Open Access
| Issue |
E3S Web Conf.
Volume 111, 2019
CLIMA 2019 Congress
|
|
|---|---|---|
| Article Number | 01024 | |
| Number of page(s) | 10 | |
| Section | Advanced HVAC&R&S Technology | |
| DOI | https://doi.org/10.1051/e3sconf/201911101024 | |
| Published online | 13 August 2019 | |
- International Air Transport Association (IATA). Annual Review 2017. 73rd Annual General Meeting, Cancun, June 2017, retrieved online from: http://www.iata.org/publications/pages/annual-review.aspx. [Google Scholar]
- Balaras CA, Dascalaki E, Gaglia A, Droutsa K. Energy conservation potential, HVAC installations and operational issues in Hellenic airports. Energy & Buildings, 2003, 35: 1105–1120. [CrossRef] [Google Scholar]
- Zhao HT. A field study on energy consumption and indoor environment quality of terminals in China. Master Thesis, Tsinghua University, Beijing, 2015. [Google Scholar]
- 13-five year plan for the development of civil aviation in China, 2016. [Google Scholar]
- Rehault N, Ohr F, Maier R et al. Online Survey on European Airports Energy Operation (Project Cascade European FP7). released in 2016, retrieved online: http://www.cascade-eu.org/cms/index.php?id=publications. [Google Scholar]
- Alba SO, Manana M. Energy Research in Airports: A Review. Energies, 2016 (9): 349. [Google Scholar]
- Pasa UM, Sogut MZ. An integrated research for architecture-based energy management in sustainable airports. Energy, 2017, 140: 1387–1397. [CrossRef] [Google Scholar]
- Wang Z, Zhao HT, Lin BR. Investigation of indoor environment quality of Chinese large-hub airport terminal buildings through longitudinal field measurement and subjective survey. Building & Environment, 2015, 94: 593–605. [CrossRef] [Google Scholar]
- Pichatwatana K, Wang F, Roaf S, et al. An integrative approach for indoor environment quality assessment of large glazed air-conditioned airport terminal in the tropics. Energy & Buildings, 2017, 148: 37–55. [CrossRef] [Google Scholar]
- Zhao K, Liu XH, Jiang Y. Application of radiant floor cooling in large space buildings-A review. Renewable Sustainable Energy Reviews, 2016, 55: 1083–1096. [CrossRef] [Google Scholar]
- Song XL, Huang X, Xue Y. Running Cost Analysis of Evaporative Cooling Energy-saving and Purification Air-conditioning in Supermarket of Xi’an. Refrigeration and Air-conditioning, 2014 (6): 681-686. [Google Scholar]
- Liang XD. Energy saving and automation control design of HVAC system in BSCE new factory. Journal of HV&AC, 2014 (5): 83-86. [Google Scholar]
- Yi X, Luo Y, Zeng Y. A Damper control system for variable-air-volume air handling system of tobacco factory. Building Energy & Environment, 2005,24 (3): 43–46. [Google Scholar]
- Zhu C X, Zhao X Y, Yang R L, et al. Diagnosis and Transformation of Air Conditioning and Refrigeration System for a Shopping Mall. Advanced Materials Research, 2013, 664: 960–963. [Google Scholar]
- Zhao W U, Zhao X H, Chen L T, et al. Integrated Energy-saving Retrofitting of Heat Recovery for Air-conditioning System in a Factory of Shanghai. Building Energy Efficiency, 2014 (4): 91-94. [Google Scholar]
- M.B. Schell, S.C. Turner, R.O. Shim.Application of CO2-based demand-controlled ventilation using ASHRAE standard 62: optimizing energy use and ventilation. ASHRAE Transactions, 1998, 104: 1213–1225. [Google Scholar]
- Y.P. Ke, S.A. Mumma. Using carbon dioxide measurements to determine occupancy for ventilation control. ASHRAE Transactions, 1997, 103 (1): 365– 374. [Google Scholar]
- S.M.D. Giacomo. Differential CO2 based demand control ventilation (maximum energy saving optimized IAQ). Energy Engineering, 1999, 96 (5): 58– 76. [CrossRef] [Google Scholar]
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