顏宏偉 教授
04-23590121-33209
E-mail:hwyen@thu.edu.tw
| 學歷 | 美國Clemson University生物系統工程博士
|
|---|---|
| 領域 | 生化工程領域 |
| 授課領域 | 質能均衡 單元操作實驗(二) 高等流體力學 生物化學 |
| 研究專長 | 醱酵工程 利用天然或是基因重組微生物生產醫藥品級之生技產品 環境生物處理工程 利用環境微生物自然分解固態廢棄物 以達到垃圾減量與資源回收的目的 |
| 實驗室 | 醱酵工程實驗室 / |
學術著作
學術期刊論文
| 學年度 | 名稱 | 著作人 |
|---|---|---|
| 110 | Adi Kusmayadia, Yoong Kit Leonga, Hong-Wei Yen, Chi-YuHuang, Jo-Shu Chang (2021.10). Microalgae as sustainable food and feed sources for animals and humans – Biotechnological and environmental aspects. Chemosphere, 271, 129800. | 顏宏偉 |
| 110 | Dillirani Nagarajan, Ganies Riza Aristya, Yu-Ju Lin, Jui-Jen Chang, Hong-Wei Yen (顏宏偉), Jo-Shu Chang (張嘉修) (2021.10). Microbial cell factories for the production of polyhydroxyalkanoate. Essays in Biochemistry, 65(2), 337-353. | 顏宏偉 |
| 109 | KS Khoo, HY Leong, KW Chew, JW Lim, TC Ling, PL Show, Hong-Wei Yen (顏宏偉)* (2020.10). Liquid biphasic system: A recent bioseparation technology. Processes, 8(2), 149-171. | 顏宏偉 |
| 109 | Adi Kusmayadi, Eko Agus Suyono, Dillirani Nagarajan, Jo-Shu Chang and Hong-Wei Yen (顏宏偉)* (2020.10). Application of computational fluid dynamics (CFD) on the raceway design for the cultivation of microalgae: a review. Journal of Industrial Microbiology and Biotechnology, 47, 373-382. | 顏宏偉 |
| 109 | Adi Kusmayadi, Yoong Kit Leong, Hong-Wei Yen (顏宏偉)*, Chi-Yu Huang, Cheng-Di Dong, Jo-Shu Chang*, (2020.10). Microalgae-microbial fuel cell (mMFC): an integrated process for electricity generation, wastewater treatment, CO2 sequestration and biomass production. Journal of Energy Research, 44(12), 9254-9265. | 顏宏偉 |
| 109 | N Arora, Hong-Wei Yen (顏宏偉), GP Philippidis (2020.10). Harnessing the Power of Mutagenesis and Adaptive Laboratory Evolution for High Lipid Production by Oleaginous Microalgae and Yeasts. Sustainability, 12(12), 5125-5152. | 顏宏偉 |
| 109 | Adi Kusmayadi, George Philippidis and Hong-Wei Yen (顏宏偉)* (2020.11). Application of computational fluid dynamics (CFD) to raceways combining paddlewheel and CO2 spargers to enhance microalgae growth. Journal of Bioscience and Bioengineering, 129(1), 93-98. | 顏宏偉 |
| 108 | Kit Wayne Chew, Shir Reen Chia, Hong-Wei Yen (顏宏偉), Saifuddin Nomanbhay, Yeek‐Chia Ho and Pau Loke Show* (2019.10). Transformation of Biomass Waste into Sustainable Organic Fertilizers.. Sustainability, 11, 2266-2286. | 顏宏偉 |
| 108 | Dillirani Nagarajana, Adi Kusmayadi, Hong-Wei Yen (顏宏偉), Cheng-Di Dong, Duu-Jong Lee and Jo-Shu Chang (2019.12). Current advances in biological swine wastewater treatment using microalgae-based processes. Bioresource Technology (SCI), 289, 1-5. | 顏宏偉 |
