田永蘭,女,1988年5月生。2009年在山東大學環境科學專業獲得學士,2012年在華北電力大學環境工程專業獲得碩士學位,2017年3月在華北電力大學可在生能源與清潔能源專業獲得博士學位,2014年9月至2016年9月受國家留學基金委資助赴英國倫敦大學瑪麗女王學院(Queen Mary,University of London)進行博士聯合培養。2019年被聘為碩士生導師。主要研究方向為能源與污染控制生物學,在生物能源厭氧發酵過程機制研究、受污染土壤和水體的生態修復過程等領域開展研究工作。
主持了“十三五”國家科技重大專項子課題1項,參與了“十三五”、“十二五”、“十一五”國家科技重大專項、國家科技支撐項目、課題、子課題等6項。在Bioresource Technology、Journal of Experimental Botany、Journal of Environmental Management、Biodegradation、和Ecological Engineering等學術期刊上發表論文41篇,其中SCI論文25篇,EI會議論文8篇,中文核心期刊論文8篇;合作出版英文專著1部;申請或授權國家發明專利4項;獲國家留學基金資助出國留學1次,山東省南四湖水專項工作先進個人稱號1次,博士生國家獎學金1項、華北電力大學優秀博士獎學金2項、華北電力大學研究生國能中電學術創新獎學金1項。
基本介紹
- 中文名:田永蘭
- 就職院校:華北電力大學
- 職稱:講師
科研項目,發表論著,發明專利,
科研項目
[1]國家“十三五”水專項“農業廢棄物厭氧發酵生產有機肥替代化肥技術”子課題,編號2017ZX07101003-003,2017至2020年,子課題負責人,國撥經費249.37萬元
[2]國家十三五”水專項“水環境保護及濕地水質保障技術集成示範”子課題下設任務“區域水環境保護及濕地水質保障綜合技術集成與參數最佳化研究”,編號2017ZX07101003-009-02,2017至2020年,任務負責人,國撥經費83.50萬元
[3]中央高校基本科研業務費面上項目“複合金屬添加的厭氧發酵產氣過程統計學研究”,編號2018MS051,2018至2020年,項目負責人,國撥經費8.00萬元
[4]國家“十二五”水專項課題“沙潁河中下游農業面源污染控制與水質改善集成技術研究與示範”下設“農村污水生態淨化與典型支流水質改善適用技術集成研究與工程示範”子課題,編號2015ZX07204-007,2015至2019年,技術骨幹,國撥經費380.00萬元
[5]國家“十一五”水專項“南四湖退化濕地生態修復及水質改善技術與示範”課題,編號2009ZX07210-009,2009至2012年,主要參與人員,國撥經費119.00萬元
[6]2012年度山東省環境瓶頸與解析項目,生態河道人工強化關鍵技術研究技術與示範,編號SDZS-2012-SHBT01,2012至2015年,主要參與人員,經費60.00萬元
[7]山東省環境保護廳項目,南四湖與東平湖生態安全調查及評估項目,2012至2014年,主要參與人員,經費130.00萬元
發表論著
SCI論文
[1]Yonglan Tian*, Kun Yang, Lei Zheng, Xiaoxi Han, Yanli Xu, Ying Li, Shusen Li, Xiang Xu, Huayong Zhang, Lei Zhao. Modelling biogas production kinetics of various heavy metals exposed anaerobic fermentation process using sigmoidal growth functions. Waste and Biomass Valorization, 2019. https://doi.org/10.1007/s12649-019-00810-x. (SCI, IF: 2.358)
[2]Yonglan Tian, Huayong Zhang, Lei Zheng, Shusen Li, He Hao, Hai Huang. Effect of Zn addition on the Cd-containing anaerobic fermentation process biodegradation and microbial communities. International Journal of Environmental Research and Public Health, 2019, 16(16), 2998. (SCI, IF: 2.468)
[3]Yonglan Tian, Huayong Zhang, Lei Zheng, Shusen Li, He Hao, Meixiao Yin, Yudong Cao, Hai Huang. Process analysis of anaerobic fermentation exposure to metal mixtures. International Journal of Environmental Research and Public Health, 2019, 16(14), 2458. (SCI, IF: 2.468)
[4]Yonglan Tian, Shusen Li, Ying Li, Huayong Zhang, Xueyue Mi, Hai Huang. Cadmium addition effects on anaerobic digestion with elevated temperatures. Energies, 2019, 12, 2367. (SCI, IF: 2.676)
[5]Huayong Zhang, Yanli Xu, Yonglan Tian, Lei Zheng, He Hao, Hai Huang. Impact of Fe and Ni Addition on the VFAs’ Generation and Process Stability of Anaerobic Fermentation Containing Cd. International Journal of Environmental Research and Public Health, 2019, 16(21), 4066. (SCI, IF: 2.468)
