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Journal Abstract Search

230 related items for PubMed ID: 29091847

  • 1. A life cycle assessment of options for producing synthetic fuel via pyrolysis.
    Vienescu DN, Wang J, Le Gresley A, Nixon JD.
    Bioresour Technol; 2018 Feb; 249():626-634. PubMed ID: 29091847
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  • 2. Total environmental impacts of biofuels from corn stover using a hybrid life cycle assessment model combining process life cycle assessment and economic input-output life cycle assessment.
    Liu C, Huang Y, Wang X, Tai Y, Liu L, Liu H.
    Integr Environ Assess Manag; 2018 Jan; 14(1):139-149. PubMed ID: 28796442
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  • 4. Biofuels via Fast Pyrolysis of Perennial Grasses: A Life Cycle Evaluation of Energy Consumption and Greenhouse Gas Emissions.
    Zaimes GG, Soratana K, Harden CL, Landis AE, Khanna V.
    Environ Sci Technol; 2015 Aug 18; 49(16):10007-18. PubMed ID: 26196154
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  • 6. Biomass Conversion to Produce Hydrocarbon Liquid Fuel Via Hot-vapor Filtered Fast Pyrolysis and Catalytic Hydrotreating.
    Wang H, Elliott DC, French RJ, Deutch S, Iisa K.
    J Vis Exp; 2016 Dec 25; (118):. PubMed ID: 28060311
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  • 7. Biofuel Options for Marine Applications: Technoeconomic and Life-Cycle Analyses.
    Tan ECD, Hawkins TR, Lee U, Tao L, Meyer PA, Wang M, Thompson T.
    Environ Sci Technol; 2021 Jun 01; 55(11):7561-7570. PubMed ID: 33998807
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  • 8. Comparing Life-Cycle Emissions of Biofuels for Marine Applications: Hydrothermal Liquefaction of Wet Wastes, Pyrolysis of Wood, Fischer-Tropsch Synthesis of Landfill Gas, and Solvolysis of Wood.
    Masum FH, Zaimes GG, Tan ECD, Li S, Dutta A, Ramasamy KK, Hawkins TR.
    Environ Sci Technol; 2023 Aug 29; 57(34):12701-12712. PubMed ID: 37590157
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  • 10. Environmental impact comparison of wheat straw fast pyrolysis systems with different hydrogen production processes based on life cycle assessment.
    Zheng X, Zhong Z, Zhang B, Du H, Wang W, Li Q.
    Waste Manag Res; 2022 Jun 29; 40(6):654-664. PubMed ID: 34579599
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  • 11. Environmental evaluation of a distributed-centralized biomass pyrolysis system: A case study in Shandong, China.
    Yang X, Han D, Zhao Y, Li R, Wu Y.
    Sci Total Environ; 2020 May 10; 716():136915. PubMed ID: 32036128
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  • 12. Recent progress on biomass co-pyrolysis conversion into high-quality bio-oil.
    Hassan H, Lim JK, Hameed BH.
    Bioresour Technol; 2016 Dec 10; 221():645-655. PubMed ID: 27671343
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  • 14. Life cycle assessment of residual lignocellulosic biomass-based jet fuel with activated carbon and lignosulfonate as co-products.
    Pierobon F, Eastin IL, Ganguly I.
    Biotechnol Biofuels; 2018 Dec 10; 11():139. PubMed ID: 29785206
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  • 15. Large-scale biohydrogen production from bio-oil.
    Sarkar S, Kumar A.
    Bioresour Technol; 2010 Oct 10; 101(19):7350-61. PubMed ID: 20452203
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  • 18. Life cycle assessment of first-generation biofuels using a nitrogen crop model.
    Gallejones P, Pardo G, Aizpurua A, del Prado A.
    Sci Total Environ; 2015 Feb 01; 505():1191-201. PubMed ID: 25461117
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  • 19. Life cycle analysis of fuel production from fast pyrolysis of biomass.
    Han J, Elgowainy A, Dunn JB, Wang MQ.
    Bioresour Technol; 2013 Apr 01; 133():421-8. PubMed ID: 23454388
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  • 20. Life cycle environmental sustainability and cumulative energy assessment of biomass pellets biofuel derived from agroforest residues.
    Rashedi A, Gul N, Hussain M, Hadi R, Khan N, Nadeem SG, Khanam T, Asyraf MRM, Kumar V.
    PLoS One; 2022 Apr 01; 17(10):e0275005. PubMed ID: 36206274
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