利用生物固碳技术生成生物基产品
Journal: Ecological Environment and Protection DOI: 10.12238/eep.v7i3.1977
Abstract
随着全球气候变化对环境造成日益严重的威胁,寻找有效的碳减排技术成为亟须解决的问题。生物固碳技术,通过生物过程捕捉和存储大气中的二氧化碳,为减少温室气体排放提供了一种潜在的解决方案。同时,发展生物基产品作为替代传统化石燃料基产品的策略,不仅能减轻环境压力,还能推动经济向可持续发展模式转型。因此利用生物固碳技术生成生物基产品成为当前研究的重点,本文主要叙述了生物固碳技术的原理及其生成的生物基产品及未来的研究方向,旨在优化生物固碳过程,提高生物基产品的合成效率和降低生产成本提供理论依据
Keywords
生物固碳;生物基产品;环境问题
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[1] Knohl Alexander,Veldkamp Edzo.Global change:indirect feedbacks to risingCO2.[J].Nature,2011,475(7355).
[2] R.Lal.Sequestration of atmospheric CO2 in global carb on pools[J].Energy & Environmental Science,2008,1(1).
[3] Emerson David F,Woolston Benjamin M,Liu Nian,Donnelly Mackenzie,Currie Devin H,Stephanopoulos Gregory. Enhancing hydrogen-dependent growth of and carbon dioxide fixation by Clostridium ljungdahlii through nitrate supplementation[J].Biotechnology and bioengineering,2019,116(2).
[4] Ranjan M R ,Bhardwaj P,Tripathi A.Microbial Sequestra tion of Atmospheric Carbon Dioxide.2021.
[5] Jyoti Singh,Indu Shekhar Thakur.Evaluation of cyanob acterial endolith Leptolyngbya sp. ISTCY101, for integrated wastewater treatment and biodiesel production:A toxicologi cal perspective[J].Algal Research,2015,11.
[6] 嵇磊,张利雄,姚志龙,等.利用藻类生物质制备生物燃料研究进展[J].石油学报(石油加工),2007,23(6):1-5.
[7] Jajesniak Pawel,Eldin Mohamed Omar Ali Hossam,Seng Wong*Tuck. Carbon Dioxide Capture and Utilization using Biol ogical Systems: Opportunities and Challenges[J]. Journal of Bioprocessing & Biotechniques,2014,04(03).
[8] Hanai T,Atsumi S,Liao J C.Engineered synthetic pathw ay for isopropanol production Rao Ashok,Sathiavelu A.,Mythili S..Genetic Engineering In BioButanol Production And Toleran ce[J].Brazilian Archives of Biology and Technology,2016,59(0).
[9] Fiechter Armin.Biosurfactants:moving towards industr ial application[J].Trends inBiotechnology,1992,10(6).
[10] Moutinho Liza Fernandes,Moura Felipe Ramalho,Silves tre Rackel Carvalho,RomãoDumaresq Aline Silva. Microbial bios urfactants:A broad analysis of properties, applications, biosy nthesis and techno-economical assessment of rhamnolipid production.[J].Biotechnology progress,2020,37(2).
[11] Deziel E,Paquette G,Villemur R,Lepine F,Bisaillon J.Bi osurfactant production by a soil pseudomonas strain growing on polycyclic aromatic hydrocarbons.[J].Applied and environ mental microbiology,1996,62(6).
[12] 陈家运.可降解塑料迎来新标准资本纷纷入局抢市场[N].中国经营报,2022-06-06(A07).
[13] Carpine R,Olivieri G,HellingwerfK J,et al. Industrial Production of Poly-β-hydroxybutyrate from CO2:Can Cyanob acteria Meet this Challenge?[J].Processes,2020,8(3):323.
[14] Manish, Kumar, Smita, et al. Carbon dioxide capture, storage and production of biofuel and biomaterials by bac teria:A review[J].Bioresource Technology: Biomass, Bioenergy, Biowastes,Conversion Technologies,Biotransformations, Produc tion Technologies,2018,247:1059-1068.
[2] R.Lal.Sequestration of atmospheric CO2 in global carb on pools[J].Energy & Environmental Science,2008,1(1).
[3] Emerson David F,Woolston Benjamin M,Liu Nian,Donnelly Mackenzie,Currie Devin H,Stephanopoulos Gregory. Enhancing hydrogen-dependent growth of and carbon dioxide fixation by Clostridium ljungdahlii through nitrate supplementation[J].Biotechnology and bioengineering,2019,116(2).
[4] Ranjan M R ,Bhardwaj P,Tripathi A.Microbial Sequestra tion of Atmospheric Carbon Dioxide.2021.
[5] Jyoti Singh,Indu Shekhar Thakur.Evaluation of cyanob acterial endolith Leptolyngbya sp. ISTCY101, for integrated wastewater treatment and biodiesel production:A toxicologi cal perspective[J].Algal Research,2015,11.
[6] 嵇磊,张利雄,姚志龙,等.利用藻类生物质制备生物燃料研究进展[J].石油学报(石油加工),2007,23(6):1-5.
[7] Jajesniak Pawel,Eldin Mohamed Omar Ali Hossam,Seng Wong*Tuck. Carbon Dioxide Capture and Utilization using Biol ogical Systems: Opportunities and Challenges[J]. Journal of Bioprocessing & Biotechniques,2014,04(03).
[8] Hanai T,Atsumi S,Liao J C.Engineered synthetic pathw ay for isopropanol production Rao Ashok,Sathiavelu A.,Mythili S..Genetic Engineering In BioButanol Production And Toleran ce[J].Brazilian Archives of Biology and Technology,2016,59(0).
[9] Fiechter Armin.Biosurfactants:moving towards industr ial application[J].Trends inBiotechnology,1992,10(6).
[10] Moutinho Liza Fernandes,Moura Felipe Ramalho,Silves tre Rackel Carvalho,RomãoDumaresq Aline Silva. Microbial bios urfactants:A broad analysis of properties, applications, biosy nthesis and techno-economical assessment of rhamnolipid production.[J].Biotechnology progress,2020,37(2).
[11] Deziel E,Paquette G,Villemur R,Lepine F,Bisaillon J.Bi osurfactant production by a soil pseudomonas strain growing on polycyclic aromatic hydrocarbons.[J].Applied and environ mental microbiology,1996,62(6).
[12] 陈家运.可降解塑料迎来新标准资本纷纷入局抢市场[N].中国经营报,2022-06-06(A07).
[13] Carpine R,Olivieri G,HellingwerfK J,et al. Industrial Production of Poly-β-hydroxybutyrate from CO2:Can Cyanob acteria Meet this Challenge?[J].Processes,2020,8(3):323.
[14] Manish, Kumar, Smita, et al. Carbon dioxide capture, storage and production of biofuel and biomaterials by bac teria:A review[J].Bioresource Technology: Biomass, Bioenergy, Biowastes,Conversion Technologies,Biotransformations, Produc tion Technologies,2018,247:1059-1068.
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