Your search keyword '"Riccardo Friso"' showing total 2 results

1. A strategy for the robust forecasting of gas turbine health subjected to fouling

Author

Ettore Fadiga, Pier Ruggero Spina, Stefano Oliani, Riccardo Friso, Nicola Aldi, Alessandro Vulpio, Alessio Suman, Nicola Casari, and Michele Pinelli

Subjects

Work (thermodynamics), Fouling, business.industry, Nozzle, Computational fluid dynamics, Residual, Turbine, NO, Environmental sciences, Turbine map, Environmental science, GE1-350, Process engineering, business, Scaling

Abstract

Fouling represents a major problem for Gas Turbines (GTs) in both heavy-duty and aero-propulsion applications. Solid particles entering the engine can stick to the internal surfaces and form deposits. Components' lifetime and performance can dramatically vary as a consequence of this phenomenon. These effects impact the whole engine in terms of residual life, operating stability, and maintenance costs. In the High-Pressure Turbine (HPT), in particular, the high temperatures soft the particles and promote their adhesion, especially in the short term. Unfortunately, predicting the GT response to this detrimental issue is still an open problem for scientists. Furthermore, the stochastic variations of the components operating conditions increase the uncertainty of the forecasting results. In this work, a strategy to predict the effects of turbine fouling on the whole engine is proposed. A stationary Gas Path Analysis (GPA) has been performed for this scope to predict the GT health parameters. Their alteration as a consequence of fouling has been evaluated by scaling the turbine map. The scaling factor has been found by performing Computational Fluid Dynamic (CFD) simulations of a HPT nozzle with particle injection. Being its operating conditions strongly uncertain, a stochastic analysis has been conducted. The uncertainty sources considered are the circumferential hot core location and the turbulence level at the inlet. The study enables to build of confidence intervals on the GT health parameters predictions and represents a step forward towards a robust forecasting tool.

Published

2021

2. Off-line washing effectiveness on a multistage axial compressor

Author

Michele Pinelli, Nicola Casari, Ettore Fadiga, Nicola Aldi, Stefano Oliani, Alessio Suman, Pier Ruggero Spina, Alessandro Vulpio, Riccardo Friso, and Nicola Zanini

Subjects

Fouling, Water flow, business.industry, Flow (psychology), Airflow, ComputerApplications_COMPUTERSINOTHERSYSTEMS, Unit operation, NO, law.invention, Environmental sciences, Axial compressor, law, Environmental science, GE1-350, Process engineering, business, Gas compressor, Filtration

Abstract

The interaction between gas turbines and airborne particles determines detrimental effects on the performance, efficiency, and reliability of the power unit. When it is possible, the interaction is reduced by the use of inlet separators and filtration systems. In an aero engine, these barriers are difficult to implement, and only bigger particles (usually greater than 10 μm) are separated from the airflow. Small units, especially those equips helicopters, are usually affected by fouling issues, especially when the aircraft is employed in harsh environments such as firefighting and rescue activities. To recover this contamination, the unit is washed after the mission by ground operations to restore the unit performance by removing the deposits. This operation occurs during a sub-idle unit operation, and the washing process has to be effective when the engine operates in this off-design condition. In this paper, the evaluation of the washing performance during a sub-idle unit operation is carried out. The compressor unit is a multistage axial compressor that equips the Allison 250-C18 engine. The washing operation was performed by water, and a sensitivity analysis is carried out to discover the capability of water droplets to remove the contaminants. The experimental analysis involves the contamination of the unit by micro-sized soot particles and a washing operation by micro-sized water droplets. These experimental results are compared to numerical simulations to discover the effects of the washing operation on a small power unit during sub-idle operating conditions. The off-design regime imposes a specific evaluation of the proper setup of the washing strategy: flow separations involve wider regions in the compressor unit, and the removal capability is strongly related to the droplet path through the stages. The results show how in the off-design washing operation, the droplet diameter has greater importance than the water flow rate for reducing the deposits over the compressor stages.

Published

2021