| 1 |
Renovation of a social house into a NZEB: Use of renewable energy sources and economic implications
De Luca G, Ballarini I, Lorenzati A, Corrado V
Renewable Energy, 159, 356, 2020 |
| 2 |
Hourly operational assessment of HVAC systems in Mediterranean Nearly Zero-Energy Buildings: Experimental evaluation of the potential of ground cooling of ventilation air
Ascione F, Borrelli M, De Masi RF, Vanoli GP
Renewable Energy, 155, 950, 2020 |
| 3 |
A clustering based grouping method of nearly zero energy buildings for performance improvements
Huang P, Sun YJ
Applied Energy, 235, 43, 2019 |
| 4 |
A collaborative demand control of nearly zero energy buildings in response to dynamic pricing for performance improvements at cluster level
Huang P, Sun YJ
Energy, 174, 911, 2019 |
| 5 |
A demand-oriented approach for integrating earth-to-air heat exchangers into buildings for achieving year-round indoor thermal comfort
Yang D, Wei HB, Shi R, Wang JB
Energy Conversion and Management, 182, 95, 2019 |
| 6 |
Impact of zero energy buildings on medium-to-long term building energy consumption in China
Yang XY, Zhang SC, Xu W
Energy Policy, 129, 574, 2019 |
| 7 |
A robust design of nearly zero energy building systems considering performance degradation and maintenance
Huang P, Huang GS, Sun YJ
Energy, 163, 905, 2018 |
| 8 |
Application analyze of a ground source heat pump system in a nearly zero energy building in China
Li H, Xu W, Yu Z, Wu JL, Sun ZF
Energy, 125, 140, 2017 |
| 9 |
Life-cycle cost analyses of heat pump concepts for Finnish new nearly zero energy residential buildings
Paiho S, Pulakka S, Knuuti A
Energy and Buildings, 150, 396, 2017 |
| 10 |
Overview and future challenges of nearly zero energy buildings (nZEB) design in Southern Europe
Attia S, Eleftheriou P, Xeni F, Morlot R, Menezo C, Kostopoulos V, Betsi M, Kalaitzoglou I, Pagliano L, Cellura M, Almeida M, Ferreira M, Baracu T, Badescu V, Crutescu R, Hidalgo-Betanzos JM
Energy and Buildings, 155, 439, 2017 |
