Your search keyword '"Daniele Di Benedetto"' showing total 10 results

1. Darlin: A proof carrying data scheme based on Marlin.

Author

Ulrich Haböck, Alberto Garoffolo, and Daniele Di Benedetto

Published

2021

2. Design Procedure of a Rotating Cavity Rig for Hot Gas Ingestion Investigation

Author

Lorenzo Orsini, Alessio Picchi, Alessio Bonini, Luca Innocenti, Daniele Di Benedetto, Riccardo Da Soghe, and Lorenzo Mazzei

Abstract

This paper presents the design procedure and the setup of a Rotating Cavity Rig to investigate the problem of the high-pressure turbine main annulus flow ingestion into wheel-spaces. The single-stage test rig has been developed to run at cold flow conditions and it consists of a stationary and a rotating disk housing interchangeable cover plates to mimic different seal geometries. Thanks to such interchangeable covers, the rim seal configuration can be easily modified to investigate different arrangements and to perform optimization studies. Although some geometry simplifications are inevitable in scaled down models, such covers have been modelled as to represent a real engine rim seal as close as possible. Beside the standard pressure and CO2 concentration measurements inside the cavity, the rig implements optical accesses to exploit measurement techniques based on Pressure Sensitive Paints (PSP). Optical approaches will then be used to explore the rim sealing effectiveness on both stator and rotor disk under real engine representative operating conditions. CFD and FEM analyses run to support the rig design choices and to define its operating limits are hence highlighted and properly explained.

Published

2022

3. Analysis of Measured and Predicted Turbine Maps From Start-Up to Design Point

Author

Stefano Francini, Alberto Scotti Del Greco, Michele Marconcini, Daniele Di Benedetto, Tomasz Jurek, Sara Biagiotti, and Vittorio Michelassi

Subjects

Computer science, business.industry, Mechanical Engineering, Point (geometry), Mechanics, Computational fluid dynamics, business, Start up, Turbine

Abstract

This paper describes a coupled experimental and computational fluid dynamics (CFD) campaign conducted on a 1.5 intermediate turbine stage in the full range of operating conditions, from start-up to design point under variable expansion ratio and physical speed. The test maintains engine similitude conditions and allows direct comparison with CFD data to assess the predictions accuracy. The choice of variables to describe the speedlines is also addressed by using both measured and predicted data. A discussion on velocity ratio versus corrected speed illustrates the advantages of the former parameter the adoption of which produces constant shape curves in a very wide range of operating conditions. The comparison between measurements and predictions suggests that CFD, in conjunction with performance correlations, is a viable tool to predict speedlines in a fairly wide range of conditions, provided that geometrical and operational details are carefully matched.

Published

2022

4. On the Extrapolation of Rim Sealing Performance From Test Bench to Real Engine: A Numerical Survey

Author

Lorenzo Mazzei, Alessio Bonini, Cosimo Bianchini, Riccardo Da Soghe, Luca Innocenti, Lorenzo Orsini, and Daniele Di Benedetto

Subjects

Test bench, Fuel Technology, Nuclear Energy and Engineering, business.industry, Mechanical Engineering, Extrapolation, Energy Engineering and Power Technology, Aerospace Engineering, Computational fluid dynamics, business, Marine engineering

Abstract

The main annulus hot gas ingress into turbine wheel-spaces is still one of the most challenging problem designers face. During the decades, several experimental test benches were developed worldwide to improve the knowledge associated to the rim seal flow physics. Even if in some cases quite complex and advanced rig configurations were proposed, limitations in the operating conditions and in the reproduction of the real engine geometries/characteristics into the rig are present. In this paper, validated CFD computations are used to explore the impact of some experimental rigs design choices/limitations on the sealing effectiveness prediction and their ability to mimic the real engine configuration behaviour. Attention is paid on several test rig related aspects such as operating conditions, flow path configuration (blade and vane count) and accuracy in the real engine rim seal geometry reconstruction applied to the rig. From the computations it emerges that a scaled geometry operated at lab conditions is able to mimic pretty well the real engine sealing performance when rig and engine experience the same flow path ΔCp. The ability of the rig to match the engine data is not affected by the differences in main annulus Mach number between test bench and engine. A further result that emerges from the computation regards the fact that the Φ0 - ΔCp0.5 curve is not linear, proving that the linear extrapolation of rim sealing performance from test bench to real engine when rig and engine are characterized by different ΔCp0.5 values is not of general application and an alternative approach is given. Finally, it is found that the impact of vane count on the rim sealing effectiveness is significant, making the extrapolation of data from rig to engine difficult.

