Review on Parthenium hysterphorus as a potential energy source

Renewable and Sustainable Energy Reviews

Volumn 20, Issue , 2013, Pages 420-429

  Swati, Ghosh ^a   Haldar, S ^b   Ganguly, A ^c   Chatterjee, P K ^c  

^a Institute of Engineering and Industrial Technology   (India)

^b NATIONAL INSTITUTE OF TECHNOLOGY   (India)

^c CSIR CENTRAL MECHANICAL ENGINEERING RESEARCH INSTITUTE   (India)

Author keywords

Bioconversion; Ethanol; Hemicellulose; Hydrolysis; Parthenium hysterophorus

Indexed keywords

ACID CONCENTRATIONS; ALKALI CONCENTRATIONS; ALTERNATIVE SOURCES OF ENERGY; ASTERACEAE; CHEAP SUBSTRATE; DILUTE SULFURIC ACID; EFFICIENT PRODUCTION; FUEL ETHANOL; GOVERNING EQUATIONS; HEMICELLULOSE; HIGHER YIELD; INTEGRATION TECHNIQUES; KINETIC MODELS; LABORATORY WORK; LIGNOCELLULOSIC MATERIAL; OPTIMIZED PROCESS; PARTHENIUM HYSTEROPHORUS; PENTAMERS; POTENTIAL RESOURCES; PRE-TREATMENT; PRETREATMENT PROCESS; REACTION MECHANISM; SYNTHETIC ORGANIC CHEMICALS; TROPICAL REGIONS;

AGRICULTURE; BIOCONVERSION; CELLULOSE; ETHANOL; HYDROLYSIS; OPTIMIZATION; ORGANIC CHEMICALS; SACCHARIFICATION; SUBSTRATES; SULFURIC ACID;

BIOETHANOL;

EID: 84872293478     PISSN: 13640321     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.rser.2012.12.011     Document Type: Review

References (68)