| 108 | Yoong Kit Leong, Pau-Loke Show, John Chi-Wei Lan, Rambabu Krishnamoorthy, Dinh-Toi Chu, Dillirani Nagarajan, Hong-Wei Yen (顏宏偉), Jo-Shu Chang (張嘉修)*, (2019.09). Application of thermo-separating aqueous two-phase system in extractive bioconversion of polyhydroxyalkanoates (PHAs) by Cupriavidus necator H16. Bioresource Technology, 287, 1-5. | 顏宏偉 |
| 108 | Preeti Pal, Kit Wayne Chew, Hong-Wei Yen (顏宏偉), Jun Wei Lim, Man Kee Lam and Pau Loke Show* (2019.12). Cultivation of Oily Microalgae for the Production of Third-Generation Biofuels. Sustainability, 19, 5424-5440. | 顏宏偉 |
| 107 | Hong-Wei Yen (顏宏偉)*, Chun Yu Hu and Wei-Siang Liang, (2019.03). A cost efficient way to obtain lipid accumulation in the oleaginous yeast Rhodotorula glutinis using supplemental waste cooking oils (WCO). Journal of Taiwan Institute of Chemical Engineer, 97, 80-87. | 顏宏偉 |
| 107 | Hong-Wei Yen (顏宏偉)*, Gowthami Palanisamy2 and Guo-Chih Su (2019.05). The influences of supplemental vegetable oils on the growth and β-carotene accumulation of oleaginous yeast- Rhodotorula glutinis. Biotechnology and Bioprocess Engineering, 24, 522-528. | 顏宏偉 |
| 106 | Yue Wang, Shih-Hsin Ho, HW Yen (顏宏偉), Dillirani Nagarajan, Nan-Qi Ren, Shuangfei Li, Zhangli Hu, Duu-Jong Lee, Akihiko Kondo, Jo-Shu Chang (2017.12). Current advances on fermentative biobutanol production using third generation feedstock. Biotechnology Ad | 顏宏偉 |
| 104 | HW Yen (顏宏偉), Sheng-Chung Yang, Chi-Hui Chen, Jesisca Cen and Jo-Shu Chang* 2015-09. Supercritical fluid extraction of valuable compounds from microalgal biomass. Bioresource Technology. 184:291-296.(SCI) | 顏宏偉 |
| 104 | HW Yen (顏宏偉)*, Yi Xian Liu and Jo-Shu Chang 2015-09. The effects of feeding criteria on the growth of oleaginous yeast-Rhodotorula glutinis in a pilot-scale airlift bioreactor.. Journal of Taiwan Institute of Chemical Engineer. 49:67-71.(SCI) | 顏宏偉 |
| 104 | HW Yen (顏宏偉)*, Yu-Ting Liao & Yi Xian Liu 2015-10. The growth of oleaginous Rhodotorula glutinis in an airlift bioreactor on crude glycerol through a non-sterile fermentation process. Bioprocess and Biosystems Engineering. 38:1541-1546.(SCI) | 顏宏偉 |
| 104 | HW Yen (顏宏偉) *, Jung-Tzu Chang and Jo-Shu Chang 2015-09. The growth of oleaginous Rhodotorula glutinis in an internal-loop airlift bioreactor by using mixture substrates of rice straw hydrolysate and crude glycerol. Biomass and Bioenergy. 80:38-43.(SCI) | 顏宏偉 |
| 104 | HW Yen (顏宏偉)*, Pin-Wen Chen and Li-Juan Chen 2015-08. The synergistic effects for the co-cultivation of oleaginous yeast- Rhodotorula glutinis and microalgae-Scenedesmus obliquus on the biomass and total lipids accumulation.. Bioresource Technology (SCI). | 顏宏偉 |