Published

2022

5. Design, Testing, and Performance Impact of Exhaust Diffusers in Aero-Derivative Gas Turbines for Mechanical Drive Applications

Author

Alberto Scotti Del Greco, Tomasz Jurek, Vittorio Michelassi, and Daniele Di Benedetto

Subjects

020301 aerospace & aeronautics, 0203 mechanical engineering, Mechanical Engineering, 0103 physical sciences, 02 engineering and technology, 01 natural sciences, 010305 fluids & plasmas

Abstract

The growing penetration of renewables calls for power generation and mechanical drive gas turbine (GT) capable of quickly adjusting production and operate at part load. Aero-derivative engine architectures leverage the large experience from aircraft propulsion, have small footprint, high performance, availability, and maintainability. Aircraft engines adjust power with fuel rate and shaft speed that go hand in hand. Mechanical drive engines need to change the delivered power by keeping the shaft speed under control to guarantee the operation of the driven equipment (an LNG compressor or an electric generator). Hence, the power turbine exhaust may deliver velocity and angle profiles that put the discharge diffuser in severe off-design with flow separations, high kinetic losses, and cycle performance shortfall. This paper describes Baker Hughes a GE company experience in the computational fluid dynamics (CFD) assisted design and similitude scale-down testing of aero-derivative hot-end drive exhaust diffusers in multiple operating points. The diffuser inlet conditions reproduce power turbine exit profiles by using swirl vanes and perforated plates, the design of which is heavily CFD assisted. Predictions match measurements in terms of pressure recovery, kinetic losses, and exhaust velocity profiles. Different data postprocessing and averaging are considered to properly factor in the diffuser losses into the overall turbine performance.

Published

2021

6. Algoritmo decisionale nelle infezioni periprotesiche

Author

Stefano Lucanto, Renato Gisonni, Paolo Di Benedetto, Vanni Cainero, Araldo Causero, Enrico Daniele Di Benedetto, and Alessandro Beltrame

Subjects

0301 basic medicine, 030222 orthopedics, medicine.medical_specialty, Debridement, business.industry, Incidence (epidemiology), medicine.medical_treatment, 030106 microbiology, Periprosthetic, Rheumatology, Surgery, 03 medical and health sciences, 0302 clinical medicine, Amputation, Internal medicine, Orthopedic surgery, medicine, Implant, business, Complication

Abstract

Periprosthetic infections are a rare complication. The incidence is about 1–2% after first implants and 5.6% after a revision. They have an important socio-economic impact and the incidence is increasing. In our clinic, in collaboration with the Infectious Diseases Division of our hospital, we developed an algorithm of periprosthetic infections, named “The Udine Strategy”. In acute infections, the treatment of choice is implant retention, debridement and subsequent antibiotic therapy; in this treatment, timing and replacement of the insert and the head is crucial. In delayed and chronic infections, the treatment is a two-stage revision, in which intraoperative sampling play a key role. Only in selected cases one-stage revision is used. Resection arthroplasty, antibiotic-suppression therapy, and amputation can be considered only in limited cases. Periprosthetic infections are a challenge for orthopaedists who, thanks to a multidisciplinary approach, should try to give the patient a more complete and lasting functional recovery.

