RESEARCH PROGRESS ON BIOMASS WASTE RESOURCE UTILIZATION
Keywords:
Biomass waste, Resource, UseAbstract
This paper reviews the current status of biomass waste resource utilization, mainly from agricultural and forestry biomass waste and industrial biomass waste. 2 aspects are described in detail and The application prospects of biomass waste are prospected.References
[1] Luo Wei, Yang Wantai. Research progress on renewable resource-based biomass materials. Polymer Bulletin, 2013, (4): 36-41.
[2] Putten R J, Waal J C, Jong E, et al. Hydroxymethylflirfural, a versa- tile platform chemical made from renewable resources. ChemicalReviews, 2013, 113(3): 1499-1597.
[3] Weng Jianbing, Zhang Feng'e, Dong Liangfei, etc. Pretreatment of catering wastewater with biomass materials. Journal of Environmental Engineering, 2013, 7 (10): 3908-3912.
[4] Rosatella A A, Simeonov S P, Frade R F M, et al. 5-Hydroxymethyl- furfural (HMF) as a building block platform: Biological properties, synthesis and synthetic applications. Green Chemical, 2011, 13(4): 754-793.
[5] Yu Xueying, Wang Wei, Jiang Shougang, etc. Vigorously develop ecological refining technology for remaining biomass Technique. Modern Chemicals, 2012, 32 (5): 16-20.
[6] Qiu Gang. Research on the progress of agricultural and forestry waste treatment of printing and dyeing wastewater. Environmental Science and Management, 2014, 39 (12): 99-1 03.
[7] Serrano-Ruiz J C, Dumesic J A. Catalytic routes for the conversion of biomass into liquid hydrocarbon transportation fuels. Energy& Environmental Science, 2011, 4(1): 83-99.
[8] Gallezot R. Conversion of biomass to selected chemical products. Chemical Society Reviews, 2012, 41(4): 1538-1558.
[9] Pang Xinglei. cellulose of ATRP Graft modification and its application in papermaking middle Applications. Jinan: Qilu University of Technology, 2014.
[10] Li Dejuan. cellulose RAFT _ Graft modification and its effect on pulp The reinforcing effect of. Jinan: Qilu University of Technology, 2014.
[11] Anirudhan T S, Jalajamony S, Suchithra P S. Improved performance of a cellulose-based anion exchanger with tertiary amine functional- ity for the adsorption of chromium(Ⅵ) form aqueous solutions. Colloids and Surfaces A: Physico-chemical and Engineering As-pects, 2009, 335: 107-113.
[12] Jiang Tingda. Lignin[M]. Beijing: Chemical Industry Press, 2001.
[13] Lu Xujie, Liu Qiongyu, Liu Yanxiang, etc. Straw pulp lignin coagulant treats printing and dyeing wastewater Experimental research. Journal of Jianghan University: Natural Science Edition, 2010, 38 (3): 34-36.
[14] Srivastava S K, Singh A K, Sharma A. Studies on the uptake of lead and zinc by lignin obtained from black liquor-a paper industry waste material. Environmental Technology, 1994, 15: 353-361.
[15] Wang Kaifeng, Peng Na, Tu Changqing, et al. Typical agricultural waste to water The absorption of Cr (Ⅵ) Research on attached characteristics. Water Treatment Technology, 2010, (5): 58-62.
[16] Zhao Hui, Feng Lijun, Feng Mengsi, et al. Adsorption of heavy metal chromium-containing wastewater by modified peanut shells Attached research. Journal of Wuhan Textile University, 2011, (6): 44-47.
[17] An Wenjie, Xu Deping, Wang Haijing. Chemical preparation method of biodiesel. Grain and Fats, 2005, (7): 3-6.
[18] Wang Yongzhen, Gao Hui, Zhao Jiang, et al. Overview of comprehensive utilization technology of straw resources. Environmental Engineering, 2014, 32: 730-733.
[19] Zhang Yun, Zhang Meiyun, Li Jinbao, et al. Preparation technology of wheat straw microcrystalline cellulose. Paper Chemicals, 2011, 30 (4): 35-37.
[20] Zagustina NA , Rodionova NA , M estechkina NM , et al. Xylitol production by a culture of candida guilliermo ndii 2581. Appl Biochem Biotech , 2001, 37 (5): 489.
[21] Zhang Feiwei, Su Yanqiu, Huang Min, et al. Production of xylitol by fermentation of corn cob hydrolyzate Research. Journal of Sichuan University: Natural Science Edition, 2008, 45 (2): 451-454.
[22] Li Zhisong, Yi Weiguo. Research on the preparation of furfural from corn cob. Fine Chemicals Intermediate, 2010, 40 (4): 53-55.
[23] Wang Qingmei, Xiao Weihong, You Xiuli. Study on the purification of toxic metal ions by aromatic tannins. Jiangxi Chemical Industry, 2005, 3 (1): 106-108.
[24] Huang Hukuo, Li Fanxia, Gao Yuan, et al. Modification of larch bark to prepare biomass oil-absorbing material Research on materials. Modern Chemicals, 2011, 31 (s1): 275-278.
[25] Zhang Liping, Sun Chang, Jiang Mingkai. Study on purification of toxic metal ions by larch tannins. Forest Products Industry, 2004, 31 (2): 32-34.
[26] Lofrano G, Merig S, Zengin G E, et al. Chemical and biological treatment technologies for leather tannery chemicals and wastewaters: A review. Science of The Total Environment, 2013, 461 /462: 265-281.
[27] Hernandez B E, Taylor M M. Properties of biopolymers produced by transglutaminase treatment of whey protein isolate and gelatin.BioResource Technology, 2009, 100(14): 3638-3643.
[28] Wang Xuechuan, Zhang Sha, Zhou Liang, et al. Preparation and characterization of a cationic flocculant based on collagen modification. Functional Materials, 2011, 12 (42): 2221-2224.
[29] Wang X C, Hao X L, Qiang T T. Study on preparation, characteriza- tion and sizing performance of modified collagen surface sizing agent. Bio Resources, 2014, 9(1): 1255-1266.
[30] Qiang Xihuai, Sheng Zuhan, Zhang Hui, et al. Preparation of modified collagen scale inhibitor and phosphorus inhibition Calcium acid scale performance. Industrial Water Treatment, 2013, 33 (5): 44-46.