| 1 |
Experimental investigation and economic analysis of gravity heat pipe exchanger applied in communication base station
Zhang LY, Liu YY, Guo X, Meng XZ, Jin LW, Zhang QL, Hu WJ
Applied Energy, 194, 499, 2017 |
| 2 |
Research on ventilation cooling system of communication base stations for energy saving and emission reduction
Wu GL, Zeng FW, Zhu G
Energy and Buildings, 147, 67, 2017 |
| 3 |
How to assess and manage energy performance of numerous telecommunication base stations: Evidence in China
Yang TJ, Zhang YJ, Tang S, Zhang J
Applied Energy, 164, 436, 2016 |
| 4 |
Performance of a free-air cooling system for telecommunications base stations using phase change materials (PCMs): In-situ tests
Sun XQ, Zhang Q, Medina MA, Liao SG
Applied Energy, 147, 325, 2015 |
| 5 |
A study on the use of phase change materials (PCMs) in combination with a natural cold source for space cooling in telecommunications base stations (TBSs) in China
Sun XQ, Zhang Q, Medina MA, Liu YJ, Liao SG
Applied Energy, 117, 95, 2014 |
| 6 |
Energy-saving analysis of telecommunication base station with thermosyphon heat exchanger
Zhou F, Chen J, Ma GY, Liu ZL
Energy and Buildings, 66, 537, 2013 |
| 7 |
Techno-economic analysis of PEM fuel cells role in photovoltaic-based systems for the remote base stations
Bezmalinovic D, Barbir F, Tolj N
International Journal of Hydrogen Energy, 38(1), 417, 2013 |
| 8 |
Study of ventilation cooling technology for telecommunication base stations: Control strategy and application strategy
Chen Y, Zhang YF, Meng QL
Energy and Buildings, 50, 212, 2012 |
| 9 |
Energy performance analysis on telecommunication base station
Tu R, Liu XH, Li Z, Jiang Y
Energy and Buildings, 43(2-3), 315, 2011 |
| 10 |
Study of ventilation cooling technology for telecommunication base stations in Guangzhou
Chen Y, Zhang YF, Meng QL
Energy and Buildings, 41(7), 738, 2009 |
