Coproduction of amino acids and biohythane from microalgae via cascaded hydrothermal and anaerobic process
文献类型: 外文期刊
第一作者: Wu, Houkai
作者: Wu, Houkai;Huang, Sijie;Liu, Zhidan;Wu, Houkai;Huang, Sijie;Liu, Zhidan;Wu, Houkai;Wang, Kaijun;Huang, Sijie;Liu, Zhidan
作者机构:
关键词: Algalbiorefinery; Hydrothermal converstion; Two-stage anaerobic fermentation; Amino acid; Biohythane
期刊名称:SCIENCE OF THE TOTAL ENVIRONMENT ( 影响因子:9.8; 五年影响因子:9.6 )
ISSN: 0048-9697
年卷期: 2023 年 872 卷
页码:
收录情况: SCI
摘要: In search of the candidate for animal feed and clean energy, a new vision of algal biorefinery was firstly proposed to coproduce amino acids and biohythane via hydrothermal treatment and two-stage anaerobic fermentation. This study focused on the comprehensive analysis of amino acids recovered from Chlorella sp. and the subsequent biohythane production from microalgal residues. The content and recovery rate of amino acids were in the range of 2.07-27.62 g/100 g and 3.65 %-48.66 % with increasing temperature due to more cell wall disruptions. Furthermore, it was rich in essential amino acids for livestock, including leucine, arginine, isoleucine, valine and phenylalanine. A comparable hydrogen production (9 mL/g volatile solids (VS)) was reached at 70 degrees C and 90 degrees C, while it reduced to 5.84 mL/gVS at 150 degrees C. The group at 70 degrees C got the maximum methane generation of 311.9 mL/gVS, which was 16.67 %, 24.94 %, 38.38 % and 46.49 % higher than that of other groups. Microalgal residues at lower temperature contained more organics, which was the reason for the better biohythane production. The coproduction of amino acids and biohythane at 130 degrees C was favorable, which led to 43.71 % amino acids recovery and 93.82 mL biohythane production from per gVS of Chlorella sp. The improved microalgal biorefinery could provide an alternative way to mitigate the crisis of food and energy, but animal experimentations and techno-economic assessments should be considered for further study.
分类号:
- 相关文献
作者其他论文 更多>>
-
Interspecies electron transfer regulation in a stage-separated anaerobic digestion system: The role of inoculum strategies, activated carbon integration, and organic loading rate adjustment
作者:Tang, Shuai;Si, Buchun;Lu, Haifeng;Jiang, Weizhong;Huang, Sijie;Wang, Zixin;Zhang, Yuanhui
关键词:Multistage anaerobic hythane reactor (MAHR); Interspecies electron transfer; Activated carbon; Inoculum; Organic loading rate
-
Mechanism of Potassium Release from Feldspar by Mechanical Activation in Presence of Additives at Ordinary Temperatures
作者:Zhang, Xianmei;Zhang, Wenju;Lu, Changai;Xu, Minggang;Zhang, Xianmei;Zhang, Wenju;Lu, Changai;Xu, Minggang;He, Zhenquan;Meng, Fanrong;Gai, Guosheng;Jia, Wei;Hao, Xiangyang;Huang, Zhaohui;Xu, Minggang;Wang, Kaijun;Yun, Sining
关键词:potassium feldspar powder; mechanochemical activation; water soluble potassium; available potassium; potassium availability
-
Functionalization of supercapacitors electrodes oriented hydrochar from cornstalk: A new vision via biomass fraction
作者:Jia, Jixiu;Sun, Yuxuan;Liu, Zhidan;Jia, Jixiu;Yao, Zonglu;Zhao, Lixin;Xie, Teng;Tian, Liwei;Huo, Lili;Jia, Jixiu;Zhao, Lixin;Huo, Lili
关键词:Corn stalks; Hydrothermal carbonization; Supercapacitor; Different fractions; Porous carbons; KOH activation
-
Heteroatom-doped biochar for CO2 adsorption: a review of heteroatoms, doping methods, and functions
作者:Sun, Yuxuan;Jia, Jixiu;Liu, Zhidan;Sun, Yuxuan;Jia, Jixiu;Huo, Lili;Zhao, Lixin;Yao, Zonglu
关键词:Heteroatom doping; Biochar; CO2 adsorption; Doping method
-
Waste bio-tar based N-doped porous carbon for supercapacitors under dual activation: performance, mechanism, and assessment
作者:Jia, Jixiu;Sun, Yuxuan;Liu, Ziyun;Huo, Lili;Zhao, Yanan;Zhao, Lixin;Xie, Teng;Yao, Zonglu;Jia, Jixiu;Sun, Yuxuan;Liu, Zhidan;Cao, Maojiong;Kang, Kang;Kang, Kang
关键词:Bio-tar; Dual activation; Techno-economic assessment; Porous carbon; N-doping; Supercapacitors
-
Heteroatom-doped biochar devised from cellulose for CO2 adsorption: a new vision on competitive behavior and interactions of N and S
作者:Sun, Yuxuan;Jia, Jixiu;Liu, Ziyun;Huo, Lili;Zhao, Lixin;Zhao, Yanan;Yao, Zonglu;Jia, Jixiu;Liu, Zhidan
关键词:N/S co-doping; Biochar; CO2 adsorption; Cellulose; Physicochemical interaction
-
Behaviors and interactions during hydrothermal carbonization of protein, cellulose and lignin
作者:Liu, Ziyun;Jia, Jixiu;Wang, Zihan;Liu, Zhidan;Liu, Ziyun;Zhao, Lixin;Yao, Zonglu;Jia, Jixiu
关键词:Hydrothermal carbonization; Nitrogen-rich biomass; Protein; Model chemicals; Interaction mechanism; Hydrochar
