Pyrolysis and catalytic upgrading of Citrus unshiu peel

김영민 2015년

활용도
공유도
영향력

논문상세정보

- 저자 김영민
- 형태사항 ⅴ, 106 p.: 26 cm
- 일반주기 지도교수: 박영권
- 학위논문사항 2015. 2, 에너지환경시스템공학과, 서울시립대학교 일반대학원, Thesis(doctoral)-
- 발행지 서울
- 언어 eng
- 출판년 2015
- 발행사항 서울시립대학교 일반대학원
- 주제어 Catalytic upgrading Citrus unshiu peel EGA-MS HBETA HZSM-5 Multi shot-GC/MS Pyrolysis Tandem μ-Reactor-GC/MS TGA
- 참고문헌( 98)
유사주제 논문( 162)

인용/피인용

Pyrolysis and catalytic upgrading of Citrus unshi ...

' Pyrolysis and catalytic upgrading of Citrus unshiu peel' 의 주제별 논문영향력

논문영향력 요약
동일주제 총논문수	논문피인용 총횟수	주제별 논문영향력의 평균
주제	catalytic upgrading citrus unshiu peel ega-ms hbeta hzsm-5 multi shot-gc/ms pyrolysis tandem μ-reactor-gc/ms tga
171	0	0.0%

논문영향력
주제		주제별 논문수	주제별 논문영향력
주제어	catalytic upgrading	2	0.0%
	citrus unshiu peel	7	0.0%
	ega-ms	1	0.0%
	hbeta	1	0.0%
	hzsm-5	16	0.0%
	multi shot-gc/ms	1	0.0%
	pyrolysis	85	0.0%
	tandem μ-reactor-gc/ms	1	0.0%
	tga	57	0.0%
계		171	0.0%
* 다른 주제어 보유 논문에서 피인용된 횟수