Published

2017

7. Design, Testing, and Performance Impact of Exhaust Diffusers in Aero-Derivative Gas Turbines for Mechanical Drive Applications

Author

Vittorio Michelassi, Giacomo Ragni, Maria Vittoria Borghesi, Enrico Beghini, Tomasz Jurek, Alberto Scotti Del Greco, and Daniele Di Benedetto

Subjects

business.industry, Maintainability, Mechanical engineering, ComputerApplications_COMPUTERSINOTHERSYSTEMS, Computational fluid dynamics, Renewable energy, Stress (mechanics), chemistry.chemical_compound, Electricity generation, chemistry, Environmental science, business, Gas compressor, Derivative (chemistry), Liquefied natural gas

Abstract

The demand for gas-turbine (GT) based flexible power generation and mechanical drive is increasing due to the growing penetration of renewables and due to the need to quickly adjust production and operate at part load respectively. As efficiency operability low emissions, small footprint, availability and maintainability are of paramount importance, engine designers are leaning towards aircraft engine architectures that, with appropriate modifications mostly to the combustion system and turbine, can meet market needs. To leverage the large experience from aircraft propulsion, aero-derivative engines maintain the same architecture, with a high-speed shaft core, and a low-speed shaft driven by a multi-stage low-pressure turbine. While in aircraft engines power is adjusted by changing fuel rate and shaft speed, that go hand in hand, mechanical drive engines have more stringent needs that require changing the delivered power by keeping the shaft speed under control to guarantee the operation of the driven equipment (an LNG compressor or an electric generator). Therefore, the power turbine may deliver exit flow profiles and angles that put the turbine exhaust diffuser under severe off-design conditions, with the onset of large scale separations, large kinetic losses, and ultimately a significant drop on cycle performance. This paper describes Baker Hughes, a GE company experience in the CFD assisted design and scale-down testing of aero-derivative exhaust diffusers. The design incorporates the requirements of hot-end mechanical drive in multiple the power turbine operating conditions to determine the best compromise between peak design performance and off-design operability. The test in similitude conditions considered four relevant operating points. The inlet conditions matched with the power turbine exit profiles by the concerted action of swirl vanes and perforated plates, the design of which was heavily CFD assisted. Predictions matched measurements in terms of pressure recovery, kinetic losses, and exhaust velocity profiles. Different data post-processing and averaging were considered to properly factor in the diffuser losses into the overall turbine performance.

Published

2019

8. Aero Derivative Mechanical Drive Gas Turbines: The Design of Intermediate Pressure Turbines

Author

Stefano Francini, Mahendran Manoharan, Alberto Scotti Del Greco, Daniele Di Benedetto, and Vittorio Michelassi

Subjects

Gas turbines, 020301 aerospace & aeronautics, Materials science, business.industry, Mechanical engineering, 02 engineering and technology, Computational fluid dynamics, 01 natural sciences, 010305 fluids & plasmas, Intermediate pressure, chemistry.chemical_compound, 0203 mechanical engineering, chemistry, 0103 physical sciences, Boundary value problem, business, Gas compressor, Derivative (chemistry), Turbocharger, Liquefied natural gas

Abstract

Gas turbines engine designers are leaning towards aircraft engine architectures due to their footprint, weight, and performance advantages. Such engines need some modifications to both the combustion system, to comply with emission limits, and turbine rotational speed. Aero derivative engines maintain the same legacy aircraft engine architecture, and replace the fan and booster with higher speed compressor booster driven by a single stage intermediate turbine. A multistage free power turbine (FPT) sits on a separate shaft to drive compressors for Liquefied Natural Gas (LNG) applications or generators. The intermediate power turbine (IPT) design is important for the engine performance as it drives the booster compressor and sets the inlet boundary conditions to the downstream power turbine. This paper describes the experience of Baker Hughes, a GE company (BHGE) in the design of the intermediate turbine that sits in between a GE legacy aircraft engine core exhaust and the downstream power turbine. This paper focuses on the flow path of the TCF/intermediate turbine and the associated design, as well as on the 3D steady and unsteady CFD assisted design of the IPT stage to control secondary flows in presence of through flow curvature induced by the upstream TCF.

