A turbine inlet air-cooling system improves turbine performance and efficiency. A dehumidifier receives process airflow and reduces a moisture content of the process airflow. An indirect evaporative cooler receives the process airflow from the dehumidifier and is driven by the process airflow from t
A turbine inlet air-cooling system improves turbine performance and efficiency. A dehumidifier receives process airflow and reduces a moisture content of the process airflow. An indirect evaporative cooler receives the process airflow from the dehumidifier and is driven by the process airflow from the dehumidifier such that a first portion of the process airflow is contacted directly with water and a second portion of the process airflow is cooled without any addition of moisture. A direct evaporative cooler receives the second portion of the process airflow, which is contacted directly with water to provide evaporative cooling. Subsequently, the direct evaporative cooler outputs the second portion of the process airflow to the turbine.
대표청구항▼
1. A turbine inlet air-cooling system comprising:a dehumidifier receiving process airflow and reducing a moisture content of the process airflow; an indirect evaporative cooler receiving the process airflow from the dehumidifier, the indirect evaporative cooler being driven by the process airflow fr
1. A turbine inlet air-cooling system comprising:a dehumidifier receiving process airflow and reducing a moisture content of the process airflow; an indirect evaporative cooler receiving the process airflow from the dehumidifier, the indirect evaporative cooler being driven by the process airflow from the dehumidifier such that a first portion of the process airflow is contacted directly with water and a second portion of the process airflow is cooled without any addition of moisture; and a direct evaporative cooler receiving the second portion of the process airflow, wherein the second portion of the process airflow is contacted directly with water to provide evaporative cooling, the direct evaporative cooler outputting the second portion of the process airflow to the turbine. 2. A turbine inlet air-cooling system according to claim 1, wherein the dehumidifier is coupled with a liquid desiccant circuit containing liquid desiccant, the liquid desiccant absorbing moisture from the process airflow.3. A turbine inlet air-cooling system according to claim 2, wherein the liquid desiccant circuit comprises a regenerator for evaporating moisture and reconcentrating the liquid desiccant.4. A turbine inlet air-cooling system according to claim 3, wherein the liquid desiccant circuit further comprises a heat recovery heat exchanger and a turbine exhaust heat exchanger upstream of the regenerator, wherein the liquid desiccant circuit is configured such that liquid desiccant leaving the dehumidifier flows in series through a cool portion of the heat recovery heat exchanger, the turbine exhaust heat exchanger, the regenerator, a warm portion of the heat recovery heat exchanger, and back to the dehumidifier.5. A turbine inlet air-cooling system according to claim 4, wherein the liquid desiccant circuit further comprises a first pump driving the liquid desiccant through the regenerator and a second pump driving the liquid desiccant from the warm portion of the heat recovery heat exchanger through the dehumidifier.6. A turbine inlet air-cooling system according to claim 3, wherein the regenerator comprises a turbine exhaust heat exchanger for effecting an indirect heat exchange between the liquid desiccant and exhaust from the turbine.7. A turbine inlet air-cooling system according to claim 1, wherein the dehumidifier comprises a solid desiccant for absorbing moisture from the process airflow.8. A method of cooling turbine inlet air comprising:receiving process airflow and reducing a moisture content of the process airflow in a dehumidifier; driving an indirect evaporative cooler with the process airflow from the dehumidifier by contacting a first portion of the process airflow directly with water and cooling a second portion of the process airflow without any addition of moisture; and contacting the second portion of the process airflow directly with water in a direct evaporative cooler to provide evaporative cooling, the direct evaporative cooler outputting the second portion of the process airflow to the turbine. 9. A method according to claim 8, wherein the dehumidifier is coupled with a liquid desiccant circuit containing liquid desiccant, and wherein the step of reducing a moisture content of the process airflow comprises absorbing moisture with the liquid desiccant.10. A method according to claim 9, wherein the liquid desiccant circuit comprises a regenerator, the method further comprising evaporating moisture from and reconcentrating the liquid desiccant in the regenerator.11. A method according to claim 10, wherein the liquid desiccant circuit further comprises a heat recovery heat exchanger and a turbine exhaust heat exchanger upstream of the regenerator, the method further comprising configuring the liquid desiccant circuit such that liquid desiccant leaving the dehumidifier flows in series through a cool portion of the heat recovery heat exchanger, the turbine exhaust heat exchanger, the regenerator, a warm portion of the heat recovery heat exchanger, and back to the dehumidifier.12. A method according to claim 11, further comprising pumping the liquid desiccant through the regenerator, and pumping the liquid desiccant from the warm portion of the heat recovery heat exchanger through the dehumidifier.13. A method according to claim 11, further comprising pumping a fraction of the liquid desiccant through the regenerator, and recirculating a remaining portion of the liquid desiccant in the dehumidifier.14. A method according to claim 8, wherein the step of reducing a moisture content of the process airflow comprises absorbing moisture with a solid desiccant.15. A liquid desiccant circuit for circulating a liquid desiccant through a dehumidifier, the liquid desiccant circuit comprising:a regenerator for evaporating moisture and reconcentrating the liquid desiccant; and a heat recovery heat exchanger and a turbine exhaust heat exchanger upstream of the regenerator, the liquid desiccant circuit being configured such that liquid desiccant leaving the dehumidifier flows in series through a cool portion of the heat recovery heat exchanger, the turbine exhaust heat exchanger, the regenerator, a warm portion of the heat recovery heat exchanger, and back to the dehumidifier. 16. A liquid desiccant circuit according to claim 15, further comprising a first pump driving the liquid desiccant through the regenerator and a second pump driving the liquid desiccant from the warm portion of the heat recovery heat exchanger through the dehumidifier.
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