' Pyrolysis and catalytic upgrading of Citrus unshiu peel' 의 참고문헌

http://upload.wikimedia.org/wikipedia/commons/a/a5/Plant_cell_showing_primary_and _secondary_wall_by_CarolineDahl.jpg
http://goldbook.iupac.org/C00876.html
http://en.wikipedia.org/wiki/ZSM-5
http://en.wikipedia.org/wiki/Pectin
http://en.wikipedia.org/wiki/Limonene
http://en.wikipedia.org/wiki/Hemicellulose
Z. Ma, J.A. van Bokhoven, Deactivation and Regeneration of H-USY Zeolite during Lignin Catalytic Fast Pyrolysis, ChemCatChem, Vol. 4 (2012) 2036-2044.
Z. Ma, E. Troussard, J.A. van Bokhoven, Controlling the selectivity to chemicals from lignin via catalytic fast pyrolysis, Applied Catalysis A: General, Vol. 423-424 (2012) 130-136.
Y.T. Cheng, G.W. Huber, Chemistry of Furan Conversion into Aromatics and Olefins over HZSM-5: A Model Biomass Conversion Reaction, ACS Catalysis, Vol. 1 (2011) 611-628.
Y.M. Wu, Z.L. Zhao, H.B. Li, F. He, Low temperature pyrolysis characteristics of major components of biomass, Journal of Fuel Chemistry and Technology, Vol. 37 (2009) 427- 432.
Y.M. Kim, S. Kim, J.Y Lee, and Y.K. Park, Pyrolysis Reaction Pathways of Waste Epoxy-Printed Circuit Board, Environmental Engineering Science, Vol. 30 (2013) 706- 712
Y.M. Kim, H.W. Lee HY, S.H Lee, S.S. Kim, S.H. Park, J.K. Jeon, S. Kim, Y.K. Park, Pyrolysis properties and kinetics of mandarin peel, Korean Journal of Chemical Engineering, Vol. 28 (2011) 2012-2016
Y.K. Park, Y.H. Kang, H.S. Cha, H.M. Kim, H.M. Seng, Properties of pectin extracted by-product in citrus processing. Journal of Korean Society of Food Science and Nutrition, Vol. 25 (1996) 659-664.
Y.J. Bae, C. Ryu, J.K. Jeon, J. Park, D.J. Suh, Y.W. Suh, D. Chang, Y.K. Park, The characteristics of bio-oil produced from the pyrolysis of three marine Macroalgae, Bioresource Technology, Vol. 102 (2011) 3512-3520.
U.V. Mentzel, M.S. Holm, Utilization of biomass: Conversion of model compounds to hydrocarbons over zeolite H-ZSM-5, Applied Catalysis A: General, Vol. 396 (2011) 59- 67.
T.R. Carlson, Y.T. Cheng, J. Jae, G.W. Huber, Production of green aromatics and olefins by catalytic fast pyrolysis of wood sawdust, Energy and Environmental Science, Vol. 4 (2011) 145-161.
T. Qu, W. Guo, L. Shen, J. Xiao, K. Zhao, Experimental study of biomass pyrolysis based on three major components: hemicellulose, cellulose, and lignin, Industrial &Engineering Chemistry Research, Vol. 50 (2012) 10424-10433.
T. Ozawa, A new method of analyzing thermogravimetric data, Bulletin of the chemical society of Japan, Vol. 38 (1965) 1881-1886.
T. McGrath, R. Sharma, M. Hajaligol, An experimental investigation into the formation of polycyclic-aromatic hydrocarbons (PAH) from pyrolysis of biomass materials, Fuel, Vol. 80 (2001) 1787-1797.
T. Hosoya, H. Kawamoto, S. Saka, Solid/liquid- and vapor-phase interactions between cellulose- and lignin-derived pyrolysis products, Journal of Analytical and Applied Pyrolysis, Vol. 85 (2009) 237-246.
T. Hosoya, H. Kawamoto, S. Saka, Pyrolysis behavior of wood and its constituent polymer at gasification temperature, Journal of Analytical and Applied Pyrolysis, Vol. 78 (2007) 328-336.
T. Fisher, M. Hajaligol, B. Waymack, D. Kellogg, Pyrolysis behavior and kinetics of biomass derived materials, Journal of Analytical and Applied Pyrolysis, Vol. 62 (2002) 331-349.
T. Faravelli, A. Frassoldati, G. Migliavacca, E. Ranzi, Detailed kinetic modeling of the thermal degradation of lignins, Biomass and Bioenergy, Vol. 34 (2010) 290-301.
