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Turbine Inlet Air Cooling

Turbine Inlet Air Cooling (TIAC) is a group of technologies and techniques whose objective is cooling down the intake air of the Gas Turbine (GT) and ultimately power output augmentation. This technology is widely used in hot climates with high ambient temperatures that usually coincide with on-peak power demand. Since the worldwide energy demand is increasing, energy efficiency and effective asset utilization have become two of the most critical issues in power generation.

With the ARANER’s TIAC System this negative effect is compensated thanks to a turbine inlet temperature decrease. The turbine will have constant inlet air temperature, increasing the power output and maintaining it stable against temperature changes. It creates a direct economic benefit in two ways, increasing the annual average output MW and saving capital cost in comparison to additional turbine installation.

Turbine Inlet Air Cooling Technologies

Power output and turbine compressor efficiency are proportional to the inlet air mass flow rate, which decreses with higher temperatures. Furthermore, the electricity consumption peak time coincides with the warmer air temperature during the day.

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Fogging

Reduces the inlet air temperature by evaporating a spray of water after the filter stage.

Evaporative cooler

A wetted rigid media where water is distributed throughout the header and where air passes through the wet porous surface.

Compression Chillers

Based on a refrigeration cycle, in which water is cooled to a low temperature and pumped to a cooling coil installed within the turbine’s filter house.

Absorption Chillers

Uses heat as the energy source, instead of using electricity.

Engine driven chillers

Compression chillers driven by natural gas or diesel.

How does Turbine Inlet Air Cooling work?

Turbine Inlet Air Cooling system with chillers is the most common, reliable, and up-to-date technology. While other obsolete technologies rely on humidity increase, TIAC with chillers reduces the air temperature by doing a real cooling of the air and reducing the air enthalpy. An inlet air heat exchanger is installed downstream of the filters and the air is cooled by means of a chilled water flow produced in a cooling plant nearby. The air temperature can be selected in the HMI based on the requirements or also the control system can regulate accordingly in the automatic operation mode to achieve the selected air temperature.

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How to decide the type of TIAC Plant

When choosing a type of TIAC Plant, there are four decisions to be taken on the project.
TESTIAC Configuration

Turbine Inlet Air Cooling combined with TES

A TESTIAC configuration will improve the overall efficiency of the plant. Thermal Energy Storage is very beneficial combined with TIAC for peak power production, when extra power production is required for certain hours per day (typically 3 to 8 hours per day). With a TES Tank the net increase in power output is maximized and thehillers installed capacity required is reduced, reducing also the project cost.

The chilled water stored in the TES tank can be used to provide cooling in facilities that use gas turbines, like a GT Power Plant. TIAC helps increase turbine power output in facilities situated in areas with extreme ambient conditions.

TIAC system can be further improved by using a Thermal Energy Storage Tank. This tank stores the water produced when cooling the turbine’s inlet air does not require the whole chiller system capacity.

TIAC systems are also capable of dry operation with no water consumption in environments where it isn’t available, or also can use seawater cooled chillers when the plant is located close to the sea. This is the most efficient and cost-effective solution in the long-term run for these areas.

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Benefits offered by TIAC Technology

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Maximum efficiency in simultaneous chilled water PRODUCTION AND CONSUMPTION

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Fast system power delivery compared with NEW GAS TURBINE INSTALLATION 

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AVOID GT OUTPUT FLUCTUATION produced by ambient conditions.

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LOWER PRICE per generated megawatt compared with new GT plant.

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NO EXTRA auxiliaries’ equipment needed 

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Recognized GREEN TECHNOLOGY with carbon credits.

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Turbine improvement of the HEAT RATE UP TO 5%.

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GT POWER OUTPUT INCREASE about 10% to 30%

CASE STUDY

Badra Oil field Project

TIAC SOLUTION

This strong case study will help you to understand more clearly how TIAC System can optimize the power efficiency on a plant.

Technical guide

Turbine Inlet Air Cooling

TIAC SOLUTION

A guide to increase your knowledge about turbine cooling and the available technologies.

FAQS

Know more about TIAC solution

Solve any doubts through our frequently asked questions or ask for advice

FAQ's about TIAC