Hot Section Silicon Nitride Materials Development For Advanced Microturbines and Other Gas Turbine Component Applications Goddard Road Northboro, MA 01532.

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Hot Section Silicon Nitride Materials Development For Advanced Microturbines and Other Gas Turbine Component Applications Goddard Road Northboro, MA th Annual Conference on Composites, Materials, and Structures January 29, 2003 Cape Canaveral/Cocoa Beach, FL Robert H. Licht Saint-Gobain Ceramics & Plastics, Inc ;

Hot Section Materials Development For Advanced Microturbines Program >Co-Authors: Vimal Pujari, Marc Abouaf, Bill Collins, Brian LaCourse, Ara Vartabedian Acknowledgements >Research sponsored by U.S. Department of Energy (DOE), Energy Efficiency & Renewable Energy, and Oak Ridge National Laboratory (ORNL) managed by UT- Battelle, LLC, under Prime Contract No. DE-AC05- 00OR22725 with the DOE. >ORNL -- Dave Stinton, Terry Tiegs, Matt Ferber, Peter Tortorelli, Shannon Bridges. >DOE -- Debbie Haught, Steve Waslo, Jill Jonkowski >UTRC -- John Holowczak, Gary Linsey, Bill Treadway >Dave Richerson, Dave Carruthers

Purpose of the Work Hot Section Si 3 N 4 for Advanced Microturbine Program >Under DOE/ORNL Program, Develop and improve a cost- effective, reliable monolithic silicon nitride material for Hot Section Components in DER Advanced Microturbine Systems >Through surface engineering, demonstrate sufficient environmental stability for operation w/o EBC -- Or compatible with EBC Overall Goals >Contribute to AMTS Objectives of efficiency, fuel flexibility, durability, operating cost >Expand utility of HT silicon nitride component for other power generation and military applications

Outline AMTS and Hot Section Material Goals Historical - Silicon Nitride for GT Applications Technical Activity -- Technical Progress and Plans >Material and Process Qualification >Materials >Process Development >Surface Engineering Next Steps and Summary

DOE Advanced Microturbine Systems 25 kW to 500 kW (or to 1 MW) Goals:  Increase efficiency to > 40 %  Enabling technology: ceramics and EBC  Less than 7 ppm NOx  Durability -- 11,000 hours bet major overhaul, 45,000 hour service life  Cost of Power, $500/kW (now ~$1,000)  Fuel Flexible  DOE Funding $60 M FY

DOE DER Microturbine System Development Programs Original Prime Contractors Capstone GE Honeywell Power Systems Ingersoll Rand Solar Turbines (recuperator) United Technologies

Materials Development Objective Develop and optimize a high temperature ceramic material and process suitable for microturbine applications up to 1300 o C. Specific Properties  Fast Fracture  RT –   950 MPa  1300 o C   600 MPa  Fracture Toughness  6.5 MPa  m  Weibull Modulus  12  High Temperature Creep Rate  1.9 x 1250 o C/130 MPa  Oxidation Resistance up to 1250 o C  Recession Resistance in humid environment up to 1250 o C Processing Microstructure Properties NT154 (Optimization)

History - Ceramic Gas Turbine DoD Ceramics for High Performance Applications >70’s & 80’s: Army Conferences, NAVAIR Bearings >NC-132 HPSN DOE Automotive Gas Turbine Programs (80’s-90’s) >Allison, AlliedSignal Primes >Norton/TRW NT154 SN, ASCC, Kyocera, Carborundum SiC