[1]OPTIMIZATION OF ILLUMINATION ENVIRONMENTAL FACTORS BASED ON ORTHOGONAL TEST. Liu, Libo,Liu, Libo,Zhou, Guomin. 2010

[2]Recovery of Bacillus thuringiensis based biopesticides from fermented sludge by cross-flow microfiltration. Chang, Ming,Zhou, Shungui,Ni, Jinren,Chang, Ming,Sun, Qihong,Zhou, Shungui,Li, Tiexiang. 2012

[3]Study on Compost Conditions and Nitrogen Changes of Poultry Dung with Banana Tree. Zhang, Yubai,Tang, Xuexi,Li, Qinfen. 2013

[4]Optimization research on buckwheat vinegar fermentation process. Ma Tingjun,Yinaxi, A.,Yang Xiushi,Qin Peiyou,Liu Sancai,Ren Guixing. 2014

[5]Process optimization of hemicelluloses lye extraction from sugarcane bagasse. Liu, Xinliang,Li, ZhouJun,Wu, Fusheng,Wang, Shuangfei,Weng, Mengling. 2012

[6]Optimization of protectant, salinity and freezing condition for freeze-drying preservation of Edwardsiella tarda. Yu, Yongxiang,Xue, Liangyi,Yu, Yongxiang,Zhang, Zheng,Wang, Yingeng,Liao, Meijie,Li, Bin. 2017

[7]Optimization of extraction conditions for improving solubility of peanut protein concentrates by response surface methodology. Ma, Tiezheng,Wang, Qiang,Wu, Haiwen. 2010

[8]Structure optimization of CycloBio fluidized sand biofilters based on numerical simulation. Liu, Yao,Huang, Zhi-Tao,Song, Xie-Fa,Peng, Lei,Liu, Yao,Lei, Ji-Lin,Liu, Bao-Liang.

[9]Evaluation and Screening of Potential Non-Food Biodiesel Plants from Native Wild Species of Northwestern China. Qin, Shuo,Xue, Shuai,Xie, Guang Hui,Qin, Shuo,Xie, Guang Hui,Qin, Shuo,Xue, Shuai,Steinberger, Yosef,Li, Gui Ying. 2015

[10]Microbial lipid production by the oleaginous yeast Cryptococcus curvatus O3 grown in fed-batch culture. Zhang, Jie,Li, Yan,Xu, Hai-Peng,Zhao, Bao-Feng,Chen, Lei,Zhang, Xiao-Dong,Zhang, Jie,Fang, Xu,Zhu, Xiao-Ling. 2011

[11]A bibliometric analysis of biodiesel research during 1991-2015. Zhang, Min,Gao, Zhen,Wang, Qunhui,Gao, Ming,Zheng, Tianlong,Ma, Yingqun,Wang, Qunhui,Sun, Xiaohong. 2018

[12]Kinetics studies of biodiesel production from waste cooking oil using FeCl3-modified resin as heterogeneous catalyst. Ma, Yingqun,Wang, Qunhui,Wu, Chuanfu,Gao, Zhen,Ma, Yingqun,Wang, Qunhui,Wu, Chuanfu,Sun, Xiaohong.

[13]Improving Cell Growth and Lipid Accumulation in Green Microalgae Chlorella sp via UV Irradiation. Liu, Shuyu,Zhao, Yueping,Ao, Xiyong,Wu, Minghong,Liu, Shuyu,Ma, Fang,Liu, Li,Ma, Liyan.

[14]Simultaneous improvement in production of microalgal biodiesel and high-value alpha-linolenic acid by a single regulator acetylcholine. Parsaeimehr, Ali,Sun, Zhilan,Chen, Yi-Feng,Dou, Xiao. 2015

[15]Photosynthetic efficiency and lipid accumulation are affected by the concentration of carbon in microalgae Micractinium pusillum Y-002. Deng, Xiaodong,Gu, Bo,Guo, Jianchun,Fei, Xiaowen,Fei, Xiaowen,Hu, Xinwen. 2011

[16]Optimization of Biodiesel Production Using a Magnetically Stabilized Fluidized Bed Reactor (Retracted article. See vol. 55, pg. 561, 2013). Guo, Pingmei,Huang, Fenghong,Huang, Qingde,Zheng, Chang,Guo, Pingmei,Huang, Fenghong,Huang, Qingde,Zheng, Chang. 2012

[17]Ultrasonic Pretreatment Transesterification for Solid Basic-Catalyzed Synthesis of Fatty Acid Methyl Esters. Guo, Pingmei,Ma, Suhuan,Huang, Fenghong,Guo, Pingmei,Ma, Suhuan,Huang, Fenghong.

[18]Biodiesel production using magnetically stabilized fluidized bed reactor. Guo, Pingmei,Huang, Fenghong,Huang, Qingde,Guo, Pingmei,Huang, Fenghong,Huang, Qingde,Zheng, Chang.

[19]Magnetic Solid Base Catalysts for the Production of Biodiesel. Guo, Pingmei,Huang, Fenghong,Zheng, Mingming,Li, Wenlin,Huang, Qingde,Guo, Pingmei,Huang, Fenghong,Zheng, Mingming,Li, Wenlin,Huang, Qingde. 2012

[20]Biodiesel Potential of Nonfood Plant Resources from Tsinling and Zhongtiao Mountains of China. Xue, Shuai,Xue, Shuai,Wang, Ji Shi,Xie, Guang Hui,Steinberger, Yosef,Li, Gui Ying,Xu, Xing You. 2013