Design and 3E analysis of a hybrid power plant integrated with a single-effect absorption chiller driven by a heliostat field: A case study for Doha, Qatar
This study suggests a novel zero-emission combined cooling and power (CCP) system
using a high-temperature solar field, ie, heliostat reflectors and a central receiver as the heat …
using a high-temperature solar field, ie, heliostat reflectors and a central receiver as the heat …
Design and 3E analysis of a hybrid power plant integrated with a single-effect absorption chiller driven by a heliostat field: A case study for Doha, Qatar
N Nedaei, F Hamrang, LG Farshi - Energy, 2022 - econpapers.repec.org
This study suggests a novel zero-emission combined cooling and power (CCP) system
using a high-temperature solar field, ie, heliostat reflectors and a central receiver as the heat …
using a high-temperature solar field, ie, heliostat reflectors and a central receiver as the heat …
Design and 3E analysis of a hybrid power plant integrated with a single-effect absorption chiller driven by a heliostat field: A case study for Doha, Qatar
N Nedaei, F Hamrang, LG Farshi - Energy, 2022 - ideas.repec.org
This study suggests a novel zero-emission combined cooling and power (CCP) system
using a high-temperature solar field, ie, heliostat reflectors and a central receiver as the heat …
using a high-temperature solar field, ie, heliostat reflectors and a central receiver as the heat …
Design and 3E analysis of a hybrid power plant integrated with a single-effect absorption chiller driven by a heliostat field: A case study for Doha, Qatar
N Nedaei, F Hamrang, LG Farshi - Energy, 2022 - ui.adsabs.harvard.edu
This study suggests a novel zero-emission combined cooling and power (CCP) system
using a high-temperature solar field, ie, heliostat reflectors and a central receiver as the heat …
using a high-temperature solar field, ie, heliostat reflectors and a central receiver as the heat …