| 104 | HW Yen (顏宏偉) * , Meng-Hua Chiang 2015-11. Using the mycelium-covered cereals as an efficient inoculation method for rapamycin fermentation in a 15-L fermenter by using Streptomyces hygroscopicus. Bioresources and Bioprocessing. 2:43-46.(SCI) | 顏宏偉 |
| 104 | HW Yen (顏宏偉) *, Chih-Yuan Hsu and Pin-Wen Chen 2016-05. An integrated system of autotrophic Chlorella vulgaris cultivation using CO2 from the aerobic cultivation process of Rhodotorula glutinis. Journal of Taiwan Institute of Chemical Engineer. 62:158-161 | 顏宏偉 |
| 104 | De-Shun Lin, HW Yen (顏宏偉), Wei-Chen Kao, Chieh-Lun Cheng, Wen-Ming Chen, Chieh-Cheng Huang, Jo-Shu Chang 2015-10. Bio-butanol production from glycerol with Clostridium pasteurianum CH4: The effects of butyrate addition and in situ butanol removal via memb | 顏宏偉 |
| 104 | HW Yen (顏宏偉), Shih-Hsin Ho, Chun-Yen Chen, and Jo-Shu Chang* 2015-10. CO2, SOx and NOx removal from flue gas via microalgae cultivation: a critical review. Biotechnology Journal. 10:829-839.(SCI) | 顏宏偉 |
| 104 | Yue Wang, Wanqian Guo, HW Yen (顏宏偉), Jo-Shu Chang*, Yung-Chung Lo, Chieh-Lun Cheng, Carol Huang, Nanqi Ren 2015-11. Cultivation of Chlorella vulgaris JSC-6 with swine wastewater for simultaneous nutrient/COD removal and carbohydrate production. Bioresourc | 顏宏偉 |
| 104 | HW Yen (顏宏偉) *, Yu-Ting Liao & Yi Xian Liu 2016-02. Cultivation of oleaginous Rhodotorula mucilaginosa in airlift bioreactor by using seawater. Journal of Bioscience and Bioengineering. 121:209-212.(SCI) | 顏宏偉 |
| 104 | HW Yen (顏宏偉)*and Jung-Tzu Chan 2015-08. Growth of oleaginous Rhodotorula glutinis in an internal-loop airlift bioreactor by using lignocellulosic biomass (LCB) hydrolysate as the carbon source. Journal of Bioscience and Bioengineering. 119:580-584.(SCI) | 顏宏偉 |
| 103 | HW Yen (顏宏偉)* and Yi Xian Liu2014-09.Application of airlift bioreactor for the cultivation of aerobic oleaginous yeast- Rhodotorula glutinis with different aeration rates..Journal of Bioscience and Bioengineering.118:195-198.(SCI) | 顏宏偉 |
| 103 | HW Yen (顏宏偉)* and Yung-Lin Li2014-09.The effects of viscosity and aeration rate on rapamycin production in an airlift bioreactor by using Streptomyces hygroscopicus.Journal of the Taiwan Institute of Chemical Engineers.45:1149-1153.(SCI) | 顏宏偉 |
| 105 | HW Yen (顏宏偉)*, Pin-Wen Chen, Chih-Yuan Hsu and Ling Lee (2017.05). The use of autotrophic Chlorella vulgaris in chromium (VI) reduction under different reduction conditions. ournal of Taiwan Institute of Chemical Engineer, 74, 1-6.(SCI) | 顏宏偉 |