[6]Huayong Zhang, Xiaoxi Han, Yonglan Tian, Yanli Xu, Yang Chai, Xiang Xu, Edmond Sanganyado. Relationship analysis of anaerobic fermentation parameters exposed to elevated chromium (VI). Environmental Progress & Sustainable Energy, 2019, 38(6):e13212. (SCI, IF: 1.326)
[7]Yonglan Tian*, Kun Yang, Shusen Li, Huayong Zhang, Xiaoxi Han, He Hao, Yang Chai, Xiang Xu. How does copper stress influence the relationships among the anaerobic co-fermentation parameters? Journal of Renewable and Sustainable Energy 2018, 10, 053107(1-11). (SCI, IF: 1.337)
[8]Huayong Zhang, Xiaoxi Han, Yonglan Tian, Ying Li, Kun Yang, He Hao, Yang Chai, Xiang Xu. Process analysis of anaerobic fermentation of Phragmites australis straw and cow dung exposing to elevated chromium (VI) concentrations. Journal of Environmental Management, 2018, 224:414-424. (SCI, IF: 4.005)
[9]Xiang Xu, Huayong Zhang, Ting Xie, Junjie Yue, Lei Zhao, Yonglan Tian. Geographical patterns of Raunkiaerian life-form spectra in China. Pakistan Journal of Botany, 2018, 50(4):1509-1516. (SCI, IF: 0.690)
[10]Xiang Xu, Huayong Zhang, Junjie Yue, Ting Xie, Yao Xu, Yonglan Tian. Predicting Shifts in the Suitable Climatic Distribution of Walnut (Juglans regia L.) in China Maximum Entropy Model Paves the Way to Forest Management. Forests 2018, 9(3):103-118. (SCI, IF: 1.956)
[11]Yonglan Tian, Joanna Sacharz, Maxwell A. Ware, Huayong Zhang, Alexander V. Ruban. Effects of periodic photoinhibitory light exposure on physiology and productivity of Arabidopsis plants grown under low light. Journal of Experimental Botany, 2017, 68:4249-4262. (SCI, TOP, IF: 5.830)
[12]Hao He, Yonglan Tian*, Huayong Zhang, Yang Chai Copper stressed anaerobic fermentation: biogas properties, process stability, biodegradation and enzyme responses. Biodegradation, 2017, 28:369381. (SCI, IF: 2.018)
[13]Yonglan Tian, Petra Ungerer, Huayong Zhang, Alexander V. Ruban. Direct impact of the sustained decline in the photosystem II efficiency upon plant productivity at different developmental stages. Journal of Plant Physiology, 2017, 212:45-53. (SCI, IF: 3.121)
[14]Yonglan Tian, Huayong Zhang, Yang Chai, Lijun Wang, Xueyue Mi, Luyi Zhang, Maxwell Adam Ware. Biogas properties and enzymatic analysis during anaerobic fermentation of Phragmites australis straw and cow dung: influence of nickel chloride supplement. Biodegradation, 2017, 28:15-25. (SCI, IF: 2.018)
[15]Yonglan Tian, Huayong Zhang, He Hao, Songbo Cui, Luyi Zhang, Lei Zhao, Xiang Xu. Relationships between phosphorus fractionations in sediments and phosphorus in overlying water in a constructed wetland: impact of macrophytes. Desalination and Water Treatment, 2017, 84:180-189. (SCI, IF: 1.631)
[16]Huayong Zhang, Yonglan Tian, Songbo Cui, Luyi Zhang, Xin Zhong, Yuanwu Xiong. Influence of macrophytes on phosphorus fractionation in surface sediments in a constructed wetland: Insight from sediment compositions. Ecological Engineering, 2016, 97:400-409. (SCI, IF: 2.914)