S.N. Naik, V.V. Goud, P.K. Rout, A.K. Dalai, Production of first and second generation biofuels: A comprehensive review, Renewable and Sustainable Energy Reviews, Vol. 14 (2010) 578-597.
S.J. Choi, S.H. Park, J.K. Jeon, I.G. Lee, C. Ryu, D.J. Suh, Y.K. Park, Catalytic conversion of particle board over microporous catalysts, Renewable Energy, Vol. 54 (2013) 105-110.
S.D. Stefanidis, K.G. Kalogiannis, E.F. Illiopoulou, A.A. Lappas, P.A. Pilavachi, In-situ upgrading of biomass pyrolysis vapors: catalyst screening on a fixed bed reactor, Bioresource Technology, Vol. 102 (2011) 8261-8267.
S. Wang, B. Ru, H. Lin, Z. Luo, Degradation mechanism of monosaccharides and xylan under pyrolytic conditions with theoretic modeling on the energy profiles, Bioresource Technology, Vol. 143 (2013) 378-383.
S. Tsuge, H. Ontani, C. Watanabe, Pyrolysis-GC/MS Data Book of Synthetic Polymers, first ed., Elsevier, Oxford, UK, 2011
S. TAN, Z. Zhang, J. Sun, Q. Wang, Recent progress of catalytic pyrolysis of biomass by HZSM-5, Chinese Journal of Catalysis, Vol. 34 (2013) 641-650.
S. Kelkar, C.M. Saffron, Z. Li, S.S. Kim, T.J. Pinnavaia, D.J. Miller, R. Kriegel, Aromatics from biomass pyrolysis vapour using a bifunctionalmesoporous catalyst, Green Chemistry, Vol. 16 (2014) 803-812
S. J. Yang, Jeju Special Self-Governing Province Research Paper (2007).
S. Dutta, S. Pal, Promises in direct conversion of cellulose and lignocellulosic biomass to chemicals and fuels: Combined solvent-naanocatalysis approach for biorefinary, Biomass and Bioenergy, Vol. 62 (2014) 182-197.
S. Anis, Z.A. Zainal, Tar reduction in biomass producer gas via mechanical, catalytic and thermal methods: A review, Renewable and Sustainable Energy Reviews, Vol. 15 (2011) 2355-2377.
R.Z.A. Kumar P, A. Bhaskar, Determination of bioactive components from the ethanolic Peel extract of Citrus reticulata by Gas chromatography-Mass Spectrometry, International Journal of Drug Development and Research, Vol. 4 (2012) 166-174.
R.K. Sharma, J.B. Wooten, V.L. Baliga, M.R. Hajaligol, Characterization of chars from biomass-derived materials: pectin chars. Fuel, Vol. 80 (2001) 1825-1836.
R. Ryoo, J.M. Kim, Structural Order in MCM-41 controlled by Shifting Silicate Polymerization Equilibrium, Journal of the Chemical Society, Chemical Communications, (1995) 711-712.
R. Miranda, D. Bustos-Martinez, C.S. Blanco, M.H.G. Villarreal, M.E.R. Cantu, Pyrolysis of sweet orange (Citrus sinensis) dry peel. Journal of Analytical and Applied Pyrolysis, Vol. 86 (2009) 245-251.
Q. Liu, S. Wang, Y. Zheng, Z. Luo, K. Cen, Mechanism study of wood lignin pyrolysis by using TG-FTIR analysis, Journal of Analytical and Applied Pyrolysis, Vol. 82 (2008) 170-177.
P.T. Williams, N. Nugranad, Comparison of products from the pyrolysis and catalytic pyrolysis of rice husks, Energy, Vol. 25 (2000) 493-513.
P.R. Patwardhan, R.C. Brown, B.H. Shanks, Product distribution from the fast pyrolysis of hemicellulose. ChemSusChem, Vol.4 (2011) 636-643.
P.R. Patwardhan, D.L. Dalluge, B.H. Shanks, R.C. Brown, Distinguishing primary and secondary reactions of cellulose pyrolysis, Bioresource Technology, Vol. 102 (2011) 5265-5269.
P.A. Horne, N. Nugranad, P.T. Williams, Catalytic coprocessing of biomass-derived pyrolysis vapours and methanol, Journal of Analytical and Applied Pyrolysis, Vol. 34 (1995) 87-108.
