TECHNICAL DATASHEET

EDDI sensors
Our complete solution for turbine power testing consists on three key elements:
A
The Turbine Engine
B
The Sensors
C
The Cabinet

SPECIFICATIONS

The turbine in this model is based on the Jet Central Mammoth 250 SE Engine with the necessary modifications to adequate the engine to the series of sensors that are needed to collect data and optimize the engine performance in continuous testing.
In addition, these modifications allow us to guarantee at least 50 hours of service cycles in this turbine, all these parameters can be tuned (up or down) according to the customer’s request or needs.
EDDI
1
Thrust:
150 Newton x 95,000 RPM.
2
Maximum RPM:
95,000.
3
Minimum RPM (idle):
28,200.
4
Fuel consumption:
95,000 RPM: 0.62 L/min.
5
Fuel:
Jet A-1, Kerosene or Diesel mixed with synthetic 2T engine oil at 2%.
6
Control:
ECU Jet Central with automatic start-up and cooling cycle system, fault diagnosis, adjustments and calibration of operation, recording of operating time.
Optional smaller turbine based on JetCentral Cheetah 160
1
Thrust:
130 Nw x 130,000 RPM.
2
Maximum RPM:
130,000.
3
Minimum RPM (idle):
34,000.
4
Fuel consumption:
130,000 RPM: 0.37 L/min.
EDDI
B
Sensors
1
RPM:
Hall sensor built into the ECU.
2
Humidity:
Environmental humidity sensor.
3
Temperature:
  • T1: Room temperature
  • T2: Compressor discharge temperature
  • T3: Temperature in the combustion chamber
  • T4: Exhaust temperature
4
Pressure:
  • Q1: Environmental pressure
  • Q2: Differential pressure in turbine intake (Pitot)
  • Q3: Compressor discharge pressure
  • Q4: Pressure in the combustion chamber
  • Q5: Exhaust pressure
  • Q6: Differential pressure at exhaust outlet (Pitot)
Sensors
5
Fuel:
Fuel flow paddle sensor.
6
Thrust:
Load Cell.
Sensors
This is the basic sensors setup that we recommend and it is included in the quote, however, this can be modified by the customer’s request to satisfy any requirement.
C
Test Cabinet
Extruded aluminum profile structure with aluminum covers and polycarbonate button for anchor (26” Width x 29” Depth x 63” Height).
The test stand bench is provided with a tank (can be modified for a high capacity fuel storage).
Also, the bench is equipped with a data collection during the testing process.
EDDI

DATA ACQUISITION SYSTEM

To provide a friendly, hazard-free experience while collecting the information collected during the testing, the Jet Central Test Stand is equipped with a PLC Unitronics Unistream 10.4” color touch screen with Unilogic programming software and USB and Ethernet communication.
For more information, please check the link:
https://unitronicsplc.com/unistream-series-unistream104/
The software is open-source, making possible to adequate the product to any customer’s request, it is a very simple programming tool, allowing the customer to do it at home or request it from us (extrafees may apply).

SENSORS DIAGRAM

Sensors Diagram
T2 – T5: Temperature Sensors
V1 – V2: Speed Sensors (Pitot tube)
P2 – P4: Pressure Sensors
Load Cell: Thrust Sensor
RPM: RPM Sensor

ADDITIONAL SENSORS
INSTALLED IN THE CABINET

  • T1: Ambient Temperature Sensor
  • P1: Pressure and Barometric Sensor
  • P5: Fuel Pressure Sensor
  • Relative Humidity Sensor
  • Fuel Consumption Sensor

JET CENTRAL TEST STAND

Front View Cut
EDDI Front View Cut
NOTE:
  • Only sensors installed in the turbine are displayed
  • Additional sensors are installed in the cabinet area

VIEWS

FRONT VIEW
SIDE VIEW
TOP VIEW

FRONT VIEW

EDDI Front View

SIDE VIEW

EDDI Side View

TOP VIEW

EDDI Top View

INSTALLATION

EDDI installation model
Electric Power Source
110 / 120v AC
Ethernet connection
IMPORTANT
For enclosed environments a minimum ventilation exit, equal to the exhaust diameter is required.
It is recommended to install a CO2 fire extinguisher near the test stand.

GET IN TOUCH

Please leave a message and we’ll contact you as soon as possible.