1. Lu Yulin, and S. Mosier Kinetic modelling analysis of maleic acid-catalyzed hemicellulose hydrolysis in corn stover Biotechnology and Bioengineering 101 2008 1170 1181
2. C. Pronyk, and G. Mazza Kinetic modeling of hemicellulose hydrolysis from triticale straw in a pressurized low polarity water flow-through reactor Industrial & Engineering Chemistry 49 2010 6367 6375
3. T. Marzialetti, M.B.V. Olarte, C. Sievers, T.J.C. Hoskins, P.K. Agrawal, and C.W. Jones Dilute acid hydrolysis of loblloly pine: a comprehensive approach Ind. Eng. Chem. Res. 47 2008 7131 7140
4. A.J. Micconnachie, L.W. Strathie, W. Mersie, L. Gebrehiwot, K. Zewdies, and A. Abdurehim Current and potential geographical distribution of the invasive plant Parthenium hysterophorus (Asteraceae) in eastern and southern Africa Weed Research 51 2010 71 84
5. Thorp JR. Weeds of National Significance. In: Committee CoAatNWSE, editor. Parthenium weed (Parthenium hysterophorus) strategic plan. Australia, Qld: Department of Natural Resources; 2000.
6. S. Ayele Impact of Parthenium (Parthenium hysterophorus L.) on the range ecosystem dynamics of the Jijiga Rangeland Ethiopia 2007 School of Graduate Studies, Haramaya University Haramaya
7. Mahadevappa M. Parthenium - a dreaded weed. International Parthenium Research News; 2008.
8. Evans HC, Seier M, Harvey J, Djeddour D, Aneja KR, Doraiswamy S, et al. Developing strategies for the control of Parthenium weed in India using fungal pathogens. CABI Bioscience, UK. In collaboration with: Kurukshetra University, India, Tamil Nadu Agricultural University, India, Project Directorate of Biological Control, India, National Research Centre for Weed Science (ICAR), India; 1998.
9. S. Patel Harmful and benificial aspects of Parthenium hysterophorus: an updat 3 Biotechnology 1 2011 1 9
10. P. Kishor, A.K. Ghosh, S. Singh, and B.R. Maurya Potential use of parthenium (Parthenium hysterophorus L.) in Agriculture Asian Journal of Agricultural Research 4 2010 220 225
11. R.S. Singh, V.K. Singh, A.K. Mishra, P.N. Tewari, U.N. Singh, and Y.C. Sharma Pathenium hysterophorus - a novel adsorbent to remove CR (VI) from aqueous solutions Journal of Applied Science in Environmental Sanitation 3 2008 177 189
12. B.C. Saha Hemicellulose bioconversion Industrial Microbiolology and Biotechnology 30 2003 279 291 (Pubitemid 36873792)
13. E. SjoÈstroÈm Wood chemistry: fundamentals and applications 2 ed. 1993 Gulf Professional Publishing San Diego
14. E.H. Hermans Physics and chemistry of cellulose fibres 1949 Elsevier Publishing Company New York
15. M.C. Jarvis Structure and properties of pectin gels in plant cell walls Plant, Cell & Environment 7 1984 153 164
16. D. Fengel, G. Wegener, and d. Gruyter Wood: chemistry, ultrastructure, reactions Journal of Polymer Science: Polymer 23 1984 601 602
17. J.A. Howsmon, and W.A. Sisson High polymers, structure and properties of cellulose fibers. β-submicroscopic structure In: Cellulose and cellulose derivatives 1963 231 346
18. R.H. Atalla, and D.L. VanderHart Native cellulose: a composite of two distinct crystalline forms Chemical Science Division, Institute of Paper Chemistry 223 1984 283 285
19. H. Chanzy, K. Imada, A. Mollard, R. Vuong, and F. Barnoud Crystallographic aspects of sub-elementary cellulose fibrils occurring in the wall of rose cells cultured in vitro Photoplasma 100 1979 303 316
20. M. Wayman, and S.R. Parekh Biothechnology of biomass conversion 1990 Milton Keynes U.K
21. M.V. DS, S. Monteiro, and A. JRM Evaluation of pretreatment, size and molding pressure on flexural mechanical behavior of chopped bagasse-polyester composites Polymer Testing 23 2003 253 258
22. G. Iniguez-Covarrubias, S.E. Lange, and R.M. Rowell Utilization of byproducts from the tequila industry: part 1: agave bagasse as a raw material for animal feeding and fiberboard production Bioresource Technology 77 2001 25 32
23. S. Mani, L. Tabil, and S. Sokhansanj Grinding performance and physical properties of wheat and barley straws, corn stover and switchgrass Biomass and Bioenergy 27 2004 339 352 (Pubitemid 38893857)
24. G. Mtui, and Y. Nakamura Bioconversion of lignocellulosic waste from selected dumping sites in Dar es Salaam Tanzania Biodegradation 16 2005 493 499 (Pubitemid 40486366)