| 102 | Chun-Yen Chen, Xin-Qing Zhao, Hong-Wei Yen (顏宏偉), Shih-Hsin Ho, Chieh-Lun Cheng, Duu-Jong Lee, Feng-Wu Bai*, and Jo-Shu Chang, 2013. Microalgae-based carbohydrates for biofuel production (review paper). Biochemical Engineering Journal (SCI), 78, 1-10. | 顏宏偉 |
| 102 | Chiao-Ling Wong, HW Yen (顏宏偉)*, Chung-Liang Lin, and Jo-Shu Chang*, 2013. Effects of pH and fermentation strategies on 2, 3-butanediol production with an isolated Klebsiella sp. Zmd30 strain. Bioresource Technology (SCI), in press. | 顏宏偉 |
| 102 | HW Yen (顏宏偉)*, Fang-Tzu Li, Chiao-Ling Wong and Jo-Shu Chang, 2013. The pH effects on the distribution of 1, 3-propanediol and 2, 3-butanediol produced simultaneously by using an isolated indigenous Klebsiella sp. Ana-WS5. Bioprocess and Biosystems Engine | 顏宏偉 |
| 102 | HW Yen (顏宏偉)* and Hsin-Pei Hsiao, 2013. Effects of dissolved oxygen level on rapamycin production by pellet-form of Streptomyces hygroscopicus. Journal of Bioscience and Bioengineering (SCI), 116, 366-370. | 顏宏偉 |
| 102 | Chun-Yen Chen, Xin-Qing Zhao, Hong-Wei Yen (顏宏偉), Shih-Hsin Ho, Chieh-Lun Cheng, Duu-Jong Lee, Feng-Wu Bai*, and Jo-Shu Chang, 2013. Microalgae-based carbohydrates for biofuel production (review paper). Biochemical Engineering Journal (SCI), 78, 1-10. | 顏宏偉 |
| 102 | HW Yen (顏宏偉)* and Jung-Tzu Chang, 2013. A two-stage cultivation process for the growth enhancement of Chlorella vulgaris. Bioprocess and Biosystems Engineering (SCI), 36, 1797-1801. | 顏宏偉 |
| 102 | HW Yen (顏宏偉)*, Hsin-Pei Hsiao and Li-Juan Chen, 2013. The enhancement of rapamycin production using Streptomyces hygroscopicus through a simple pH-shifted control. Journal of the Taiwan Institute of Chemical Engineers (SCI), 44, 743-747. | 顏宏偉 |
| 102 | HW Yen (顏宏偉) * & Yi-Cheng Wang, 2013. The enhancement of butanol production by in-situ butanol removal using biodiesel extraction in the fermentation of ABE (acetone-butanol-ethanol). Bioresource Technology, 245, 224-228. | 顏宏偉 |
| 102 | HW Yen (顏宏偉), I-Chen Hu, Chun-Yen Chen, Shih-Hsin Ho, Duu-Jong Lee, and Jo-Shu Chang*, 2013. Microalgae-based biorefinery – from biofuels to natural products (review paper). Bioresource Technology, 135, 166-174. | 顏宏偉 |
| 101 | HW Yen (顏宏偉)*, Wei-Cheng Chiang and Cheng-Hsiung Sun, 2012. Effects of mutual shading, pressurization and oxygen partial pressure on the autotrophical cultivation of Scenedesmus obliquus. Journal of the Taiwan Institute of Chemical Engineers (SCI), 43, 82 | 顏宏偉 |
| 101 | HW Yen (顏宏偉)*, Ya-Chun Yang and Yi-Huan Yu, 2012. Using crude glycerol and thin stillage for the production of microbial lipids through the cultivation of Rhodotorula glutinis, Journal of Bioscience and Bioengineering (SCI), 114, 453-456. | 顏宏偉 |