[17]Huayong Zhang, Yonglan Tian, Lijun Wang, Xueyue Mi, Yang Chai. Effect of ferrous chloride on biogas production and enzymatic activities during anaerobic fermentation of cow dung and Phragmites straw. Biodegradation, 2016, 27:69-82. (SCI, IF: 2.018)
[18]Yonglan Tian, Huayong Zhang. Producing Biogas from Agricultural Residues Generated during Phytoremediation Process: Possibility, Threshold, and Challenges. International Journal of Green Energy, 2016, 13(15):1556-1563. (SCI, IF: 1.454)
[19]Yonglan Tian, Huayong Zhang, Xueyue Mi, Lijun Wang, Luyi Zhang, Yuejie Ai. Research on anaerobic digestion of corn stover enhanced by dilute acid pretreatment: Mechanism study and potential utilization in practical application. Journal of Renewable and Sustainable Energy, 2016, 8(2):8179-14. (SCI, IF: 1.337)
[20]Luyi Zhang, Huayong Zhang, Wei Guo, Yonglan Tian. Removal of malachite green and crystal violet cationic dyes from aqueous solution using activated sintering process red mud. Applied Clay Science, 2014, 93:85-93. (SCI, IF: 3.101)
[21]Yonglan Tian, Huayong Zhang, Wei Guo, Xiaofeng Wei. Morphological responses, biomass yield and bioenergy potential of sweet sorghum cultivated in cadmium-contaminated soil for biofuel. International Journal of Green Energy, 2014, 12(6):577-584. (SCI, IF: 1.454)
[22]Huayong Zhang, Yonglan Tian, Lijun Wang, Luyi Zhang, Liming Dai. Ecophysiological characteristics and biogas production of cadmium-contaminated crops. Bioresource Technology, 2013, 146:628-636. (SCI, TOP, IF: 5.651)
[23]Luyi Zhang, Huayong Zhang, Wei Guo, Yonglan Tian. Sorption characteristics and mechanisms of ammonium by coal by-products: slag, honeycomb-cinder and coal gangue. International Journal of Environmental Science and Technology, 2013, 10(6):1309-1318. (SCI, IF: 1.915)
[24]Luyi Zhang, Huayong Zhang, Yonglan Tian, Zhongshan Chen, Lu Han. Adsorption of methylene blue from aqueous solutions onto sintering process red mud. Desalination and water treatment, 2012, 47(1-3):31-41. (SCI, IF: 1.631)
[25]Yonglan Tian, Huayong Zhang, Wei Guo, Zhongshan Chen, Xiaofeng Wei, Luyi Zhang, Lu Han, Liming Dai. Assessment of the phytoremediation potential of bioenergy crop maize (Zea mays) in soil contaminated by cadmium: Morphology, photosynthesis and accumulation. Fresenius Environmental Bulletin 2012, 21(11):3575-3581. (SCI, IF: 0.425)
論著
[1]Yonglan Tian, Huayong Zhang and Edmond Sanganyado. Biodegradability During Anaerobic Fermentation Process Impacted by Heavy Metals. IntechOpen, 2019, DOI: 10.5772/intechopen.87161.
發明專利
[1]張化永, 田永蘭, 韓曉茜, 郝和, 王中玉, 黃海. 一種含鎘生物質厭氧發酵的方法, 專利號: ZL 201711267086.4
[2]田永蘭, 鄭磊, 徐艷麗, 郝和, 張化永. 一種含鎘生物質厭氧發酵產氣的方法, 申請號: 201810321408.7
[3]田永蘭, 鄭磊, 李樹森, 曹宇東, 張化永, 徐丹, 孫建忠. 一種複合金屬污染苜蓿草再利用的方法, 申請號: 201910190353.5
[4]田永蘭, 張化永, 徐艷麗, 鄭磊, 李瑩, 李樹森. 一種複合金屬污染苜蓿草再利用的方法, 申請號: 201910190353.5