25. B. Qi, C. Aldrich, L. Lorenzen, and G. Wolfaardt Acidogenic fermentation of lignocellulosic substrate with activated sludge Chemical Engineering 192 2005 1221 1242 (Pubitemid 40900010)
26. A. Guerra, I. Filpponen, L. Lucia, C. Saquing, S. Baumberger, and D. Argyropoulos Toward a better understanding of the lignin isolation process from wood Journal of Agricultural and Food Chemistry 54 2006 5939 5947 (Pubitemid 44342225)
27. H. Inoue, S. Yano, T. Endo, T. Sakaki, and S. Sawayama Combining hot-compressed water and ball milling pretreatments to improve the efficiency of the enzymatic hydrolysis of eucalyptus Biotechnology for Biofuels 1 2008 1 9
28. B.P. Lavarack, G.J. Griffin, and D. Rodman The acid hydrolysis of sugarcane bagasse hemicellulose to produce xylose, arabinose, glucose and other products Biomass and Bioenergy 23 2002 367 380 (Pubitemid 35212063)
29. W.J. Frederick Jr., S.J. Lien, C.E. Courchene, N.A. DeMartini, A.J. Ragauskas, and K. Iisa Production of ethanol from carbohydrates from loblolly pine: a technical and economic assessment Bioresource Technology 99 2008 5051 5057
30. Badger PC. Ethanol from cellulose: a general review. Trends in New Crops and New Uses. 2002.
31. Q. Nguyen, M. Tucker, F. Keller, D. Beaty, K. Connors, and F. Eddy Dilute acid hydrolysis of softwoods Applied Biochemistry and Biotechnology 77 1999 133 142
32. Y. Sun, and J. Cheng Hydrolysis of lignocellulosic materials for ethanol production: a review Bioresource Technology 83 2002 1 11 (Pubitemid 34126398)
33. R.W. Thring, E. Chorent, and R. Overend Recovery of a solvolytic lignin: effects of spent liquor/acid volume ration, acid concentration and temperature Biomass 23 1990 289 305
34. N. Mosier, C. Wyman, B. Dale, R. Elander, Y.Y. Lee, and M. Holtzapple Features of promising technologies for pretreatment of lignocellulosic biomass Bioresource Technology 96 6 2005 673 686 (Pubitemid 39592889)
35. L. Rosgaard, S. Pedersen, and A.S. Meyer Comparison of different pretreatment strategies for enzymatic hydrolysis of wheat and barley straw Applied Biochemistry and Biotechnology 143 3 2007 284 296 (Pubitemid 350242515)
36. N. Abdi, F. Hamadache, and D. Belhocine Enzymatic saccharification of solid residue of olive mill in a batch reactor Biochemical Engineering Journal 6 177 2000 83
37. Carrillo F, Lis MJ, Colom X, et al. Effect of álcali pretreatment on cellulase hydrolyiss of wheat straw: kinetic study. Process Biochemistry. 2005;40:3360-64. (Pubitemid 41595265)
38. Pinto JH, Kamden DP. Comparison of pretreatment methods on the enzymatic saccharification of aspen wood. Applied Biochemistry and Biotechnology. 1996;61:289-97. (Pubitemid 126718548)
39. Silverstein RA, Chen Y, Sharma-Shivapp RR, et al. A comparision of chemical pretreatment methods for improving saccharification of cotton stalks. Bioresource Technology. 2007;98:3000-11. (Pubitemid 46603262)
40. Kim S, Holtzapple MT. Lime pretreatment and enzymatic hydrolysis of corn stover. Bioresource Technology. 2005;96:1994-2006. (Pubitemid 41174569)
41. V.S. Chang, M. Nagwani, and C.H. Kim Oxidative lime pretreatment of high-lignin biomass - poplar wood and newspaper Applied Biochemistry and Biotechnology 94 2001 1 28 (Pubitemid 32479167)
42. Kaar WE, Holtzapple MT. Using lime pretreatment to facilitate the enzymatic hydrolysis of corn stover. Biomass and Bioenergy. 2000;18:189-99. (Pubitemid 30194874)
43. Chang V, Holtzapple M. Fundamental factors affecting biomass enzymatic reactivity. Applied Biochemistry and Biotechnology 2000;84:5-37. (Pubitemid 30349447)
44. B.L. Foster, B.E. Dale, and J.B. Doran-Peterson Enzymatic hydrolysis of ammonia-treated sugar beet pulp Applied Biochemistry and Biotechnology 91 2001 269 282 (Pubitemid 32451709)
45. T.H. Kim, J.S. Kim, and C. Sunwoo Pretreatment of corn stover by aqueous ammonia Bioresource Technology 90 2003 39 47 (Pubitemid 36814047)
46. B.A. Prior, and D.F. Day Hydrolysis of ammonia-pretreated sugar cane bagasse with cellulase, beta-glucosidase, and hemicellulase preparations Applied Biochemistry and Biotechnology 146 2008 151 164
