| 1 |
An urbanization algorithm for districts with minimized emissions based on urban planning and embodied energy towards net-zero exergy targets
Kilkis S, Kilkis B
Energy, 179, 392, 2019 |
| 2 |
Quantitative study on environment and energy information for land use planning scenarios in eco-city planning stage
Yeo IA, Lee E
Applied Energy, 230, 889, 2018 |
| 3 |
IEA EBC annex 63-implementation of energy strategies in communities
Strasser H, Kimman J, Koch A, Tinkhof OMA, Muller D, Schiefelbein J, Slotterback C
Energy and Buildings, 158, 123, 2018 |
| 4 |
Assessing visibility in multi-scale urban planning: A contribution to a method enhancing social acceptability of solar energy in cities
Florio P, Probst MCM, Schuler A, Roecker C, Scartezzini JL
Solar Energy, 173, 97, 2018 |
| 5 |
Assessing the relationship between urban planning options and carbon emissions at the use stage of new urbanized areas: A case study in a warm climate location
Pacheco-Torres R, Roldan J, Gago EJ, Ordonez J
Energy and Buildings, 136, 73, 2017 |
| 6 |
The role of occupant behavior in low carbon oriented residential community planning: A case study in Qingdao
Ruan YJ, Cao JH, Feng F, Li ZW
Energy and Buildings, 139, 385, 2017 |
| 7 |
Energy savings potential in urban rehabilitation: A spatial-based methodology applied to historic centres
Gregorio V, Seixas J
Energy and Buildings, 152, 11, 2017 |
| 8 |
Global sensitivity analysis as a support for the generation of simplified building stock energy models
Mastrucci A, Perez-Lopez P, Benetto E, Leopold U, Blanc I
Energy and Buildings, 149, 368, 2017 |
| 9 |
Urban development and pedestrian thermal comfort in Melbourne
Jamei E, Rajagopalan P
Solar Energy, 144, 681, 2017 |
| 10 |
Boosting solar accessibility and potential of urban districts in the Nordic climate: A case study in Trondheim
Lobaccaro G, Carlucci S, Croce S, Paparella R, Finocchiaro L
Solar Energy, 149, 347, 2017 |