P. Pan, C. Hu, W. Yang, Y. Li, L. Dong, L. Zhu, D. Tong, R. Qing, Y. Fan, The direct pyrolysis and catalytic pyrolysis Nannochloropsis sp. Residue for renewable bio-oils, Bioresource Technology, Vol. 101 (2010) 4593-4599.
O Theander, Cellulose, hemicellulose, extractives, fundamentals of thermochemical biomass conversion. Part , R.P. overland, Limine TA, Mudge LK, 35, Elsevier Applied Science Publishers, London and New York (1985)
N. Abdullah, H. Gerhauser, F. Sulaiman, Fast pyrolysis of empty fruit bunches, Fuel, Vol. 89 (2010) 2166-2169.
M.P. Pandey, C. Kim, Lignin Depolymerization and Conversion: A Review of Thermochemical Methods, Chemical Engineering and Technology, Vol. 34 (2011) 29-41.
M.J. Jeon, J.K. Jeon, D.J. Suh, S.H. Park, Y.J. Sa, S.H. Joo, Y.K. Park, Catalytic pyrolysis of biomass components over mesoporous catalysts using Py-GC/MS, Catalysis Today, Vol. 204 (2013) 170-178.
M.A. Martin, First generation biofuels compete, New Biotechnology, Vol. 27 (2010) 596-608.
M. Materazzi, A. Gentili, R. Curini, Application of evolved gas analysis. Part 2: EGA by mass spectrometry, Talanta, Vol. 69 (2006) 781-794.
M. Boluda-Aguilar, L. Garcia-Vidal, F.d.P. Gonzalez-Castaneda, A. Lopez-Gomez, Mandarin peel wastes pretreatment with steam explosion for bioethanol production, Bioresource Technology, Vol. 101 (2010) 3506-3513.
M. Boluda-Aguilar, L. Garcia-Vidal, F.P. Gonzalez-Castaneda, A. Lopez-Gomez, Mandarin peel wastes pretreatment with steam explosion for bioethanol production, Bioresource Technology, Vol. 101 (2010) 3506-3513.
L. Baxter, Biomass-coal co-combustion: opportunity for affordable renewable energy, Fuel, Vol. 84(2005) 1295-1302.
L. Aguiar, F. Marquez-Montesinos, A. Gonzalo, J.L. Sanchez, J. Arauzo, Influence of temperature and particle size on the fixed bed pyrolysis of orange peel residues. Journal of Analytical and Applied Pyrolysis, Vol. 83 (2008) 124-130.
K. Wang, P.A. Johnson, R.C. Brown, Comparison of in-situ and ex-situ catalytic pyrolysis in a micro-reactor system, Bioresource Technology, Vol. 173 (2014) 124-131
K. Wang, K.H. Kim, R.C. Brown, Catalytic pyrolysis of individual components of lignocellulosic biomass, Green Chemistry, Vol. 16 (2014) 727-735.
J. Jae, G.A. Tompsett, A.J. Foster, K.D. Hammond, S.M. Auerbach, R.F. Lobo, G.W. Huber, Investigation into the shape selectivity of zeolite catalysts for biomass conversion, Journal of Catalysis, Vol. 279 (2011) 257-268.
I.S. Choi, J.H. Kim, S. G. Wi, K.H. Kim, H.J. Bae, Bioethanol production from mandarin (Citrus unshiu) peel waste using popping pretreatment, Applied Energy, Vol. 102 (2013) 204-210.
H.W. Lee, S.J. Choi, S.H. Park, J.K. Jeon, S.C. Jung, S.H. Joo, Y.K. Park, Catalytic conversion of Laminaria japonica over microporous zeolites, Energy, Vol. 66 (2014) 2-6.
H.N. Rabetafika, B. Bchir, C. Blecker, M. Paquot, B. Wathelet, Comparative study of alkaline extraction process of hemicelluloses from pear pomace, Biomass and Bioenergy, Vol. 61 (2014) 254-264.
H.L. Friedman, Kinetics of thermal degradation of char-forming plastics from thermogravimetry. Application to phenolic plastic, Journal of Polymer Science Part C: Polymer Symposia, Vol. 6 (1964) 183-195.
H.J. Park, J.I. Dong, J.K. Jeon, Y.K. Park, K.S. Yoo, S.S. Kim, J. Kim, S. Kim, Effect of the operating parameters on the production of bio-oil in the fast pyrolysis of Japanese larch, Chemical Engineering Journal, Vol. 143 (2008) 124-132.
