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Energy Sources, Part A: Recovery, Utilization, and Environmental Effects Volume 32, 2010 - Issue 14
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Original Articles

Oil Production from Duckweed by Thermochemical Liquefaction

S. N. Xiu Biological Engineering Program, Department of Natural Resources and Environmental Design, North Carolina A&T State University, Greensboro, North Carolina, USA
,
A. Shahbazi Biological Engineering Program, Department of Natural Resources and Environmental Design, North Carolina A&T State University, Greensboro, North Carolina, USA
,
J. Croonenberghs Biological Engineering Program, Department of Natural Resources and Environmental Design, North Carolina A&T State University, Greensboro, North Carolina, USA
&
L. J. Wang Biological Engineering Program, Department of Natural Resources and Environmental Design, North Carolina A&T State University, Greensboro, North Carolina, USA
Pages 1293-1300 | Received 26 Aug 2008, Accepted 18 Nov 2008, Published online: 17 May 2010

Citations (32)

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Rashmi Verma & Surindra Suthar. (2016) Bioenergy potential of duckweed (Lemna gibba L.) biomass. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects 38:15, pages 2231-2237.
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Patrick Biller & Andrew B Ross. (2012) Hydrothermal processing of algal biomass for the production of biofuels and chemicals. Biofuels 3:5, pages 603-623.
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Articles from other publishers (30)