Published

2018

9. Arthroscopic rotator cuff repair with or without PrP: our experience

Author

Paolo, Di Benedetto, Enrico Daniele, Di Benedetto, Alessandro, Beltrame, Renato, Gisonni, Vanni, Cainero, and Araldo, Causero

Subjects

Male, Arthroscopy, Rotator Cuff, Platelet-Rich Plasma, Humans, Female, Middle Aged, Range of Motion, Articular, Aged

Abstract

Arthroscopical rotator cuff repair has good results, but the rate of tendon healing is 80% in small tears with a decrease to 30% in large and massive tears. Platelets are an endogenous source of growth factors present during rotator cuff healing. Aim of the work is checking if Cascade Autologous Platelet System may improve rotator cuff healing in small sovraspinatus tears.Each patient enrolled in cases has surgical arthroscopical repair of sovraspinatus small tear and then treated with intraoperatory Cascade. Patients of control group undergoing the same surgery with traditional arthroscopic repair. Follow-up time was at 3, 6, 12 month from surgery with evaluation of ROM, strength, Constant score, NRS. RMN was repeated at 12 month from surgery with evaluation of sovraspinatus tendon thickness, signal intensity, fat degeneration and muscle atrophy.Between 2010 and 2013, 18 patients have undergone sovraspinatus repair in arthroscopic surgery with intraoperatory Cascade and 18 patients with traditional arthroscopic repair. Only sovraspinatus tendon thickness and signal intensity were statistically difference in the cases group. In ROM, strength, Constant score, NRS, fat degeneration and muscle atrophy were not a statistically difference compared with controls.In small sovrapinsatus tears Cascade Autologous Platelet System did not result in improved ROM, strength, Constant score, NRS, tendon fat degeneration and muscle atrophy. Only sovraspinatus tendon thickness and signal intensity were improved.

Published

2016

10. Causes of Failure of Anterior Cruciate Ligament Reconstruction and Revision Surgical Strategies

Author

Paolo Di Benedetto, Alessandro Beltrame, and Araldo Causero, Enrico Daniele Di Benedetto, and Andrea Fiocchi

Subjects

medicine.medical_specialty, Graft failure, Anterior cruciate ligament reconstruction, Revision, medicine.medical_treatment, Anterior cruciate ligament, Failure, 03 medical and health sciences, 0302 clinical medicine, medicine, Failure causes, Orthopedics and Sports Medicine, Knee, High rate, 030222 orthopedics, Preoperative planning, Reconstruction, business.industry, 030229 sport sciences, musculoskeletal system, Surgery, medicine.anatomical_structure, Etiology, Patient evaluation, Original Article, business

Abstract

Purpose Long-term outcomes of anterior cruciate ligament (ACL) reconstruction are good or excellent; however, 0.7%-20% of patients suffer from recurrent instability due to graft failure. The purpose of this paper was to analyse failure aetiology and the possibilities of revision surgical strategies, with a description of our experience. We obtained optimal and good results in most of our patients. Materials and methods We retrospectively reviewed 42 patients who underwent revision surgery (43 revisions) due to relapsing instability after ACL reconstruction between 2006 and 2015. We used allografts in 39 cases and autografts in 4 cases. Results The 85.7% of the patients obtained optimal results (normal knee; group A) and the 7.2% obtained good results (nearly normal knee; group B) according to the International Knee Documentation Committee score. The most frequent failure causes were traumatic events, non-anatomic tunnel placement, and lack of graft incorporation. Conclusions A correct revision surgery requires accurate patient evaluation and knee imaging. Preoperative planning starts with the identification of the cause of failure of the primary reconstruction. Then, the most suitable procedure should be determined for each case. It is also important to accurately inform the patient of all the complexity of an ACL revision surgery even if it is a procedure with high rates of excellent and good outcomes.

Published

2016