December 12, 2022
There are myriad schemes and Doctoral Theses on- line proposing the use of compressed air to drive turbines. On a larger scale, there are plans to convert excess electricity, generated at times of low demand, into compressed air that will be stored in huge underground caverns sited next to existing power stations. This compressed air can then be used to generate electricity when demand peaks. However, all of these plans and schemes propose feeding compressed air directly on to turbine runners. Unfortunately, even using compressed air at high bar, pressure is not a very efficient way to drive turbines.
There are myriad schemes and Doctoral Theses on- line proposing the use of compressed air to drive turbines. On a larger scale, there are plans to convert excess electricity, generated at times of low demand, into compressed air that will be stored in huge underground caverns sited next to existing power stations. This compressed air can then be used to generate electricity when demand peaks.
There are myriad schemes and Doctoral Theses on- line proposing the use of compressed air to drive turbines. On a larger scale, there are plans to convert excess electricity, generated at times of low demand, into compressed air that will be stored in huge underground caverns sited next to existing power stations. This compressed air can then be used to generate electricity when demand peaks. However, all of these plans and schemes propose feeding compressed air directly on to turbine runners. Unfortunately, even using compressed air at high bar, pressure is not a very efficient way to drive turbines.There are myriad schemes and Doctoral Theses on- line proposing the use of compressed air to drive turbines. On a larger scale, there are plans to convert excess electricity, generated at times of low demand, into compressed air that will be stored in huge underground caverns sited next to existing power stations. This compressed air can then be used to generate electricity when demand peaks. However, all of these plans and schemes propose feeding compressed air directly on to turbine runners. Unfortunately, even using compressed air at high bar, pressure is not a very efficient way to drive turbines.
There are myriad schemes and Doctoral Theses on- line proposing the use of compressed air to drive turbines. On a larger scale, there are plans to convert excess electricity, generated at times of low demand, into compressed air that will be stored in huge underground caverns sited next to existing power stations. This compressed air can then be used to generate electricity when demand peaks.
There are myriad schemes and Doctoral Theses on- line proposing the use of compressed air to drive turbines. On a larger scale, there are plans to convert excess electricity, generated at times of low demand, into compressed air that will be stored in huge underground caverns sited next to existing power stations. This compressed air can then be used to generate electricity when demand peaks.