Materials for high temperature power generation and process plant applications

Materials Congress '98 - Frontiers in Materials Science and Technology, organised by the Institute of Materials, was held from the 6-8 April 1998 at the Royal Agricultural College, Cirencester. This .event, which was attended by more than 450 delegates from academia and industry, consisted o...

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Bibliographic Details
Main Author: Edited by A. Strang
Format: Conference Proceeding
Language:English
Published: I0M Communications Ltd 2020
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Online Access:http://dspace.uniten.edu.my/jspui/handle/123456789/13929
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Summary:Materials Congress '98 - Frontiers in Materials Science and Technology, organised by the Institute of Materials, was held from the 6-8 April 1998 at the Royal Agricultural College, Cirencester. This .event, which was attended by more than 450 delegates from academia and industry, consisted of technical sessions dealing with materials issues involving rubbers, polymers, composites, ceramics, ferrous and nonferrous metals and alloys in applications ranging from medical prosthesis to advanced power plant engineering. These proceedings contain the ten most important papers presented in the session of the Congress concerned with materials for high temperature power plant and process plant applications organised by the Institute of Materials High Temperature Materials Performance Committee. The selected papers are largely in the form of critical reviews which not only highlight the development of materials to meet specific applications but also comment on solutions used for both current and future applications. The papers presented by Thornton and Fleming et ale are concerned with and highlight the problems associated with the selection of materials and manufacturing processes for critical components for large steam turbines and boiler plant where design lives in excess of 200 000 hours are now required at stresses of up to 300 bar and temperatures approaching 600°C. Starr's paper critically reviews materials for advanced heat exchanger applications such as those used in indirectly fired and recuperative gas turbines, fluidised bed combustion, coal gasification and waste incineration systems, where the effects of corrosion often severely life-limits components. The paper by Barnes et ale considers the key issues concerned with the welding and fabrication of key components for advanced power plant particularly in terms of their properties and expected service performance. Material integrity is of paramount importance in critical components such as welded steam chests, pipework and large rotors for large turbine generator applications and the material considerations concerned with defect tolerance for such applications is critically reviewed in the paper by Holdsworth. A review of typical problems encountered during the operation of high temperature plant is presented in the paper by Townsend while the extensive review by Bhadeshia et ale considers present assessment procedures for the life extension of power plant components. The important role of surface engineering in the reliable operation of all high temperature power and process plant is reviewed in the paper by Nicholls and Rickerby. Significant developments are still continuing in this field with 'designed surfaces' likely to become a routine part of design procedures for many future component and plant applications. Surface engineering already plays a significant part in ensuring that many gas turbine components such as blades, combustion cans and other hot gas parts of the system achieve their planned design lives. The paper by Piearcey considers these problems as well as others associated with the use of poor quality fuels and marine environments with the effects on the performance of high temperature alloys in industrial gas turbine plant. Finally Dominy et al. present an engineer's view in a review of the application and role of ceramics and CMCs in modern aero gas turbines. These reviews not only discuss the evolution of advanced materials for high temperature power and process plant applications but also indicate the developments in materials which must take place to achieve the higher efficiency and environmentally acceptable plant for the 21st Century and beyond.