| 1 |
Graphical analysis of photovoltaic generation and load matching in buildings: A novel way of studying self-consumption and self-sufficiency
Luthander R, Nilsson AM, Widen J, Aberg M
Applied Energy, 250, 748, 2019 |
| 2 |
Vacuum insulation panels in construction solutions for energy efficient retrofitting of buildings. Two case studies in Spain and Sweden
Uriarte A, Garai I, Ferdinando A, Erkoreka A, Nicolas O, Barreiro E
Energy and Buildings, 197, 131, 2019 |
| 3 |
Cost-benefit analysis of nZES energy efficiency strategies with on-site photovoltaic generation
Pikas E, Kurnitski J, Thalfeldt M, Koskela L
Energy, 128, 291, 2017 |
| 4 |
Experimental monitoring of a sunspace applied to a NZEB mock-up: Assessing and comparing the energy benefits of different configurations
Ulpiani G, Giuliani D, Romagnoli A, di Perna C
Energy and Buildings, 152, 194, 2017 |
| 5 |
Dynamic type-cohort-time approach for the analysis of energy reductions strategies in the building stock
Vasquez F, Lovik AN, Sandberg NH, Muller DB
Energy and Buildings, 111, 37, 2016 |
| 6 |
Comparing the performance of on/off, PID and fuzzy controllers applied to the heating system of an energy-efficient building
Ulpiani G, Borgognoni M, Romagnoli A, Di Perna C
Energy and Buildings, 116, 1, 2016 |
| 7 |
Simple models for building-integrated solar thermal systems
Maurer C, Cappel C, Kuhn TE
Energy and Buildings, 103, 118, 2015 |
| 8 |
Cost optimality assessment of a single family house: Building and technical systems solutions for the nZEB target
Becchio C, Dabbene P, Fabrizio E, Monetti V, Filippi M
Energy and Buildings, 90, 173, 2015 |
| 9 |
Cost optimal and nearly zero energy building solutions for office buildings
Pikas E, Thalfeldt M, Kurnitski J
Energy and Buildings, 74, 30, 2014 |
| 10 |
Cost optimal and nearly zero (nZEB) energy performance calculations for residential buildings with REHVA definition for nZEB national implementation
Kurnitski J, Saari A, Kalamees T, Vuolle M, Niemela J, Tark T
Energy and Buildings, 43(11), 3279, 2011 |
