As part of the United States Navy green energy initiative, engineers at Rolls-Royce and NAVSEA conducted a combustion assessment for a blend of 50% algae-derived HRD76 biofuel and 50% conventional F76 military diesel. The assessment consisted of combustion rig testing with Rolls-Royce Model 501-K34 gas turbine combustion system hardware. Identical tests were performed with the biofuel blend and a baseline fuel consisting of 100% F76 military diesel. The test results quantified the impact of the alternative fuel blend on ignition, lean blow-out, combustor exit temperature profile, combustion system hardware temperatures, primary zone flame radiance, carbon deposition, and emissions. This paper discusses the methods and results of the combustion rig tests.

Issue Section:
Gas Turbines: Combustion, Fuels, and Emissions
Topics:
Biofuel, Combustion, Fuels, Carbon, Ignition

References

1.
MIL-DTL-16884L
,
2002
, “Detail Specification, Naval Distillate Fuel.”
2.
MIL-PRF-7024E
,
1990
, “
Performance Specification, Calibration Fluids, Aircraft Fuel System Components
.”
3.
ARP1256D
, SAE Aerospeace Recommended Practice,
2011
, “
Procedure for the Continuous Sampling and Measurement of Gaseous Emissions from Aircraft Turbine Engines
.”
4.
ARP1533A
, SAE Aerospace Recommended Practice,
2004
, “
Procedure for the Analysis and Evaluation of Gaseous Emissions from Aircraft Engines
.”
5.
ARP1179D
, SAE Aerospace Recommended Practice,
2011
, “
Aircraft Gas Turbine Engine Exhaust Smoke Measurement
.”
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