H.J. Park, H.S. Heo, J.K, Jeon, J. Kim, R. Ryoo, K.E. Jeong, Y.K. Park, Highly valuable chemicals production from catalytic upgrading of radiate pine sawdust-derived pyrolytic vapors over mesoporous MFI zeolites, Applied Catalysis B: Environmental, Vol. 95 (2010) 365-373.
H.J. Park, Conversion of Woody Biomass into Useful Energy Carriers via Catalytic Upgrading, Ph. D. Dissertation, University of Seoul (2009).
H.E. Kissinger, Reaction kinetics in differential thermal analysis, Analytical chemistry, Vo. 29 (1957), 1702
H.B. Goyal, D. Seal, R.C. Sazena, Bio-fuels from thermochemical conversion of renewable resources: A review, Renewable Sustainable Energy Reveiws, Vol. 12 (2008) 504-517.
H. Zhang, Y.T. Cheng, T.P. Vispute, R. Xiao, G.W. Huber, Catalytic conversion of biomass-derived feedstocks into olefins and aromatics with ZSM-5: the hydrogen to carbon effective ratio, Energy and Environmental Science, Vol. 4 (2011) 2297-2307.
H. Yang, R. Yan, H. Chen, D.H. Lee, C. Zheng, Characteristics of hemicellulose, cellulose and lignin pyrolysis, Fuel, Vol. 86 (2007) 1781-1788.
H. Yang, R. Yan, H. Chen, C. Zheng, D.H. Lee, D.T. Liang, In-depth investigation of biomass pyrolysis based on three major components: hemicellulose, cellulose, and lignin, Energy Fuel, Vol. 20 (2006) 388-393.
Faostat (2012) Faostat.fao.org. Retrieved 2014-10-1
F.X. Collard, J. Blin, A. Bensakhria, J. Valette, Influence of impregnated metal on the pyrolysis conversion of biomass constituents, Journal of Analytical and Applied Pyrolysis, Vol. 95 (2012) 213-226.
F.X. Collard, J. Biln, A review on the pyrolysis of biomass constituents: Mechanisms and composition of the products obtained from the conversion of cellulose, hemicellulose and lignin, Renewable and Sustainable Energy reviews, Vol. 38 (2014) 594-608.
F.R. Marin, C. Soler-Rivas, O. Benavente-Garcia, J. Castillo, J.A. Perez-Alvarez, By- products from different citrus processes as a source of customized functional fibres, Food Chemistry, Vol. 100 (2007) 736-741.
F. Urban, T. Mitchell, Climate change, disasters and electricity generation, Strengthening Climate Resilience Discussion Paper No. 8, Brighton: IDS (2011).
D.K. Shen, S. Gu, The mechanism and thermal decomposition of cellulose and its main products, Bioresource Technology, Vol. 100 (2009) 6496-6504.
D.K Shen, S. Gu, K.H. Luo, S.R. Wang, M.X. Fang, The pyrolytic degradation of wood-derived lignin from pulping process, Bioresource Technology, Vol. 101 (2010) 6136-6146.
D.J. Nowakowski, A.V. Bridgwater, D.C. Elliott, D. Meier, P. Wild, Lignin fast pyrolysis: results from an international collaboration, Journal of Analytical and Applied Pyrolysis, Vol. 88 (2010) 53-72.
D.A. Lopez-Velazquez, V. Santes, J. Balmaseda, E. Torres-Garcia, Pyrolysis of orange waste: A thermo-kinetic study, Journal of Analytical and Applied Pyrolysis, Vol. 99 (2013) 170-177.
D. Vamvuka, E. Kakaras, E. Kastanaki, P. Grammelis, Pyrolysis characteristics and kinetics of biomass residuals mixtures with lignite, Fuel, Vol. 82 (2003) 1949-1960.
D. Mohan, C.U. Pittman Jr, P.H. Steele, Pyrolysis of Wood/Biomass for Bio-oil: A critical Review, Energy Fuels, Vol. 20 (2006) 848-889.
D. Li, Y. Nakagawa, K. Tomishige, Development of Ni-Based Catalyst for Steam of Tar Derived from Biomass Pyrolysis, Chinese Journal of Catalysis, Vol. 33 (2012) 583-594.
D. Gullu, A. Demirbs, Biomass to methanol via pyrolysis process, Energy Conversion and Management, Vol. 42 (2001) 1349-1356.
D. Gullu, A. Demirbas, Biomass to methanol via pyrolysis process, Energy Conversion and Management, Vol. 42 (2001) 1349-1356.
