Abstract
Natural lignocellulose are the most important part of biomass and have the potential to convert into a variety of intermediate or final products. According to the requirements of ecological engineering and ecological agriculture, the significance of bioconversion and comprehensive utilization of natural lignocellulose has been studied. The major eco-industrial productions by modern biotechnology are renewable clean energy, pollution-free biological pesticides, biological nitrogen fixation of organic fertilizer, and microbial feed and feed additives, which can advance the level of eco-agriculture. Therefore, the technology system of comprehensive utilization of natural lignocellulose is proposed in this chapter, and the key technology and its features to break through the barriers of economy and technology are involved. Also, some typical examples for an ecological industry model of biotechnology of lignocellulose are introduced.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Chen HZ. Ecological biochemical engineering. Beijing: Chemical Industry Press; 2009.
Gibbs D, Deutz P. Implementing industrial ecology? Planning for eco-industrial parks in the USA. Geoforum. 2005;36(4):452–64.
Wu HW. Eco-industrial park planning and construction [dissertation]. Nanchang: Nanchang University; 2010.
Lu CX, Shang JC. Preliminary discussion of theoretical basics and study on the construction and planning of eco-industrial park. Econ Geogr. 2004;24:399–402.
Hao XB. Preliminary discussion of theoretical basics and method on industrial ecology. Taiyuan Sci Technol. 2000:1–2.
Zhou XH, Zhao X. Western industrial development of the ecological park. City Plan Rev. 1998;2:63–4.
Yang JX. The basic theory of industrial ecology. Urban Environ Urban Ecol. 1998;11(2):56–60.
Wang YL, Zhou MH. The application of the eco-industry model in the steam water quality simulation. Yunnan Environ Sci. 2003;22(2):18–21.
Chen DJ, Li YR, Shen JZ, Hu SY. System analysis approaches and practice of industrial ecology. Chem Eng. 2004;32(4):53–7.
Yang JX, Wang RS. Retrospect and prospect of industrial ecology. China J Appl Ecol. 1998;9(5):555–61.
Yang JX. Transition of cleaner production to industrial ecology. Adv Environ Sci. 1998;6(5):82–8.
Li TS, Wei YQ. The current situation and prospect of the study on industrial ecology. Acta Ecol Sinic. 2005;25(4):869–77.
Li YR, Shen JZ. Study and progress on industrial ecology and eco-industrial parks. J Chem Ind Eng (China). 2001;52(3):189–92.
Kidwai M, Mohan R. Green chemistry: an innovative technology. Found Chem. 2005;7(3):269–87.
Ma CD. Urban ecological economics. Beijing: Economic Daily Press; 1989.
Zhou MH, Xu JB. Sustainable development of eco-industrial education. J Donghua Univ Sci. 2004;4(3):65–8.
Wang YW, Yang CJ, Wu DD. Eco-industrial park development analysis. Environ Sci Manage. 2010;35(5):154–6.
Jiang AL. Developing model for integrated sustainable industrialization-eco-industry and ecological industry park. China Environ Prot Ind. 2004;10:10–1.
Zhou X, Zhao X. Western industrial development of the ecological park. City Plan Rev. 2001;2:63–4.
Bian YB. Effect of straw resource status on the development of edible fungi industry in china. Edib Fungi China. 2006;25(1):5–7.
Zhen J. Preliminary report on rare edible fungus cultivation of corn stover oyster. Fujian Sci Technol Trop Crops. 2006;31(4):16–8.
Yao SH. Study on key cultivation techniques of Flammulina velutipes by using rape stalk. J Anhui Agric Sci. 2007;35(27):8479–81.
Lü X, Yang J, Wang D, Luo D. New advancement of higher appending value application of lignin. Chem Ind Eng Prog. 2001;20(5):10–4.
Zeng YC, Zhang XL, Liu XL. Lignin and its comprehensive utilization. Guangzhou Chem Ind. 2005;32(10):11–4.
Zhang GM, Liao SQ, Lin HL, Liao JH. Lignin extraction method and the comprehensive utilization. Chin J Trop Agric. 2005;25(1):66–70.
Chen HZ, Li ZH. Key technology of ecological industry for straw. Trans Chin Soc Agric Eng. 2001;17(2):1–4.
Chen HZ, Li ZH. Research on cellulosic materials biomass full use of eco-industrial. Discov Nat. 1999;18(4):51–5.
Chen HZ, Li ZH. Comprehensive utilization technology of straw and ecological industry. Fine Spec Chem. 2000;8(10):8–11.
Chen HZ, Song YM, Zhang JX. Method of producing Greening base material from steam exploded straw by solid-state fermentation. China Patent 200810102981.5, 2008.
Chen HZ, Song YM, Zhang JX. Method of producing sandy soil improvement materials from steam exploded straw by solid-state fermentation. China Patent 200810102982.x, 2008.
Chen HZ, Song YM, Zhang JX. Method of the base planting material from steam exploded straw by solid-state fermentation. China Patent 200810102983.4, 2008.
Chen HZ, Qiu WH. Key technologies for bioethanol production from lignocellulose. Biotechnol Adv. 2010;28:556–62.
Chen HZ, Wang L. Research progress on key process and integrated eco-industrial chains of biobased products proposal of biobased product process engineering. Chin J Process Eng. 2008;4:676–81.
Chen HZ, Wang L. Method of fermentation acetone, butanol from steam-exploded straw xylose and extracted residues. China Patent 200910088002.x, 2009.
