| 1 - 2 |
Editorial - IEA-ECES Annex 31 Special Issue on Thermal Energy Storage
Kurnitski J, Haghighat F, Mirzaei PA |
| 3 - 12 |
Influence of GSHP system design parameters on the geothermal application capacity and electricity consumption at city-scale for Westminster, London
Zhang Y, Choudhary R, Soga K |
| 13 - 22 |
Long term coupled simulation for ground source heat pump and underground heat exchangers
Li SH, Dong KF, Wang JY, Zhang XS |
| 23 - 34 |
Geothermal energy piles and boreholes design with heat pump in a whole building simulation software
Fadejev J, Kurnitski J |
| 35 - 43 |
Stratification enhancement for an integrated collector storage solar water heater (ICSSWH)
Swiatek M, Fraisse G, Pailha M |
| 44 - 58 |
Design of a low-temperature solar heating system based on a slurry Phase Change Material (PCS)
Serale G, Fabrizio E, Perino M |
| 59 - 64 |
Integration of PCM in domestic hot water tanks: Optimization for shifting peak demand
Najafian A, Haghighat F, Moreau A |
| 65 - 73 |
Design of a PCM to air heat exchanger using dimensionless analysis: Application to electricity peak shaving in buildings
Kuznik F, Lopez JPA, Baillis D, Johannes K |
| 74 - 86 |
Optimization of an Air-PCM heat exchanger and elaboration of peak power reduction strategies
El Mankibi M, Stathopoulos N, Rezai N, Zoubir A |
| 87 - 95 |
Simulation study on dynamic heat transfer performance of PCM-filled glass window with different thermophysical parameters of phase change material
Zhong KC, Li SH, Sun GF, Li SS, Zhang XS |
| 96 - 110 |
Numerical modeling of thermal behaviors of active multi-layer living wall
El Mankibi M, Zhai ZQ, Al-Saadi SN, Zoubir A |
| 111 - 124 |
Heat and cold storage using phase change materials in domestic refrigeration systems: The state-of-the-art review
Joybari MM, Haghighat F, Moffat J, Sra P |
| 125 - 133 |
PCM thermal storage system for'free' heating and cooling of buildings
Osterman E, Butala V, Stritih U |
| 134 - 155 |
Review on using microencapsulated phase change materials (PCM) in building applications
Konuklu Y, Ostry M, Paksoy HO, Charvat P |
| 156 - 163 |
Thermal enhancement of concrete by adding bio-based fatty acids as phase change materials
Cellat K, Beyhan B, Gungor C, Konuklu Y, Karahan O, Dundar C, Paksoy H |
| 164 - 174 |
Expanding Heisler chart to characterize heat transfer phenomena in a building envelope integrated with phase change materials
Bastani A, Haghighat F |
| 175 - 182 |
Synthesis and characteristics of hygroscopic phase change material: Composite microencapsulated phase change material (MPCM) and diatomite
Chen Z, Qin MH, Yang J |
| 183 - 191 |
Chemisorption heat storage in buildings: State-of-the-art and outlook
Kuznik F, Johannes K, Obrecht C |
| 192 - 202 |
A review on hybrid optimization algorithms to coalesce computational morphogenesis with interactive energy consumption forecasting
Mavromatidis LE |
| 203 - 215 |
Control strategies for integration of thermal energy storage into buildings: State-of-the-art review
Yu Z, Huang GS, Haghighat F, Li HQ, Zhang GQ |
| 216 - 224 |
Phase change material wall optimization for heating using metamodeling
Kuznik F, Lopez JPA, Baillis D, Johannes K |
| 225 - 233 |
A review on optimization techniques for active thermal energy storage control
Ooka R, Ikeda S |
| 234 - 242 |
Control of a PCM ventilated facade using reinforcement learning techniques
de Gracia A, Fernandez C, Castell A, Mateu C, Cabeza LF |
