019), p.p. 646-657. [Google Scholar]
  3. V. I. Livchak, Methodology of calculating the specific annual consumption of thermal energy for heating and ventilation of buildings, ABOK (2010) [Google Scholar]
  4. Yu Ya Kuvshinov, Calculation of annual energy consumption by ventilation and air conditioning systems, ABOK, (2006) [Google Scholar]
  5. Code of rules of the Republic of Kazakhstan 4.02-101-2012 «Heating, ventilation and air conditioning» [Google Scholar]
  6. Building standards of the Republic of Kazakhstan 4.02-01-2011 «Heating, ventilation and air conditioning» [Google Scholar]
  7. Code of rules of the Republic of Kazakhstan 2.04-01-2017 «Building climatology» [Google Scholar]
  8. M. V. Ibragimova, Developing hardware software methodological complex for automated energy audit of buildings based on wireless sensor systems, The dissertation for the degree of Doctor of Philosophy (PhD), (2018), p. 145 [Google Scholar]
  9. V. G. Zhitov, Research and providing parameters of the microclimate and public buildings by methods of optimal design of the experiment, The dissertation for the degree of candidate of technical sciences (2007), 183 p. [Google Scholar]
  10. V. N. Panteleyev, The results of the test of enclosing structures for breathability by technology Blower Door - Aero Door, Test report dated June l4, (2013) [Google Scholar]
  11. G. Raman, K. Chelliah, M. Prakash, R.T. Muehleisen, Detection and quantification of building air infiltration using remote acoustic methods, in: 43rd International Congress on Noise Control Engineering, (2014), pp. l6-19. [Google Scholar]
  12. D. Johnston, D. Miles-Shenton, M. Bell, J. Wingfield, Airtightness of buildings - towards higher performances, Tech. rep., Leeds Beckett University, Final Report, 2011. [Google Scholar]
  13. W. Pan, Relationships between air-tightness and its influencing factors of post-2006 new-build dwellings in the {UK}, Build. Environ. 45, (2010), p.p. 2387-2399. [Google Scholar]
  14. H. Krstic’, Z. Koski, I. Otkovic, M. Spanic. Application of neural networks in predicting airtightness of residential units. Energy and Buildings, 84 (2014), p.p. 160-168 [Google Scholar]
  15. D. Keefe, Diagnose problems in the building envelope with blower door, The journal of light construction, (2010). [Google Scholar]
  16. V. Fabi, V. Barthelmes, M. Schweiker, S. Corgnati, Insights into the effects of occupant behaviour lifestyles and building automation on building energy use, Energy Procedia, 140, (2017), p.p. 48-56 [Google Scholar]
  17. N. Nord, T. Tereshchenko, L. H. Qvistgaard, I. S. Tryggestad, Influence of occupant behavior and operation on performance of a residential Zero Emission Building in Norway, Energy and Buildings, (2018), p.p. 75-88 [Google Scholar]
  18. J. Zhan, W. Liu, F. Wu, Z. Li, C. Wang, Life cycle energy consumption and greenhouse gas emissions of urban residential buildings in Guangzhou city, Journal of cleaner production, (2018). [Google Scholar]
  19. Code of rules of the Republic of Kazakhstan 2.04-04-2011 «Thermal protection of buildings» [Google Scholar]
  20. M. Oskouei, B. Mohammadi-Ivatloo, M. Abapour, A. Ahmadian, Md. Jalil Piran, A novel economic structure to improve the energy label in smart residential buildings under energy efficiency programs, Journal of Cleaner Production, 260 (2020) [Google Scholar]
  21. I. M. Kvashnin, I. I. Gurin, Towards standardizing air exchange for the CO2 concentration in the indoor and outdoor air, AB0K, 4, (2008). [Google Scholar]
  22. CSTC, L’etancheite a l’air des batiments, technical information note, (2015). [Google Scholar]
  23. P. F. Pereira, N. M. Ramos, R. M. S. F. Almeida, M. Lurdes, E. Barreira, Occupant influence on residential ventilation patterns in mild climate conditions, llth Nordic Symposium on Building Physics, NSB2017, (2017) [Google Scholar]
  24. S. Moeller, I. Weber, F. Schroder, A. Bauer, H. Harter, Apartment related energy performance gap - how to address internal heat transfers in multi-apartment buildings, Journal of Energy & Buildings, 16, (2020). [Google Scholar]

Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.

Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.

Initial download of the metrics may take a while.