Your search keyword '"Bozhko, Serhiy"' showing total 7 results

1. Electric Power Transfer Concept for Enhanced Performance of the More Electric Engine.

Author

Enalou, Hossein Balaghi and Bozhko, Serhiy

Abstract

In future electrified aircraft, multispool more electric engines (MEEs) are expected to be equipped with electric generators connected to each shaft for power offtake and supplying onboard electrical loads. These can be interfaced to a common high-voltage DC bus architecture via power electronic converters. Such system architecture enables the establishment of an "electrical bridge" to circulate the desired amount of power between the engine shafts, and decouple their speeds. This paper introduces the possible benefits from the electric power transfer (EPT) for engine performance and scrutinizes a novel EPT-adopted design (EPTAD) for future MEEs. For this purpose, a zero-dimensional (0D) engine model has been developed by using the intercomponent-volume (ICV) method. By using the engine model, the CFM56-3 engine is redesigned to realize the EPTAD. Comparing the simulation results for the EPTAD and baseline CFM56-3 engines shows significant improvement for engine performance in terms of specific fuel consumption (SFC) and surge margin (SM), mainly at cruise (CR) condition. Results show that almost 3.2% and 2.2% of fuel burn reduction is achieved for the short- and medium-haul flights, respectively, with a 1150 kW EPT system. It is also shown that variable bleed valves (VBVs) can be eliminated in the EPTAD engine with a 1150 kW EPT system. [ABSTRACT FROM AUTHOR]

Published

2021

2. A detailed modular governor-turbine model for multiple-spool gas turbine with scrutiny of bleeding effect

Author

Balaghi Enalou, Hossein, Abbasi Soreshjani, Eshagh, Rashed, Mohamed, Yeoh, Seang Shen, Bozhko, Serhiy, Balaghi Enalou, Hossein, Abbasi Soreshjani, Eshagh, Rashed, Mohamed, Yeoh, Seang Shen, and Bozhko, Serhiy

Abstract

Multiple-spool gas turbines are usually utilized for power supply in aircrafts, ships, and terrestrial electric utility plants. As a result, having a reliable model of them can aid with the control design process and stability analysis. Since several interconnected components are coupled both thermodynamically and through shafts, these engines cannot be modeled linearly as single shaft gas turbines. In this paper, intercomponent volume method (ICV) has been implemented for turbine modeling. A switched feedback control system incorporating bump-less transfer and antiwindup functionality is employed as governor for the engine. Validation with test results from a three spool gas turbine highlights high accuracy of turbine-governor model in various maneuvers. Results show that over-speed after load rejection is considerable due to the fact that in this arrangement, the power turbine (PT) is not coupled with the compressor which acts like a damper for single shaft gas turbines. To address this problem, bleed valves (mainly before combustion chamber) are used to arrest the over-speed by 20%. In addition, a switch is employed into the governor system to rapidly shift fuel to permissible minimum flow.

3. A detailed modular governor-turbine model for multiple-spool gas turbine with scrutiny of bleeding effect

Author

Balaghi Enalou, Hossein, Abbasi Soreshjani, Eshagh, Rashed, Mohamed, Yeoh, Seang Shen, Bozhko, Serhiy, Balaghi Enalou, Hossein, Abbasi Soreshjani, Eshagh, Rashed, Mohamed, Yeoh, Seang Shen, and Bozhko, Serhiy

Abstract

Multiple-spool gas turbines are usually utilized for power supply in aircrafts, ships, and terrestrial electric utility plants. As a result, having a reliable model of them can aid with the control design process and stability analysis. Since several interconnected components are coupled both thermodynamically and through shafts, these engines cannot be modeled linearly as single shaft gas turbines. In this paper, intercomponent volume method (ICV) has been implemented for turbine modeling. A switched feedback control system incorporating bump-less transfer and antiwindup functionality is employed as governor for the engine. Validation with test results from a three spool gas turbine highlights high accuracy of turbine-governor model in various maneuvers. Results show that over-speed after load rejection is considerable due to the fact that in this arrangement, the power turbine (PT) is not coupled with the compressor which acts like a damper for single shaft gas turbines. To address this problem, bleed valves (mainly before combustion chamber) are used to arrest the over-speed by 20%. In addition, a switch is employed into the governor system to rapidly shift fuel to permissible minimum flow.