Chen HZ, Li HQ, Ma BH, Shen XD. The device and method of the five-carbon sugar fermentation butanol from straw dilute acid hydrolysis. China Patent 200910088094.1, 2009.
Chen HZ, Wang L. Acetone-butanol-ethanol fermentation and isoflavone extraction using kudzu roots. China Patent 200910088095.6, 2009.
Chen HZ, Wang L, Ma BH, Shen XD. Preparation of the butanol fermentation medium. China Patent 200910088095.6, 2009.
Chen HZ, Wang L, Ma BH, Shen XD. A method of straw dilute acid hydrolyzate fermentation and butanol distillation. China Patent 200910088100.3, 2009.
Chen HZ, Qiu WH, Ma BH, Shen XD. An enhanced bacteria with five-carbon sugar to ferment butanol. China Patent 200910088097.5, 2009.
Chen HZ, Ding WY, Ma BH, Shen XD. Comprehensive utilization of cellulose and lignin after extracting five carbon sugar. China Patent 200910088096.0, 2009.
Chen HZ, Ding WY, Ma BH, Shen XD. A method of separation and extraction lignin with membrane. China Patent 200910093072.4, 2009.
Chen HZ, Qiao XQ, Ma BH, Shen XD. A straw dilute acid hydrolysis and furfural separated from the hydrolyzate. China Patent 200910088098.x, 2009.
Chen HZ, Peng XW, Ma BH, Shen XD. Preparation feed from the mixture of straw and butanol or ethanol fermentation wastewater. China Patent 200910088099.4, 2009.
Chen HZ, Zhang ZG, Ma BH, Shen XD. Pretreatment method for fermentation liquid from straw five-carbon sugar solution. China Patent 200910088101.8, 2009.
Chen HZ, Song JP. The equipment and methods of preparation alcohol by solid-state fermentation with sweet sorghum stalks. China Patent 200710099502.4, 2009.
Song JP, Chen HZ, Ma RY. Research on production of ethanol from sweet sorghum stalk by solid-state fermentation. Liquor Making. 2007;34(1):81–3.
Song JP, Chen HZ, Ma RY. Comprehensive utilization of sweet sorghum solid-state fermentation residue. Liquor Making. 2007;34(4):52–3.
Fu XG, Chen HZ, Wang WD. The extraction of total flavonoids from steam exploded puerarin. China Patent 200610114727.8, 2006.
Wang WD, Fu XG, Chen HZ. Method for the extraction Pueraria total flavonoids from the fermentation fuel ethanol residues. China Patent 200610114728.2, 2006.
Chen HZ, Fu XG, Wang WD. Pueraria simultaneous saccharification and fermentation to produce fuel ethanol. China Patent 200610114730.x, 2006.
Fu XG, Chen HZ, Wang WD. Production of ethanol and isoflavones from steam pretreated Radix puerariae by solid state fermentation. Chin J Biotechnol. 2008;24(6):957–61.
Fu XG, Chen HZ, Wang WD. Eco-industrial chain for energy utilization of Pueraria resources. Chin Univ Technol Transfer. 2008;3:78–80.
Chen HZ, Liu J, Li C, Li ZH. Method of clean unglued to marijuana using steam explosion. China Patent 01123537.3, 2001.
Chen HZ, Zhang JX. Method of producing pulp and paper for noil in the process of hemp fiber pretreatment. China Patent 200810100969.0, 2008.
Chen HZ, Zhang JX. Method of producing ethanol for noil in the process of hemp fiber pretreatment. China Patent 200810100970.3, 2008.
Chen HZ, Zhang JX. Extraction separation method for anesthesia soluble components from steam explosion marijuana. China Patent 200810100965.2, 2008.
Ding CH. Biological characteristics and comprehensive utilization of hybrid giant Napier. Mod Agric. 2008;12:33–4.
Zhang H, Huang DY, Li ZZ. Biological characteristics and chemical compositions of hybrid giant Napier. China Pulp Paper. 2003;22(5):1–4.
Tan WB, Huang ZP. Analysis on the contents of routine nutritive components and gross energy of Pennisetum sinese. J Southwest For Coll. 2006;26(6):40–3.
Chen HZ, Zhang JX. A Processing method for fractionally converting Pennisetum hydridum into fuel ethanol with co-production of electricity generation and paper pulp. China Patent 200810100967.1, 2008.
Xie SP, Chen HZ. Study on selective liquefaction of wheat straw with phenol. Biomass Chem Eng. 2008;42(4):1–5.
Xie SP, Chen HZ. Method on selective liquefaction of wheat straw with phenol. China Patent 200810102984.9, 2008.
Author information
Authors and Affiliations
Rights and permissions
Copyright information
© 2014 Chemical Industry Press, Beijing and Springer Science+Business Media Dordrecht
About this chapter
Cite this chapter
Chen, H. (2014). Ecological Industry Model for Biotechnology of Lignocellulose. In: Biotechnology of Lignocellulose. Springer, Dordrecht. https://doi.org/10.1007/978-94-007-6898-7_10
Download citation
DOI: https://doi.org/10.1007/978-94-007-6898-7_10
Published:
Publisher Name: Springer, Dordrecht
Print ISBN: 978-94-007-6897-0
Online ISBN: 978-94-007-6898-7
eBook Packages: Biomedical and Life SciencesBiomedical and Life Sciences (R0)