本產學合作研究計畫將與亞洲氫能股份有限公司與九豪精密陶瓷股份有限公司共同開發高效率可逆質子傳導型陶瓷電化學儲能電池系統(Reversible protonic solid oxide electrochemical cell, Re-PSOC)之關鍵技術,各分項計畫研發重點包括Re-PSOC之微結構設計與關鍵材料開發、全電池封裝與製程整合、可逆燃料/電解電池測試平台建立與長時間效能分析,本計畫亦將導入H2O-CO2共電解技術,用以產出高經濟價值碳氫化工原料,並建立風力或太陽能輸出電力下之Re-PSOC動態負載模型,以期大幅擴展本技術於儲能應用之多元化情境,並有效提高再生能源利用率。本計畫合作企業亞洲氫能之產品研發目標為提供客戶氫能生產、儲存及應用之完整解決方案;而九豪精密陶瓷為國內節能陶瓷(降低能耗與污染)及能源陶瓷(材料本身可產出或轉化能源)之生產大廠,可就產品利基角度提供本團隊研發Re-PSOC具體之方向建議。合作企業亦可透過本計畫團隊長久累積的國際合作人脈(如南洋理工大學及九州大學),開擴國外機會與市場,提高公司競爭力與國際市場能見度。本整合型計畫之具體總目標為開發一可連續操作36小時、產率為100 升H2/天且整體能耗< 6.0 kWh/m3之電解裝置;且系統之核心Re-PSOC單電池之效率目標為:法拉第效率>85%、能量轉換效率>80%;且經100小時之長時間穩定性測試後,其性能表現衰退率<5%。 ;The research project jointly develop key technologies for reversible protonic solid oxide electrochemical cells (Re-PSOCs) with Asia Hydrogen Energy Co., Ltd. and Leatec Fine Ceramics Co,. Ltd. The four sub-projects focus on the development of key materials and novel microstructures for Re-PSOCs, cell packaging and process integration, establishment of reversible fuel/electrolysis electrochemical testing platform, and long-term performance analysis for Re-PSOCs. This project will also develop H2O-CO2 co-electrolysis technology to produce high economic value hydrocarbon chemical raw materials and meanwhile, to establish a dynamic physical model of Re-PSOC under wind or solar output power, in order to greatly expand the diversified situation of this technology in energy storage applications, effectively raising renewable energy utilization.The enterprise partner in this project, Asia Hydrogen Energy's development goal is to provide customers with total solutions for hydrogen energy production, storage and application. In addition, Leatec Fine Ceramics is a domestic production plant that produces green energy ceramics (reducing energy consumption and pollution) and energy functional ceramics (producing or converting energy). They can provide specific directions or guides to develop Re-PSOC in terms of product niche. Cooperative enterprises can also strength the company's competitiveness and expand their international market visibility through the long-standing international cooperation network established by the project team (such as Nanyang Technological University and Kyushu University). The overall goal of this integrated project is to develop an electrolyzer system with a continuous operation of 36 hours, a yield of 100 liters H2/day and an overall energy consumption of < 6.0 kWh/m3; and the target efficiency of the core Re-PSOC cell of the system: Faraday efficiency (FE) > 85%, energy conversion efficiency (ECE) > 80%; and its performance degradation rate <5% after 100 hours of long-term stability test.