C.H. Ko, S.H. Park, J.K. Jeon, D.J. Suh, K.E. Jeong, Y.K. Park, Upgrading of biofuel by the catalytic deoxygenation of biomass, Korean Journal of Chemical Engineering, Vol. 29 (2012) 1657-1665.
C.D. Blasi, Modeling chemical and physical processes of wood and biomass pyrolysis, Progress in Energy and Combustion Science, Vol. 34 (2008) 47-90.
C.B. Field, M.J. Behrenfeld, J.T. Randerson, P. Falkowski, Primary Production of the Biosphere: Integrating Terrestrial and Oceanic Components, Science, Vol. 281 (1998) 237-240.
C. Watanabe, T. Ramus, R. Meijboom, B. Freeman, A new technique for the rapid characterization of catalysts: Tandem micro-reactor-gas chromatography/mass spectrometry, Environmental Progress & Sustainable Energy, Vol. 33 (3) (2014) 688- 692 (2014).
C. Quan, A. Li, N. Gao, Thermogravimetric analysis and kinetic study on large particles of printed circuit board wastes, Waste Management, Vol. 29 (2009) 2353-2360.
B.S. Kang, S.G. Kim, J.S. Kim, Thermal degradation of poly(methyl methacrylate) polymers: Kinetics and recovery of monomers using a fluidized bed reactor, Journal of Analytical and Applied Pyrolysis, Vol. 81 (2008) 7-13
B.B. Uzun, N. Sarioglu, Rapid and catalytic pyrolysis of corn stalks, Fuel Processing Technology, Vol. 90 (2009) 705-716.
B.B. Buchanan, W. Gruissem, R.L. Jones, Biochemistry and Molecular Biology of Plants, the American Society of Plant Biologist (2000).
B. Valle, P. Castano, M. Olazar, J. Bilbao, A.G. Gayubo, Deactivating species in the transformation of crude bio-oil with methanol into hydrocarbons on a HZSM-5 catalyst, Journal of Catalysis, Vol. 285 (2012) 304-314.
B. Rivas, A. Torrado, P. Torre, A. Converti, J.M. Dominguez, Submerged Citric Acid Fermentation on Orange Peel Autohydrolysate, Journal of Agricultural and Food Chemistry, Vol. 56 (2008) 2380-2387.
B. Girisuta, K.G. Kalogiannis, K. Dussan, J.J. Leahy, M.H.B. Hayes, S.D. Stefanidis, C.M. Michailof, A.A. Lappas, An integrated process for the production of platform chemicals and diesel miscible fuels by acid-catalyzed hydrolysis and downstream upgrading of the acid hydrolysis residues with thermal and catalytic pyrolysis, Bioresource Technology, Vol. 126 (2012) 92-100.
B. Chen, Z. Chen, Sorption of naphthalene and 1-naphthol by biochars of orange peels with different pyrolytic temperatures, Chemosphere, Vol. 76 (2009) 127-133.
A.V. Bridgwater, Renewable fuels and chemicals by thermal processing of biomass, Chemical Engineering Journal, Vol. 91 (2003) 87-102.
A.J. Foster, J. Jae, Y.T. Cheng, G.W. Huber, R.F. Lobo, Optimizing the aromatic yield and distribution from catalytic fast pyrolysis of biomass over ZSM-5, Applied Catalysis A: General, Vol. 423-424 (2012) 154-161.
A. Garcia-Maraver, D. Salvachua, M.J. Martinez, L.F. Diaz, M. Zamorano, Analysis of the relation between cellulose, hemicellulose and lignin content and the thermal behavior of residual biomass from olive trees, Waste Manage, Vol. 33 (2013) 2245- 2249.
A. Aho, N. Kumar, K. Eranen, T. Salmi, M. Hupa, D.Y. Murzin, Catalytic pyrolysis of woody biomass in a fluidized bed reactor: Influence of the zeolite structure, Fuel, Vol. 87 (2008) 2493-2501.

Pyrolysis and catalytic upgrading of Citrus unshiu peel

유사주제 논문( 162)

' Pyrolysis and catalytic upgrading of Citrus unshiu peel' 의 주제별 논문영향력

주제별 논문영향력

' Pyrolysis and catalytic upgrading of Citrus unshiu peel' 의 참고문헌

' Pyrolysis and catalytic upgrading of Citrus unshiu peel' 의 유사주제( ) 논문