SOFC電池堆結構耐久性研究與壽命評估（III）; Life Assessment and Structural Durability Analysis for SOFC Stacks (III)

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Title:	SOFC電池堆結構耐久性研究與壽命評估（III）;Life Assessment and Structural Durability Analysis for SOFC Stacks (III)
Authors:	林志光
Contributors:	機械工程學系
Keywords:	固態氧化物燃料電池堆;結構強度;耐久壽命;Solid Oxide Fuel Cell Stack;Structural Robustness;Durability;能源工程;機械工程類;材料科技
Date:	2010-12-01
Issue Date:	2010-06-04 11:05:12 (UTC+8)
Publisher:	行政院原子能委員會
Abstract:	平板式固態氧化物燃料電池（SOFC）具有較簡單的結構設計與製作成本、較高能源效率、較低工作溫度（800oC以下）等優點，為目前全世界對SOFC研發的重點。為配合核能研究所開發平板式固態氧化物燃料電池（SOFC）發電系統，本計畫將進行平板式SOFC電池堆組件機械強度測試及劣化機制分析，並進一步發展電池堆結構耐久壽命評估模式。SOFC系統在運轉使用時，隨著工作溫度的改變，由於不同組件間具有不同的熱膨脹係數值，加上工作環境溫度分佈不均勻，因而會產生不可忽視的熱應力。對陶瓷材料所製成的三合一電池片（PEN）及電池堆封裝用之玻璃陶瓷而言，熱應力可以促進陶瓷材料既存孔隙或缺陷成長為較大的裂縫造成組件的洩漏或破損，降低電池的效率，因此對SOFC電池堆進行熱應力分析與耐久機械強度評估，將是設計SOFC系統不可或缺的步驟。依此，本計畫本年度將根據前二期所獲致之SOFC電池堆熱應力分佈數據，對核研所開發中之SOFC相關組件材料（包括PEN板、封裝玻璃陶瓷、金屬連接板與封裝玻璃陶瓷接合件等）進行在工作溫度下之耐久機械強度試驗，並分析其機械強度劣化機制，進而建立平板式SOFC電池堆結構設計與耐久壽命評估技術，作為核研所設計平板式電池堆組件結構尺寸與材料選擇的參考依據。 As planar solid oxide fuel cell (SOFC) systems have several advantages such as compact size, higher energy efficiency and lower operating temperature (below 800oC), most of the current development of SOFC is being focused on the planar type. The typical materials used for anode, electrolyte, and cathode (often called a positive electrode-electrolyte-negative electrode, PEN) in SOFCs are all ceramic materials and brittle in mechanical characteristics. In addition, glass ceramics are also being used as a sealant material in planar SOFC stacks. The high-temperature operation, however, gives rise to significant thermal stresses caused from mismatch of coefficients of thermal expansion among various components and temperature gradients in the SOFC system. When a ceramic component is held under such a prolonged thermal load (stress), pre-existent pores or defects which are subcritical, i.e. less than the critical defect size for immediate failure, can grow to failure and degrade the performance of a SOFC system during service. The purpose of this proposed study is to characterize the thermal stresses as well as high-temperature mechanical durability of components in a planar SOFC system which is being developed at the Institute of Nuclear Energy Research (INER). A 3-D finite element model for a multiple-cell SOFC stack will be constructed to solve the thermal stress distribution in different stages including start-up and steady operation. In addition, mechanical testing of the high-temperature long-term strength and durability of the PEN, glass-ceramic sealant, and the glass ceramic sealant-metallic interconnect joint will be conducted in conjunction with numerical analysis for assessment of the risks related to operation of the SOFC stack when subjected to the thermal stresses. Based on the numerical and experimental results, an appropriate design and life assessment model for planar SOFC systems will be developed and applied to the planar SOFC system being developed at INER. 研究期間：9901 ~ 9912
Relation:	財團法人國家實驗研究院科技政策研究與資訊中心
Appears in Collections:	[Departmant of Mechanical Engineering ] Research Project

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