Rolls-Royce 1004227 User Manual

EPRI Proprietary Licensed Material

Rolls-Royce Aero-Derivative Combustion Turbine Background

2-14

Design

Characteristic

RB211 – 6562

(RB211-24G Gas Generator

with RT62 Power Turbine)

RB211 – 6761

(RB211-24GT Gas

Generator with RT61 Power

Turbine)

Trent 60 DLE

(Derivative of AERO 800 on

Boeing 777 and Airbus

A330)

Trent 60 WLE

(Derivative of AERO 800 on

Boeing 777 and Airbus

A330)

Reliability, Maintainability, Durability

Comments

Turbine Vanes -

HP

Mar-M-002, Sermaloy J

coating, air-cooled

Mar-M-002, Sermaloy J

coating, air-cooled

MarM002, Pt-Al coating, air-

cooled

Identical to the Aero 800

except for minor film cooling

modification

MarM002, Pt-Al coating, air-

cooled

Identical to the Aero 800

except for minor film cooling

modification

Typically performs Hot Gas Path Inspections at

25,000 fired hours and turbine overhauls at

50,000 fired hours

Turbine Vanes -

IP

C1023, Sermaloy J coating

C1023, Sermaloy J coating

MarM002, Pt-Al coating

Identical to the Aero 800

MarM002, Pt-Al coating

Identical to the Aero 800

Turbine Vanes -

LP

(see Power Turbine

description)

(see Power Turbine

description)

LPT-1,2 MarM002

LPT-3 C1023

LPT-4, 5 IN738LC

LPT-1,2 MarM002

LPT-3 C1023

LPT-4, 5 IN738LC

Turbine Blades -

HP

HPT-1 CMSX4 DS, Sermaloy

1515 coating, air-cooled

(upgrade from RB211 -24C)

Identical to the Aero RB211-

524G/H-T

HPT-1 CMSX4 Single

Crystal,

Sermaloy J Coating, air-

cooled

(was MarM002 with Pt-Al for -

24G prior to upgrade)

Identical to the Aero 800 - Air

Cooled

HPT Blades CMSX4, Single

Crystal

Platinum-Aluminide Coating

(cooling air from HPC-6)

Identical to the Aero 800 - Air

Cooled

HPT Blades CMSX4, Single

Crystal

Platinum-Aluminide Coating

(cooling air from HPC-6)

Uses blades directly from Trent 800, minor

changes in the film cooling pattern on the HP

Nozzle

Turbine Blades -

IP

Stage 1 LPT Blades CMSX4

(Directionally Solidified),

Coated with Sermaloy 1515

(upgrade from RB211 -24C)

Stage 1 LPT Blades CMSX4

(Directionally Solidified),

Coated with Sermaloy 1515

Identical to the Aero 800 -

Uncooled

IPT Blades RR3000,

directionally-solidified

(proprietary nickel-based

super-alloy)

Platinum-Aluminide Coating

Identical to the Aero 800 -

Uncooled

IPT Blades RR3000,

directionally-solidified

(proprietary nickel-based

super-alloy)

Platinum-Aluminide Coating

Turbine Blades -

LP

(see Power Turbine

Description)

(see Power Turbine

Description)

The first three stages of the

LPT are identical to Aero 800;

the last two stages have

increased expansion ratio to

extract all of the available

energy from the gas stream

for power production, having

larger gas path area and a

lower exit Mach Number than

the Aero 800

LPT-1 MarM002 LPT-2,3

IN713 LPT-4, 5 IN718

The first three stages of the

LPT are identical to Aero 800;

the last two stages have

increased expansion ratio to

extract all of the available

energy from the gas stream

for power production, having

larger gas path area and a

lower exit Mach Number than

the Aero 800

LPT-1 MarM002 LPT-2,3

IN713 LPT-4, 5 IN718