| 101 | HW Yen (顏宏偉)*, Zhi-Heng Chen and I-Kuan Yang, 2012. Use of the Composite Membrane of Poly(ether-block-amide) and Carbon Nanotubes (CNTs) in a Pervaporation System incorporated with Fermentation for Butanol Production by Clostridium acetobutylicum. Biores | 顏宏偉 |
| 101 | HW Yen (顏宏偉)*and Ya-Chun Yang, 2012. The effects of irradiation and microfiltration on the cells growing and total lipids production in the cultivation of Rhodotorula glutinis. Bioresource Technology, 107, 539-541. | 顏宏偉 |
| 101 | HW Yen (顏宏偉)*Shang-Fu Lin and I-Kuan Yang, 2012. Use of poly(ether-block-amide) in pervaporation coupling with a fermenter to enhance butanol production in the cultivation of Clostridium acetobutylicum. Journal of Bioscience and Bioengineering (SCI), 113, | 顏宏偉 |
| 101 | HW Yen (顏宏偉)*, Wei-Cheng Chiang and Cheng-Hsiung Sun, 2012. Supercritical fluid extraction of lutein from Scenedesmus cultured in an autotrophical photobioreactor. Journal of the Taiwan Institute of Chemical Engineers (SCI), 43, 53-57. | 顏宏偉 |
| 100 | 顏宏偉,張智勇 “以高油脂微生物生產生質柴油之可行性”,化工技術,2011, vol 220, 50-58,。 | 顏宏偉 |
| 100 | HW Yen (顏宏偉)*and Zhiyong Zhang, 2011. Enhancement of cell growth rate by light irradiation in the cultivation of Rhodotorula glutinis. Bioresource Technology, 102, 9279-9281. | 顏宏偉 |
| 100 | HW Yen (顏宏偉)*, Ruei-Jei Li and Te-Wei Ma, 2011. The development process for a continuous acetone-butanol-ethanol (ABE) fermentation by immobilized Clostridium acetobutylicum. Journal of the Taiwan Institute of Chemical Engineers (SCI), 42, 902-907. | 顏宏偉 |
| 100 | HW Yen (顏宏偉)* and Ruei-Jei Li, 2011. The effects of dilution rate and glucose concentration on continuous acetone-butanol-ethanol fermentation by Clostridium acetobutylicum immobilized on bricks. Journal of Chemical Technology and Biotechnology (SCI), 86, | 顏宏偉 |
| 100 | HW Yen (顏宏偉)*and Zhiyong Zhang, 2011. Effects of dissolved oxygen level on cell growth and total lipids accumulation in the cultivation of Rhodotorula glutinis. Journal of Bioscience and Bioengineering (SCI), 112, 71-74. | 顏宏偉 |
| 100 | HW Yen (顏宏偉)* , Cheng-Hsiung Sun and Te-Wei Ma, 2011. The comparison of lutein production by Scenesdesmus sp. in the autotrophic and in the mixotrophic cultivation. Applied Biochemistry and Biotechnology (SCI), 164, 353-361. | 顏宏偉 |
| 99 | HW Yen (顏宏偉)* and Jia-Lin Kang, 2010. Lactic acid production directly from starch in a starch-controlled fed-batch operation using Lactobacillus amylophilus. Bioprocess and Biosystems Engineering (SCI), 33, 1017-1023. | 顏宏偉 |
| 99 | HW Yen (顏宏偉)* and Yi-Chih Lee, 2010. Production of lactic acid from raw potato starch by Rhisopus oryzae in sodium alginate capsules. Applied Biochemistry and Biotechnology (SCI), 62, 607-615. | 顏宏偉 |
