計畫系統編號PB11107-9214
研究性質應用研究
計畫編號MOST111-3116-F008-002
研究方式學術補助
主管機關科技部
研究期間11106 ~ 11203
執行機構國立中央大學機械工程學系
年 度111年
研究經費15760千元
研究領域能源工程;
研究人員蕭述三吳耿東楊授印賴慶明
中文關鍵字生質廢棄物;氣化;合成氣淨化;汽電冷共生;熱插拔電池;微電網
英文關鍵字biomass-based waste;gasification;syngas cleaning;combined cooling;heat and power;hot swapping battery;microgrid
中文計畫概述藉由計畫智能化先進資源整合區域循環經濟汽電冷共生系統之研究成果,將可提升目前綠能重點計畫之技術研發能力,除此之外,也可結合國內相關研究領域之產業,並建立其密切合作關係。計畫所開發之先進技術及流程,就對目前環保意識高漲的時代中,可大幅減少生態環境所造成的的污染,並發展氣化副產品之高值化產品利用,以提升廢棄物總體能源利用率。除可加速國內生質能源產業之發展外,亦可推廣至東南亞市場應用,發揮我國在東協之影響力,以期達成循環經濟之永續發展的共好目標。同時並增加計畫中所培育的研發人員就業機會,增加國內就業率以提高之經濟與研發能力。
英文計畫概述
報告系統編號RW11207-0045
計畫中文名稱智能化先進能資源整合區域循環經濟汽電冷共生系統( II )
計畫英文名稱Advanced Intelligent Circular Economy with Combined Cooling, Heat & Power System( II )
主管機關科技部
計畫編號MOST111-3116-F008-002
執行機構國立中央大學機械工程學系
研究期間11106 ~ 11203
報告頁數頁
使用語言中文
研究人員蕭述三;吳耿東;楊授印;賴慶明 HSIAU SHU-SAN;Lai Ching-Ming;Wu Keng-Tung;Yang Shou-Yin
中文關鍵字生質廢棄物;氣化;合成氣淨化;汽電冷共生;熱插拔電池;微電網
英文關鍵字biomass-based waste; gasification; syngas cleaning; combined cooling; heat and power;
hot swapping battery; microgrid;
中文摘要我國未來能源的目標,將轉型以減煤、增氣、展綠、非核之潔淨能源發展方向為規劃原則,以確保我國電力供應穩定,並兼顧降低空污及減碳。由於再生能源會因氣候、區域的不同,存在供應、品質與成本的不穩定性,因此如何在再生能源佔國內發電比例逐年上升趨勢中,提供一個穩定、潔淨與高效能與彈性的再生能源發電技術,建構一個小型百萬瓦級的生質能源示範場域,為本計畫之目標。
因此,本計畫整合前期綠能科技聯合研發計畫研發團隊,以及法人機構金屬工業研究發展中心、產業界中興電工機械公司、隆盛精密公司等,並以先期所建立之成果為基礎,申請「智能化先進資源整合區域循環經濟汽電冷共生系統」產學合作計畫,共同開發彈性氣化汽電冷共生技術並提升生質廢棄物總體能源利用價值,除可加速國內生質能源產業之發展外,亦可推廣至東南亞市場應用,發揮我國在東協之影響力,以期達成循環經濟之永續發展的共好目標。
有鑑於此,為達成上述目標,本計畫特整合了以下四個子項計畫,分別是:
(1) 生質廢棄物先進氣化汽電整合微電網;
(2) 中高溫酸性氣體淨化程序;
(3) 高效能製冷與廢熱動力循環系統;
(4) 可彈性熱插拔電池儲能及發電系統。
英文摘要Taiwan’s future energy transition targets are based on reducing coal-fired, increasing natural gas, promoting green energy, and achieving nuclear-free to ensure a stable power supply and to reduce air pollution and carbon emissions.
The unstable characteristics of renewable energy in supply, quality, and cost are caused by different climates and regions. Therefore, while the proportion of renewable energy in the domestic power generation is increasing by years, providing a stable, clean, high efficiency and flexible renewable energy power generation technology through the installation of a small Megawatt (MW) scale bioenergy demonstration and verification site is the objective of this project.
Thus, based on the achievement established in the previous Green Energy Technology Joint Research Program, we integrated our former R&D team the non-profit corporation and industry partners including MIRDC, CHEM Inc., and LSPI Co. to apply for “Advanced Intelligent Circular Economy with Combined Cooling, Heat & Power (CCHP) System” (ACEpower) to jointly develop the flexible decentralized gasification-based power generation system with combined cooling, heat & power technology, and increase the overall energy efficiency of utilization of biomass based waste. It is expected to accelerate the development of the domestic biomass energy industry, and promote our innovative technology to the Southeast Asian market for achieving the goal of sustainable development of the circular economy.
Consequently, four sub-projects are contained in this integrated research project to achieve the objectives mentioned above:
1. Advanced gasification of biomass-based waste integrated with microgrids;
2. Medium and high temperature acid gas purification process;
3. High-efficiency refrigeration and waste heat power cycle system; and
4. Flexible hot swapping battery energy storage and power generation system.