47. D. Mishima, M. Tateda, and M. Ike Comparative study on chemicals pretreatments to accelerate enzymatic hydrolysis of aquatic macrophyte biomass used in water purification processes Bioresource Technology 97 2006 2166 2172 (Pubitemid 43949609)
48. B.C. Saha, and M.A. Cotta Ethanol production from alkaline peroxide pretreated enzymatically accharified wheat straw Biotechnology Progress 22 2006 449 453
49. B.C. Saha, and M.A. Cotta Enzymatic saccharification and fermentation of alkaline peroxide retreated rice hulls to ethanol Enzyme and Microbial Technology 41 2007 528 532 (Pubitemid 47031347)
50. Fan LT, Gharpuray MM, Lee YH. Cellulose hydrolysis. In: Biotechnology monographs. Berlin: Springer; 1987. p. 57.
51. Playne MJ. Increased digestibility of bagasse by pretreatment with alkalis and steam explosion. Biotechnology and Bioengineering. 1984;26:426-33. (Pubitemid 14590038)
52. A.A.S. Sinegani, G. Emtiazi, S. Hajrasuliha, and H. Shariatmadari Biodegradation of some agricultural residues by fungi in agitated submerged cultures African Journal of Biotechnology 10 2005 1058 1061 (Pubitemid 41500674)
53. G. Emtiazi, N. Naghavi, and A. Bordbar Biodegradation of lignocellulosic waste by Aspergillus terreus Biodegradation 12 2001 257 261
54. J. Pérez, J. Muñoz-Dorado, l de, T. Rubia, and J. Martínez Biodegradation and biological treatments of cellulose, hemicellulose and lignin: an overview International Microbiology 5 2002 53 63 (Pubitemid 44140571)
55. F.A. Keller, J.E. Hamilton, and Q.A. Nguyen Microbial pretreatment of biomass: potential for reducing severity of thermochemical biomass pretreatment Journal of Applied Biochemistry and Biotechnology 105 2003 27 41
56. E.G. Shide, P.A. Wuyep, and A. Nok Studies on the degradation of wood sawdust by Lentinus squarrosulus (Mont.) Singer Journal of Biotechnology 3 2004 395 398 (Pubitemid 40706065)
57. B.K. Taseli Fungal treatment of hemp-based pulp and paper mill wastes African Journal of Biotechnology 7 2008 286 289 (Pubitemid 351239903)
58. M. Sedlak, and N.W.Y. Ho Production of ethanol from cellulosic biomass hydrolysates using genetically engineered Saccharomyces yeast capable of cofermenting glucose and xylose Journal of Applied Biochemistry and Biotechnology 114 2004 403 416 (Pubitemid 40068731)
59. D.A. Van MAJA, E. Bellissimi, J. van den Brink, M. Kuyper, and M.A.H. Luttik Alcoholic fermentation of carbon sources in biomass hydrolysates by Saccharomyces cerevisiae: current status Antonie van Leeuwenhoek 90 2006 391 418 (Pubitemid 44688265)
60. R.D. Haan, S.H. Rose, L.R. Lynd, and W.H.Z. van Hydrolysis and fermentation of amorphous cellulose by recombinant Saccharomyces cerevisiae Metabolic Engineering 9 2007 87 94 (Pubitemid 44960875)
61. B.C.H. Chu, and H. Lee Genetic improvement of Saccharomyces cerevisiae for xylose fermentation Biotechnology Advances 25 2007 425 441 (Pubitemid 47043375)
62. H.W. Wisselink, M.J. Toirkens, Berriel MDRF, A.A. Winkler, J.P. Dijken, and J.T. Pronk Engineering of Saccharomyces cerevisiae for efficient anaerobic alcoholic fermentation of l-arabinose Applied and Environmental Microbiology 15 2007 4881 4891 (Pubitemid 47237237)
63. FJ Saeman Kinetics of wood saccharification: hydrolysis of cellulose and decomposition of sugar in dilute acid at high temperature 37 1 1945 43 52
64. R.P. Overend, and E. Chornet Fractionisation of lignocellulosics by steamaqueous prereatment Philosophical Transactions of the Royal Society of London A321 1987 523 536
65. H.L. Chum, D.K. Johnson, and S.K. Black Overend RP: pretreatment-catalyst effects and the combined severity parameter. Applied Biochemistry and Biotechnology 24/25 1990 1 14
66. T. Lloyd, E.W. Charles, and E. Wyman Application of a depolymerization model for predicting thermochemical hydrolysis of hemicellulose Applied Biochemistry and Biotechnology 2003 105 108
67. Roy Chowdhury P. Lignocellulose to ethanol. In: Symposium on harnessing new devices for power generation. C.M.E.R.I.; 2010.
68. M. Ballesteros, J.M. Oliva, M.J. Negro, P. Manzanares, and I. Ballesteros Ethanol from lignocellulosic materials by a simultaneous saccharification and fermentation process (SFS) with Kluyveromyces marxianus CECT 10875 Process Biochemistry 39 2004 1843 1848 (Pubitemid 39123572)