Amulya Kotamraju, Mohanakrishnan Logan & Piet N.L. Lens. (2023) Integrated bioprocess for Se(VI) remediation using duckweed: Coupling selenate removal to biogas production. Journal of Hazardous Materials 459, pages 132134.
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Kaige Zhao, Wanqing Li, Yingying Yu, Guanyi Chen, Beibei Yan, Zhanjun Cheng, Hai Zhao & Yang Fang. (2023) Speciation and transformation of nitrogen in the hydrothermal liquefaction of wastewater-treated duckweed for the bio-oil production. Renewable Energy 204, pages 661-670.
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Guanyi Chen, Kaige Zhao, Wanqing Li, Beibei Yan, Yingying Yu, Jian Li, Yingxiu Zhang, Shaige Xia, Zhanjun Cheng, Fawei Lin, Liping Li, Hai Zhao & Yang Fang. (2022) A review on bioenergy production from duckweed. Biomass and Bioenergy 161, pages 106468.
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Deepali T. Marghade, Vivek P. Bhange & Jagdish W. Gabhane. 2022. Novel Feedstocks for Biofuels Production. Novel Feedstocks for Biofuels Production 191 217 .
Débora Pagliuso, Adriana Grandis, Eric Lam & Marcos S. Buckeridge. (2020) High Saccharification, Low Lignin, and High Sustainability Potential Make Duckweeds Adequate as Bioenergy Feedstocks. BioEnergy Research 14:4, pages 1082-1092.
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Oraléou Sangué Djandja, Linxin Yin, Zhicong Wang, Yao Guo, Xiaoxiao Zhang & Peigao Duan. (2021) Progress in thermochemical conversion of duckweed and upgrading of the bio-oil: A critical review. Science of The Total Environment 769, pages 144660.
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Sharda Dhadse, Shahrukh Nawaj Alam & M. Mallikarjuna Rao. (2021) Development of nutrient rich biofertilizer by co-vermistabilization of aquatic weeds using herbal pharmaceutical wastewater along with sediment of lake. Bioresource Technology Reports 13, pages 100633.
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Tejaswini Dash, Klaus-J. Appenroth & K. Sowjanya Sree. 2021. Symbiotic Soil Microorganisms. Symbiotic Soil Microorganisms 229 240 .
Xuefei Zhang, Kun Zhang, Chaofan Wu, Kefei Liu & Kang Jiang. (2020) Preparation of bio-oil and its application in asphalt modification and rejuvenation: A review of the properties, practical application and life cycle assessment. Construction and Building Materials 262, pages 120528.
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Oraléou Sangué Djandja, Zhicong Wang, Lei Chen, Liang Qin, Feng Wang, Yuping Xu & Peigao Duan. (2020) Progress in Hydrothermal Liquefaction of Algal Biomass and Hydrothermal Upgrading of the Subsequent Crude Bio-Oil: A Mini Review. Energy & Fuels 34:10, pages 11723-11751.
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Dulam Sandhya, Phanikanth Jogam, Lokesh Kumar Narnoliya, Archana Srivastava & Jyoti Singh Jadaun. 2020. Biorefinery Production Technologies for Chemicals and Energy. Biorefinery Production Technologies for Chemicals and Energy 289 312 .
Ana F. Miranda, N. Ram Kumar, German Spangenberg, Sanjukta Subudhi, Banwari Lal & Aidyn Mouradov. (2020) Aquatic Plants, Landoltia punctata, and Azolla filiculoides as Bio-Converters of Wastewater to Biofuel. Plants 9:4, pages 437.
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Ravneeet Kaur, Poonam Gera, Mithilesh Kumar Jha & Thallada Bhaskar. (2019) Optimization of process parameters for hydrothermal conversion of castor residue. Science of The Total Environment 686, pages 641-647.
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Mushtaq Ahmad Rather & Parveena Bano. 2019. Integrating Green Chemistry and Sustainable Engineering. Integrating Green Chemistry and Sustainable Engineering 1 21 .
Francis Mintah Dadzie, John Frimpong Kyei-Mensah & Michael Boakye. (2019) Production and Characterisation of Bio-Oil from Agricultural Residues. International Journal of Engineering and Technologies 16, pages 1-6.
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Farah Obeid, Thuy Chu Van, Richard Brown & Thomas Rainey. (2019) Nitrogen and sulphur in algal biocrude: A review of the HTL process, upgrading, engine performance and emissions. Energy Conversion and Management 181, pages 105-119.
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Rubia Zahid Gaur & Surendra S. Suthar. 2019. Waste Management and Resource Efficiency. Waste Management and Resource Efficiency 651 658 .
Yu-Ping Xu, Pei-Gao Duan, Feng Wang & Qing-Qing Guan. (2018) Liquid fuel generation from algal biomass via a two-step process: effect of feedstocks. Biotechnology for Biofuels 11:1.
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Rita Gusain & Surindra Suthar. (2017) Potential of aquatic weeds (Lemna gibba, Lemna minor, Pistia stratiotes and Eichhornia sp.) in biofuel production. Process Safety and Environmental Protection 109, pages 233-241.
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Rubia Zahid Gaur, Abid Ali Khan & Surindra Suthar. (2017) Effect of thermal pre-treatment on co-digestion of duckweed ( Lemna gibba ) and waste activated sludge on biogas production. Chemosphere 174, pages 754-763.
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Wei-Hong Yan, Pei-Gao Duan, Feng Wang & Yu-Ping Xu. (2016) Composition of the bio-oil from the hydrothermal liquefaction of duckweed and the influence of the extraction solvents. Fuel 185, pages 229-235.
Crossref
Peigao Duan, Caicai Zhang, Feng Wang, Jie Fu, Xiuyang Lü, Yuping Xu & Xianlei Shi. (2016) Activated carbons for the hydrothermal upgrading of crude duckweed bio-oil. Catalysis Today 274, pages 73-81.
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Rashmi Verma & Surindra Suthar. (2015) Utility of Duckweeds as Source of Biomass Energy: a Review. BioEnergy Research 8:4, pages 1589-1597.
Crossref
Yu-Ping Xu, Pei-Gao Duan & Feng Wang. (2015) Hydrothermal processing of macroalgae for producing crude bio-oil. Fuel Processing Technology 130, pages 268-274.
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Caicai Zhang, Peigao Duan, Yuping Xu, Bing Wang, Feng Wang & Lei Zhang. (2014) Catalytic upgrading of duckweed biocrude in subcritical water. Bioresource Technology 166, pages 37-44.
Crossref
Feng Wang, Zhoufan Chang, Peigao Duan, Weihong Yan, Yuping Xu, Lei Zhang, Juan Miao & Yunchang Fan. (2013) Hydrothermal liquefaction of Litsea cubeba seed to produce bio-oils. Bioresource Technology 149, pages 509-515.
Crossref
Peigao Duan, Yuping Xu & Xiujun Bai. (2013) Upgrading of Crude Duckweed Bio-Oil in Subcritical Water. Energy & Fuels 27:8, pages 4729-4738.
Crossref
Yao Xiao, Yang Fang, Yanling Jin, Guohua Zhang & Hai Zhao. (2013) Culturing duckweed in the field for starch accumulation. Industrial Crops and Products 48, pages 183-190.
Crossref
Peigao Duan, Zhoufan Chang, Yuping Xu, Xiujun Bai, Feng Wang & Lei Zhang. (2013) Hydrothermal processing of duckweed: Effect of reaction conditions on product distribution and composition. Bioresource Technology 135, pages 710-719.
Crossref
Shuangning Xiu & Abolghasem Shahbazi. (2012) Bio-oil production and upgrading research: A review. Renewable and Sustainable Energy Reviews 16:7, pages 4406-4414.
Crossref

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