| 99 | HW Yen (顏宏偉)* , Tsia-Ju Chen , Wei-Chin Pan and Hsien-Jen Wu, 2010. Effects of neutralizing agents on lactic acid production by Rhizopus oryzae using sweet potato starch. World J of Microbiology and Biotechnology (SCI), 26, 437-441. | 顏宏偉 |
| 98 | HW Yen (顏宏偉)* , Chang-Yu Feng and Jia-Lin Kang, 2009. Cultivation of Rhodobacter sphaeroides in the stirred bioreactor with different feeding strategies for CoQ10 production. Applied Biochemistry and Biotechnology (SCI), 160, 1441-1449 | 顏宏偉 |
| 98 | HW Yen(顏宏偉)* and Tsu-Yuan Shih, 2009. Coenzyme Q10 production by Rhodobacter sphaeroides in stirred tank and in airlift bioreactor. Bioprocess and Biosystems Engineering (SCI), 32, 711-716 | 顏宏偉 |
| 96 | HW Yen(顏宏偉)* and DE Brune, 2007. Anaerobic codigestion of algal sludge and waste paper to produce methane. Bioresource technology (SCI), 98, 130-134 | 顏宏偉 |
| 96 | HW Yen(顏宏偉)* and CH Chiu, 2007. The influences of aerobic-dark and anaerobic-light cultivation on CoQ10 production by Rhodobacter sphaeroides in the submerged fermenter. Enzyme and Microbial Technology (SCI), 41, 600-604. | 顏宏偉 |
研討會論文
| 學年度 | 名稱 | 著作人 |
|---|---|---|
| 103 | Yu-Ting Liao(廖于婷),Hong-Wei Yen(顏宏偉)* "Effect of fementation conditions on cell growth of Rhodotorula glutinis in an airlift bioreactor", 2015生物技術暨工程國際研討會, (2015, Taiwan) | 顏宏偉 |
| 103 | Pin-Wen Chen(陳品妏),Hong-Wei Yen(顏宏偉)* "The development of sustainable cultivation system of Rhodotorula glutinis and Chlorella vulgaris", 2015生物技術暨工程國際研討會, (2015, Taiwan) | 顏宏偉 |
| 103 | 廖于婷、顏宏偉 "利用氣舉式發酵槽探討改變環境因子對黏紅酵母菌生長的影響性", 2015第5屆綠色永續生物技術研討會, (2015, Taiwan) | 顏宏偉 |
| 103 | 陳品妏、顏宏偉 "循環共生系統黏紅酵母菌與小藻之串聯培養", 2015第5屆綠色永續生物技術研討會, (2015, Taiwan) | 顏宏偉 |
| 105 | 陳昭翰、顏宏偉(2017.01)以Mortierella isabellina 生產微生物油脂之研究..2017緑色永續生物技術研討會.大葉大學 | 顏宏偉 |
| 105 | 陳裕仁、顏宏偉(2017.01)固定化Colstridium pasteurianum 進行發酵產氫之研究..2017緑色永續生物技術研討會.中興化工 | 顏宏偉 |
| 105 | 許志淵、顏宏偉(2017.06)The study of chromiun and chemical oxygen demand (COD) reduction and carbon fixation by using Chlorella vulgaris..2017台灣生物技術與生化工程學會年會.雲科大生物科技 | 顏宏偉 |
| 105 | 鄭晉安、顏宏偉(2017.06)Different ways of Rhodotorula gutinis oil extraction and transesterification process discussion..2017台灣生物技術與生化工程學會年會.雲科大生物科技 | 顏宏偉 |
| 105 | 洪子翔、顏宏偉(2017.06)Porduction of Cellulase by Kluyveromyces marxianus..2017台灣生物技術與生化工程學會年會.雲科大生物科技 | 顏宏偉 |
| 105 | 梁惟翔、顏宏偉(2017.06)The fermentation process development of Rhocotorula glutinis byo using seawater and crude glycerol..2017台灣生物技術與生化工程學會年會.雲科大生物科技 | 顏宏偉 |
| 105 | 蔡景綸、顏宏偉(2017.06)The enhancement of Y-linolenis acid (GLA) production during the fermentation of Mortierella isabellina..2017台灣生物技術與生化工程學會年會.中央大學 | 顏宏偉 |
