回能策中心首頁
瀏覽人數:32682

團隊整合成功大學生物科技中心、永續環境研究中心、工學院、生物科技學院等跨領域之研發團隊,於成功大學安南校區成立農業生物科技示範園區。藉由成功大學頂尖大學計畫、第二期能源國家型計畫以及與綠茵生技公司合作之產學計畫之資助,在成功大學安南校區建置佔地約1公頃之微藻大規模養殖基地,開發大型微藻養殖設備,最大之養藻系統達300噸之容量,並結合生物科技學院之蝦苗培育養殖場與石斑魚養殖模場、以及環資廠之廢溶劑焚化爐,進行生態與環境整合系統之規劃。主要設計概念是由環資廠提供焚化爐廢氣做為微藻養殖之二氧化碳來源,由石斑魚場及蝦苗場之廢水做為微藻養殖之水及營養源,進行微藻之大量養殖,同時兼具工業減碳與廢水處理之功能。微藻養殖所需之能源,未來將搭配成功大學能源科技與策略中心開發之再生能源系統,如太陽能面板及風力發電之風機,以達到能源自主。此外,所養殖之特殊藻種以證實可進一步做為水產養殖飼料,應用於石斑魚及蝦苗之培育,可謂一舉數得,且達成環境永續及生態平衡與循環之目標。此成功大學永續農業生物科技園區之設計概念,乃全球首創,不但具有學術重要性及產業應用價值,並能真正體現綠色生產、節能減碳與永續發展之理想。

成功大學安南校區建置佔地約1公頃之微藻大規模養殖示範工廠及商業化驗證研發基地

相關技術發表的重要國際期刊文章如下:

  •   廢水養藻技術
  1. Y Wang, W Guo, H-W Yen, S-H Ho, Y-C Lo, C-L Cheng, N Ren, J-S Chang* (2015) Cultivation of Chlorella vulgaris JSC-6 with swine wastewater for simultaneous nutrient/COD removal and carbohydrate production. Bioresource Technology (accepted). [SCI; IF= 4.494]
  2. J Marjakangas, C-Y Chen, A-M Lakaniemi, J A Puhakka, L-M Whang, J-S Chang (2015) Simultaneous nutrient removal and lipid production with Chlorella vulgaris on sterilized and non-sterilized anaerobically pretreated piggery wastewater. Biochemical Engineering Journal (accpeted) [SCI; IF= 2.467]
  3. C-M Kuo, T-Y Chen, T-H Lin, C-Y Kao, J-T Lai, J-S Chang, C-S Lin (2015) Cultivations of Chlorella sp. GD using piggery wastewater for microalgal biomass and lipid production. Bioresource Technology (accepted). [SCI; IF= 4.494]
  4. J Marjakangas, C-Y Chen, A-M Lakaniemi, J A Puhakka, L-M Whang, J-S Chang (2015) Selecting an indigenous microalgal strain for lipid production in anaerobically treated piggery wastewater. Bioresour Technol 191: 369-376. [SCI; IF= 4.494]
  5. He PJ, Mao B, Lü F, Shao LM, Lee DJ, Chang JS (2013) The combined effect of bacteria and Chlorella vulgaris on the treatment of municipal wastewaters. Bioresource Technology 146: 562–568 [SCI; IF=4.494]
  6. He PJ, Mao B, Shen CM, Shao LM, Lee DJ, Chang JS (2013) Cultivation of Chlorella vulgaris on Wastewaters Containing High Levels of Ammonia for biodiesel production. Bioresource Technology 129: 177–181. [SCI; IF= 4.494].
  •   廢氣養藻技術
  1. Chien-Ya Kao, Yu-Bin Chang, Tsai-Yu Chen, Hsiun-Yu Lin, Chun-Da Chen, Jo-Shu Chang, Chih-Sheng Lin (2014) Utilization of Carbon Dioxide in Industrial Flue Gases for the Cultivation of Microalga Chlorella sp. Bioresource Technology 166:485-493 [SCI; IF= 4.494]
  2. Chiu, S-Y, Kao, C-Y, Huang, T-T, Lin, C-J, Ong, S-C, Chen, C-D, Chang, J-S, Lin, C-S (2011-September) Microalgal biomass production and on-site bioremediation of carbon dioxide, nitrogen oxide and sulfur dioxide in flue gas using Chlorella sp. cultures. Bioresource Technology 102(18): 9135-9142. [SCI; IF= 4.494]
  3. Hong-Wei Yen, Shih-Hsin Ho, Chun-Yen Chen, and Jo-Shu Chang* (2015-June) Simultaneous removal of CO2, SOx and NOx from flue gas via microalgae cultivation. Biotechnology Journal 10(6):829-839. [SCI; IF=3.49]
  4. Wai Yan Cheah, Pau Loke Show, Jo-Shu Chang, Tau Chuan Ling, Joon Ching Juan* (2015-May) A solution to global warming: bioconversion of carbon dioxide by microalgae. Bioresource Technology 184: 190-201. [SCI]
  5. Ho, S-H, Chen, C-Y, Lee, D-J, and Chang, J-S* (2011-March-April) Perspectives on Microalgal CO2-Emission Mitigation Systems – A review. Biotechnology Advances 29:189-198 [SCI; IF=9.015].
  •   微藻培燒技術
  1. W-Hn Chen, M-Y Huang, J-S Chang, C-Y Chen, W-J Lee (2015) An energy analysis of torrefaction for upgrading microalga residue as a solid fuel. Bioresource Technology 185:285-293. [SCI; IF=4.494]
  2. W-H Chen, M-Y Huang, B-J Lin, J-S Chang (2015) Thermochemical conversion of microalgal biomass into biofuels: A review. Bioresource Technology 184: 314-327. [SCI; IF=4.494]
  3. W-H Chen, M-Y Huang, J-S Chang, C-Y Chen (2015) Torrefaction operation and optimization of microalga residue for energy densification and utilization. Applied Energy 154:622-630 [SCI; IF= 5.613]
  4. W-H Chen, M-Y Huang, J-S Chang, C-Y Chen (2014) Thermal decomposition dynamics and severity of microalgae residues in torrefaction. Bioresource Technology 169:258-264 [SCI; IF=4.494]
  5. W-H Chen, Z-Y Wu, J-S Chang* (2014) Isothermal and non-isothermal torrefaction characteristics and kinetics of microalga Scenedesmus obliquus CNW-N. Bioresource Technology 155, 245–251. [SCI; IF=4.494]
  6. J K Mwangi, W-J Lee, L-M Whang, T S Wu, W-H Chen, J-S Chang, C-Y Chen, C-L Chen (2015) Microalgae Oil: Algae Cultivation and Harvest, Algae Residue Torrefaction and Diesel Engine Emission Test. Aerosol and Air Quality Research 15:81-98 [SCI; IF= 2.094]