4. A detailed modular governor-turbine model for multiple-spool gas turbine with scrutiny of bleeding effect

Author

Balaghi Enalou, Hossein, Abbasi Soreshjani, Eshagh, Rashed, Mohamed, Yeoh, Seang Shen, Bozhko, Serhiy, Balaghi Enalou, Hossein, Abbasi Soreshjani, Eshagh, Rashed, Mohamed, Yeoh, Seang Shen, and Bozhko, Serhiy

Abstract

Multiple-spool gas turbines are usually utilized for power supply in aircrafts, ships, and terrestrial electric utility plants. As a result, having a reliable model of them can aid with the control design process and stability analysis. Since several interconnected components are coupled both thermodynamically and through shafts, these engines cannot be modeled linearly as single shaft gas turbines. In this paper, intercomponent volume method (ICV) has been implemented for turbine modeling. A switched feedback control system incorporating bump-less transfer and antiwindup functionality is employed as governor for the engine. Validation with test results from a three spool gas turbine highlights high accuracy of turbine-governor model in various maneuvers. Results show that over-speed after load rejection is considerable due to the fact that in this arrangement, the power turbine (PT) is not coupled with the compressor which acts like a damper for single shaft gas turbines. To address this problem, bleed valves (mainly before combustion chamber) are used to arrest the over-speed by 20%. In addition, a switch is employed into the governor system to rapidly shift fuel to permissible minimum flow.

5. A detailed modular governor-turbine model for multiple-spool gas turbine with scrutiny of bleeding effect

Author

Balaghi Enalou, Hossein, Abbasi Soreshjani, Eshagh, Rashed, Mohamed, Yeoh, Seang Shen, Bozhko, Serhiy, Balaghi Enalou, Hossein, Abbasi Soreshjani, Eshagh, Rashed, Mohamed, Yeoh, Seang Shen, and Bozhko, Serhiy

Abstract

Multiple-spool gas turbines are usually utilized for power supply in aircrafts, ships, and terrestrial electric utility plants. As a result, having a reliable model of them can aid with the control design process and stability analysis. Since several interconnected components are coupled both thermodynamically and through shafts, these engines cannot be modeled linearly as single shaft gas turbines. In this paper, intercomponent volume method (ICV) has been implemented for turbine modeling. A switched feedback control system incorporating bump-less transfer and antiwindup functionality is employed as governor for the engine. Validation with test results from a three spool gas turbine highlights high accuracy of turbine-governor model in various maneuvers. Results show that over-speed after load rejection is considerable due to the fact that in this arrangement, the power turbine (PT) is not coupled with the compressor which acts like a damper for single shaft gas turbines. To address this problem, bleed valves (mainly before combustion chamber) are used to arrest the over-speed by 20%. In addition, a switch is employed into the governor system to rapidly shift fuel to permissible minimum flow.

6. A detailed modular governor-turbine model for multiple-spool gas turbine with scrutiny of bleeding effect

Author

Balaghi Enalou, Hossein, Abbasi Soreshjani, Eshagh, Rashed, Mohamed, Yeoh, Seang Shen, Bozhko, Serhiy, Balaghi Enalou, Hossein, Abbasi Soreshjani, Eshagh, Rashed, Mohamed, Yeoh, Seang Shen, and Bozhko, Serhiy

Abstract

Multiple-spool gas turbines are usually utilized for power supply in aircrafts, ships, and terrestrial electric utility plants. As a result, having a reliable model of them can aid with the control design process and stability analysis. Since several interconnected components are coupled both thermodynamically and through shafts, these engines cannot be modeled linearly as single shaft gas turbines. In this paper, intercomponent volume method (ICV) has been implemented for turbine modeling. A switched feedback control system incorporating bump-less transfer and antiwindup functionality is employed as governor for the engine. Validation with test results from a three spool gas turbine highlights high accuracy of turbine-governor model in various maneuvers. Results show that over-speed after load rejection is considerable due to the fact that in this arrangement, the power turbine (PT) is not coupled with the compressor which acts like a damper for single shaft gas turbines. To address this problem, bleed valves (mainly before combustion chamber) are used to arrest the over-speed by 20%. In addition, a switch is employed into the governor system to rapidly shift fuel to permissible minimum flow.

7. A Detailed Modular Governor-Turbine Model for Multiple-Spool Gas Turbine With Scrutiny of Bleeding Effect.

Author

Enalou, Hossein Balaghi, Soreshjani, Eshagh Abbasi, Rashed, Mohamed, Seang Shen Yeoh, and Bozhko, Serhiy

Abstract

Multiple-spool gas turbines are usually utilized for power supply in aircrafts, ships, and terrestrial electric utility plants. As a result, having a reliable model of them can aid with the control design process and stability analysis. Since several interconnected components are coupled both thermodynamically and through shafts, these engines cannot be modeled linearly as single shaft gas turbines. In this paper, intercomponent volume method (ICV) has been implemented for turbine modeling. A switched feedback control system incorporating bump-less transfer and antiwindup functionality is employed as governor for the engine. Validation with test results from a three spool gas turbine highlights high accuracy of turbine-governor model in various maneuvers. Results show that over-speed after load rejection is considerable due to the fact that in this arrangement, the power turbine (PT) is not coupled with the compressor which acts like a damper for single shaft gas turbines. To address this problem, bleed valves (mainly before combustion chamber) are used to arrest the over-speed by 20%. In addition, a switch is employed into the governor system to rapidly shift fuel to permissible minimum flow. [ABSTRACT FROM AUTHOR]

Published

2017