BEARCAT Instrumentation Test Engine: Unterschied zwischen den Versionen

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The probe is automatically traversed moving into the engine thanks to a versatile device called SYSPAC. This device allows also the data acquisition, independent of the whatever the probe type, it performs data analysis and associates them to main engine data collected from the Human Machine Interface.
 
The probe is automatically traversed moving into the engine thanks to a versatile device called SYSPAC. This device allows also the data acquisition, independent of the whatever the probe type, it performs data analysis and associates them to main engine data collected from the Human Machine Interface.
  
 
== Engines which can be included in the facility ==
 
* Exclusively built for the BEARCAT test engine ???
 
  
 
== Example Images ==
 
== Example Images ==
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* Students and Graduates ??  
 
* Students and Graduates ??  
 
* ??
 
* ??
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 +
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== Engines which can be included in the facility ==
 +
* Exclusively built for the BEARCAT test engine ???
  
 
== Type of modifications to engines ==
 
== Type of modifications to engines ==
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* Well suited to technological works such as TRL enhancement on a real turboshaft engine.  
 
* Well suited to technological works such as TRL enhancement on a real turboshaft engine.  
 
* First tests planned in October 2020.
 
* First tests planned in October 2020.
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 +
 
== Type of running to be considered ==
 
== Type of running to be considered ==
Please add any other running uses that we have not covered.  
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''Please add any other running uses that we have not covered.''
 
 
  
 
Length: 1836 mm Weight 279 kg
 
Length: 1836 mm Weight 279 kg
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== Indicative Engine Operating Environment ==
 
== Indicative Engine Operating Environment ==
 
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''add here''
 
 
  
  
 
== Expected Availability Date ==
 
== Expected Availability Date ==
 
MMMMMMMMM YYYYY
 
MMMMMMMMM YYYYY
 
=== About SAFRAN Group ===
 
''[add some 3 line about about  the AIM the SAFRAN Group.]''
 
 
 
 
  
  
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BEARCAT is also well suited to TRL enhancement tests? with many advantages. BEARCAT is a real engine with a real, and well-known engine environment in terms of thermodynamicsics, mechanics, vibrations, chemistry …. It is also the opportunity to eventually quantify the impact of the implemented technology: sensors, equipment, material, fuel, design, material, process, …. by means of the implemented metrology.
 
BEARCAT is also well suited to TRL enhancement tests? with many advantages. BEARCAT is a real engine with a real, and well-known engine environment in terms of thermodynamicsics, mechanics, vibrations, chemistry …. It is also the opportunity to eventually quantify the impact of the implemented technology: sensors, equipment, material, fuel, design, material, process, …. by means of the implemented metrology.
 
Also suited as a platform for sensor validation ?
 
Also suited as a platform for sensor validation ?
 +
 +
=== About SAFRAN Group ===
 +
''[add some 3 line about about  the AIM the SAFRAN Group.]''

Version vom 16. Juli 2020, 15:21 Uhr

Introduction

BEARCAT (for "Banc d’Essai Avancé pour la Recherche en Combustion et Aérothermique des Turbomachines") is a brand new turboshaft developed by SAFRAN-Tech, the R&D Center of the SAFRAN Group. BEARCAT is based on a MAKILA engine, a turboshaft developed by Safran Helicopter Engines (formerly Turboméca) and powering the H215 and the H225 Airbus Helicopters. BEARCAT has been developed in order to perform fine characterization of aero-thermal phenomena occurring within the combustion chamber and the High Pressure Turbine as well as their interactions. Therefore, BEARCAT differs from a standard test engine by the implementation of metrologies, in order to perform both steady and non-steady flow measurements which will be used to validate CFD codes and models. Therefore, BEARCAT could be used in the framework of fundamental studies, such as aerodynamics, thermics, combustion, acoustics, … as well as applied studies (sensors, materials, technologies, fuels, …). Indeed, thanks to the high degree of instrumentation, BEARCAT allows the fine characterization of the test conditions and then contributes to the TRL enhancement of the tested technology.


BEARCAT: a heavily instrumented Turboshaft

BEARCAT is based on a MAKILA turboshaft whose sectional a cross view is shown figure 1, while main characteristics are summarized in table 1.

The main purpose of BEARCAT is to generate an extensive data base which will be used to validate CFD codes, transient thermal codes, … and models. To address these concerns, it was felt necessary to instrument an engine within the hot temperature - high pressure region, by means of a metrology generally implemented on partial test rig and allowing a fine characterization of local unsteady characteristics of encountered flows. The instrumentation implemented on BEARCAT is summarized in table 2. Special attentions were given to the characterization of secondary flows and boundary conditions in terms of temperature (mass and flow) and pressure, in order to characterize the machine performances.

In another hand, the main flow can be is investigated by means of probes implemented at 7 sections, from the Combustor inlet to the HP-Turbine outlet. For each section, measured values are indicated in figure 2. Note that only one probe can will be implemented one at a time. The probe is automatically traversed moving into the engine thanks to a versatile device called SYSPAC. This device allows also the data acquisition, independent of the whatever the probe type, it performs data analysis and associates them to main engine data collected from the Human Machine Interface.


Example Images

Location

Tests to be carried out at SAFRAN Group in house facilities in XXXX, France.

Who the facility will be offered to:

  • Sensor manufacturers ??
  • Engine OEMs ??
  • Universities that are looking to utilise the engines to validate some of the work they are doing ??
  • Students and Graduates ??
  •  ??


Engines which can be included in the facility

  • Exclusively built for the BEARCAT test engine ???

Type of modifications to engines

Any modification or customizing possible?

Probe specifications

A heavily instrumented turboshaft: 385 measurement points.

  • 7 sections (23 physical access ports), from Combustor inlet to HP turbine Outlet, fitted with probes.
  • Both steady and unsteady measurements available.
  • Well suited to fundamental studies such as CFD validation.
  • Well suited to technological works such as TRL enhancement on a real turboshaft engine.
  • First tests planned in October 2020.


Type of running to be considered

Please add any other running uses that we have not covered.

Length: 1836 mm Weight 279 kg HP turbine ~ 33000 rpm OPR 11 Output shaft ~ 23000 rpm Max Cont. 1410 kW Torque ~ 900 Nm Take-Off 1563 kW Turbine Entry T° > 1100 K Table 1: Main characteristics of the Makila 2A1 engine.


Indicative Engine Operating Environment

add here


Expected Availability Date

MMMMMMMMM YYYYY


A perfect tool for fundamental studies

Thanks to the implemented instrumentation BEARCAT is really dedicated to fundamental studies. Indeed, BEARCAT allows both steady and non-steady flow measurements (velocity, static or dynamic pressure, temperature, chemical species …) coupled with mass temperature or local stress. A classical metrology allows the determination of detailed performances as well as the fine knowledge of the average experimental conditions generating the investigated flows (collected from the HMI). In total, 23 physical access ports es are available on BEARCAT at the level of the combustor and the HP turbine, allowing the implementation of a wide range of metrologies, still existing or to be developed.


A technological platform for Technology Readiness Level (TRL) enhancement

BEARCAT is also well suited to TRL enhancement tests? with many advantages. BEARCAT is a real engine with a real, and well-known engine environment in terms of thermodynamicsics, mechanics, vibrations, chemistry …. It is also the opportunity to eventually quantify the impact of the implemented technology: sensors, equipment, material, fuel, design, material, process, …. by means of the implemented metrology. Also suited as a platform for sensor validation ?

About SAFRAN Group

[add some 3 line about about the AIM the SAFRAN Group.]