Continuation of Studies on Development of ODS Heat Exchanger Tubing | |
Lawrence Brown ; David Workman ; Bimal Kad ; Gaylord Smith ; Archie Robertson ; Ian Wright | |
关键词: ALLOYS; BONDING; CORROSION; CREEP; EFFICIENCY; ELECTRICITY; FABRICATION; FLUE GAS; FOSSIL FUELS; FRICTION WELDING; HEAT EXCHANGERS; OXIDES; POWER GENERATION; PROBES; TESTING; WELDING; | |
DOI : 10.2172/939855 RP-ID : None PID : OSTI ID: 939855 Others : TRN: US200823%%472 |
|
学科分类:能源(综合) | |
美国|英语 | |
来源: SciTech Connect | |
【 摘 要 】
The Department of Energy (DOE), National Energy Technology Center (NETL), has initiated a strategic plan for the development of advanced technologies needed to design and build fossil fuel plants with very high efficiency and environmental performance. These plants, referred to as 'Vision 21' and FutureGen programs by DOE, will produce electricity, chemicals, fuels, or a combination of these products, and possibly secondary products such as steam/heat for industrial use. MA956 is a prime candidate material being considered for a high temperature heat exchanger in the 'Vision 21' and FutureGen programs. This material is an oxide dispersion strengthened (ODS) alloy; however, there are some gaps in the data required to commit to the use of these alloys in a full-size plant. To fill the technology gaps for commercial production and use of the material for 'Advanced Power Generation Systems' this project has performed development activity to significant increase in circumferential strength of MA956 as compared to currently available material, investigated bonding technologies for bonding tube-to-tube joints through joining development, and performed tensile, creep and fire-side corrosion tests to validate the use and fabrication processes of MA956 to heat exchanger tubing applications. Development activities within this projected has demonstrated increased circumferential strength of MA956 tubes through flow form processing. Of the six fabrication technologies for bonding tube-to-tube joints, inertia friction welding (IFW) and flash butt welding (FBW) were identified as processes for joining MA956 tubes. Tensile, creep, and fire-side corrosion test data were generated for both base metal and weld joints. The data can be used for design of future systems employing MA956. Based upon the positive development activities, two test probes were designed and fabricated for field exposure testing at 1204 C ({approx}2200 F) flue gas. The probes contained tube portions with FBW and IFW welded MA956. Field testing of the probes and remaining heat exchanger design activity will be performed by Oak Ridge National Laboratory under DOE Contract DE-AC05-00OR22725.
【 预 览 】
Files | Size | Format | View |
---|---|---|---|
RO201705180002136LZ | 18671KB | download |