Gas turbine efficiency and power output are strongly dependent on the inlet air condition. Thus, several authors proposed the use of different inlet air cooling systems. Such systems include, as examples, spraying water in the inflow air stream or air cooling through a chiller during GT operation. In the latter case, it is possible to operate the chiller at night time, taking advantage of the remarkable price gap between peak and off-peak hours. A parametric analysis of such a system is presented, focusing on the effect of price gap, chiller and storage design parameters and climatic conditions on the optimal sizing of the plant. Both the gas turbine performance changes, due to the different inlet conditions, and thermal losses related to t...
The paper presents the results of an investigation on inlet air cooling systems based on cool therma...
In this study, a mathematical model of an ice thermal energy storage (ITES) system for gas turbine c...
none5The growing demand of energy of 1.6% per year in the period 2006÷2030 [1], coupled with the nee...
Gas turbine efficiency and power output are strongly dependent on the inlet air condition. Thus, sev...
This paper reports on a techno-economical parametric analysis of an inlet air cooling system applied...
Gas turbine air inlet cooling is a useful method for increasing output for regions where significant...
Regions that experience ambient temperatures rising during hot seasons have significant losses and i...
A basic goal of operation management is to successfully complete the life cycle of power systems, wi...
A gas turbine installation (GTI) consists of 5 main parts: an input device, a compressor, a combusti...
Gas turbine (GT) power plants operating in arid climates suffer a decrease in output power during th...
An analysis was made to assess the potential enhancement of a fleet of 14 small gas turbines' power ...
It is proposed the definition of the installed (rational) refrigeration capacity of a waste heat-rec...
Abstract : Electrical power generation can be achieved through many means, one of which includes us...
Gas turbines incur a loss of output power during hot seasons due to high ambient air temperatures, a...
The strong influence of climate conditions on gas turbine behavior is well known. During the summer ...
The paper presents the results of an investigation on inlet air cooling systems based on cool therma...
In this study, a mathematical model of an ice thermal energy storage (ITES) system for gas turbine c...
none5The growing demand of energy of 1.6% per year in the period 2006÷2030 [1], coupled with the nee...
Gas turbine efficiency and power output are strongly dependent on the inlet air condition. Thus, sev...
This paper reports on a techno-economical parametric analysis of an inlet air cooling system applied...
Gas turbine air inlet cooling is a useful method for increasing output for regions where significant...
Regions that experience ambient temperatures rising during hot seasons have significant losses and i...
A basic goal of operation management is to successfully complete the life cycle of power systems, wi...
A gas turbine installation (GTI) consists of 5 main parts: an input device, a compressor, a combusti...
Gas turbine (GT) power plants operating in arid climates suffer a decrease in output power during th...
An analysis was made to assess the potential enhancement of a fleet of 14 small gas turbines' power ...
It is proposed the definition of the installed (rational) refrigeration capacity of a waste heat-rec...
Abstract : Electrical power generation can be achieved through many means, one of which includes us...
Gas turbines incur a loss of output power during hot seasons due to high ambient air temperatures, a...
The strong influence of climate conditions on gas turbine behavior is well known. During the summer ...
The paper presents the results of an investigation on inlet air cooling systems based on cool therma...
In this study, a mathematical model of an ice thermal energy storage (ITES) system for gas turbine c...
none5The growing demand of energy of 1.6% per year in the period 2006÷2030 [1], coupled with the nee...