專書中之論文
| 學年度 | 名稱 | 著作人 |
|---|---|---|
| 101 | Hong-Wei Yen (顏宏偉), I-Chen Hu, Chun-Yen Chen, and Jo-Shu Chang*, 2013, "Biofuels from Algae", Elsevier (ISBN: 9780444595584) | 顏宏偉 |
主編之專書
| 學年度 | 名稱 | 著作人 |
|---|
專利
| 學年度 | 名稱 | 著作人 |
|---|
技術報告
| 學年度 | 名稱 | 著作人 |
|---|
其他
| 學年度 | 名稱 | 著作人 |
|---|---|---|
| 103 | 張嘉修.陳俊延.林志生.楊勝仲.周德珍.郭子禎.顏宏偉.李澤民2015-06.二氧化碳再利用─微藻養殖.科學發展.510:12-16.(其他) | 顏宏偉 |
代表性論著
| 學年度 | 名稱 | 著作人 |
|---|
其他計畫
其他計畫
| 學年度 | 計畫主持人 | 計畫名稱 | 計畫期程 | 合作機構 |
|---|---|---|---|---|
| 101 | 顏宏偉 | 國科會產學-以粗甘油培養高油脂紅酵作為生物飼料之研究 | 101年11月~ 102年10月 |
基盛生物技術股份有限公司 |
科技部計畫
科技部計畫
| 學年度 | 計畫主持人 | 計畫名稱 | 計畫日期 | 類型 |
|---|---|---|---|---|
| 107 | 顏宏偉 | 利用沿岸城市的水體空間創造經濟社會發展機會:以石化廠為案例之培植計畫-利用沿岸城市的水體空間創造經濟社會發展機會:以石化廠為案例之培植計畫 | 107年08月~ 108年07月 |
科技部計畫 |
| 107 | 顏宏偉 | 高密度培養基因重組大腸桿菌發酵生產大腸桿菌素(colicin Ib)之發酵製程探討 | 107年08月~ 108年07月 |
科技部計畫 |
| 106 | 顏宏偉 | 同步分離純化微生物油脂做為生質柴油料源與高單價β-胡蘿蔔素之開發研究-結合好氧式高油脂紅酵母菌(Rhodotorula glutinis)發酵製程與光合微藻(Chlorella vulgaris)培養之可行性(2/2) | 106年08月~ 107年07月 |
科技部計畫 |
| 106 | 顏宏偉 | 探討高油脂真菌Mortierella isabellina做為生質柴油料源之研究(3/3) | 106年08月~ 107年07月 |
科技部計畫 |
| 105 | 顏宏偉 | 同步分離純化微生物油脂做為生質柴油料源與高單價β-胡蘿蔔素之開發研究-結合好氧式高油脂紅酵母菌(Rhodotorula glutinis)發酵製程與光合微藻(Chlorella vulgaris)培養之可行性 | 105年08月~ 106年07月 |
科技部計畫 |
| 105 | 顏宏偉 | 探討高油脂真菌Mortierella isabellina做為生質柴油料源之研究(2/3) | 105年08月~ 106年07月 |
科技部計畫 |
| 104 | 顏宏偉 | 探討海水與纖維水解液進行高油脂紅酵母菌(Rhodotorula glutinis)培養與後續高壓破壁及轉酯之製程可行性(II) | 104年08月~ 105年07月 |
科技部計畫 |
| 104 | 顏宏偉 | 探討高油脂真菌Mortierella isabellina做為生質柴油料源之研究 | 104年08月~ 105年07月 |
科技部計畫 |
| 103 | 顏宏偉 | 從纖維素到生質柴油:第二代生質柴油之技術發展,產業經濟與法律政策之影響評估-以纖維素水解液培養高油脂酵母菌,進而轉酯化成生質柴油之研究(I) | 103年08月~ 104年07月 |
科技部計畫 |
| 103 | 顏宏偉 | 兩段式pH控制以及以黏度控制菌體形態對於Streptomyces hygroscopicus生產rapamycin之研究(2/2)* | 103年08月~ 104年07月 |
科技部計畫 |
| 102 | 顏宏偉 | 探討利用氣舉式發酵槽培養高油脂紅酵母菌生產生質柴油料源之可行性 | 103年01月~ 103年12月 |
科技部計畫 |
| 102 | 顏宏偉 | 兩段式pH控制以及以黏度控制菌體形態對於Streptomyces hygroscopicus生產rapamycin之研究(1/2) * | 102年08月~ 103年07月 |
科技部計畫 |
| 101 | 顏宏偉 | 共培養酵母菌(Rhodotorula glutinis) 與藻類(Scenedesmus)以生產脂質作為生質柴油料源之研究 | 101年08月~ 102年07月 |
科技部計畫 |
| 101 | 顏宏偉 | 固定化菌體之ABE發酵-以生質柴油同步萃取丁醇之研究 | 102年01月~ 102年12月 |
科技部計畫 |
| 100 | 顏宏偉 | 利用尼羅紅篩選高油脂含量酵母菌 (Rhodotorula glutinis)並進行高密度培養以作為生質柴油之油脂來源 | 100年08月~ 101年07月 |
科技部計畫 |
| 99 | 顏宏偉 | 滲透蒸發膜應用於Clostridium acetobutylicum 進行地瓜澱粉連續式發酵丁醇之研究-第二年 | 099年08月~ 100年07月 |
科技部計畫 |
| 98 | 顏宏偉 | 滲透蒸發膜應用於Clostridium丁醇發酵之製程研究 | 098年08月~ 099年07月 |
科技部計畫 |
| 97 | 顏宏偉 | 陶瓷過濾膜應用於Rhizopus oryzae發酵地瓜粉生成乳酸之研究 | 097年08月~ 098年07月 |
科技部計畫 |
| 96 | 顏宏偉 | 共同厭氧消化方式分解醱酵後廢棄菌體與紙張以回收甲烷能源之探討 | 096年08月~ 097年07月 |
科技部計畫 |
| 95 | 顏宏偉 | 陶瓷微過濾膜應用於高密度培養 Rhodobacter sphaeroides以生產輔酉每(Ubiquinone 10)之醱酵條件探討 | 095年08月~ 096年07月 |
科技部計畫 |