Abstract
Oil and gas are raw materials—the availability of which is prognosticated to run short in the near future. The peak oil discussion is an example generally perceived as proof of this development to come.
Keywords
- Direct Methanol Fuel Cells (DMFC)
- Tert-amyl Methyl Ether (TAME)
- Fuel Cell
- DMFC System
- Methanol Steam Reforming
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.
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K.S. Deffeyes, Hubbert’s Peak: The Impending World Oil Shortage (Princeton University Press, Princeton, 2011)
M.K. Hubbert, Drill. Prod. Prac. 7–25 (1956)
R.W. Bentley, Energ. Policy 30, 189–205 (2002)
S. Sorrell, J. Speirs, R. Bentley, A. Brandt, R. Miller, Energ. Policy 38, 5290–5295 (2010)
D. Zhu, S. Tao, R. Wang, H. Shen, Y. Huang, G. Shen, B. Wang, W. Li, Y. Zhang, H. Chen, Y. Chen, J. Liu, B. Li, X. Wang, W. Liu, Appl. Energ. 106, 17–24 (2013)
New York Times, 13.11.2012
R. Bacon, S. Tordo, Crude Oil Price Differentials and Differences in Oil Qualities: A Statistical Analysis (Energy and Water Department, Washington, D.C., 2005). Can be found under http://www.esmap.org/sites/esmap.org/files/08105.TechnicalPaper_CrudeOilPriceDifferentialsandDifferencesinOilQualitiesAStatisticalAnalysis.pdf
B. Höhlein, P. Biedermann, T. Grube, Methanol as an Energy Carrier, Schriften des Forschungszentrums Jülich- Reihe Energietechnik/Energy Technology (2006)
G.A. Olah, A. Goeppert, G.K.S. Prakash, Beyond Oil and Gas: The Methanol Economy (Wiley-VCH, Weinheim, 2006)
A. Kuhlmann, H. May, F.G. Pischinger, Methanol und Wasserstoff: Automobil-Kraftstoffe der Zukunft (Verlag TÜV, Rheinland, 1976)
A. Kowalewicz, M. Wojtyniak, Proc. Inst. Mech. Eng., Part D: J. Automobile Eng. 219, 103–125 (2005)
Methanol Institute, Methanol Gasoline Blends: Alternative Fuel For Today’s Automobiles and Cleaner ‘Burning Octane For Today’s Oil Refinery. Can be found under http://www.methanol.org/Energy/Transportation-Fuel/Fuel-Blending-Guidelines/Blenders-Product-Bulletin-(Final).aspx (2011)
L. Bromberg, W.K. Cheng, Methanol as an Alternative Transportation Fuel in the US: Options for Sustainable and/or Energy-Secure Transportation (2010), can be found under http://www.afdc.energy.gov/pdfs/mit_methanol_white_paper.pdf
Methanol Institute, Methanol Transportation Fuel (2011), can be found unter http://www.methanol.org/Energy/Transportation-Fuel.aspx
C. Duwig, P. Gabrielson, H. Nielsen, Haldor Topsøe A/S presentation at Marine Days, Gothenburg (2011)
P.L. Spath, D.C. Dayton, Preliminary Screening: Technical and Economic Assessment of Synthesis Gas to Fuels and Chemicals with Emphasis on the Potential for Biomass-Derived Syngas (2003), can be found under http://www.nrel.gov/docs/fy04osti/34929.pdf
A.B. Chemrec, Press release from 09.09.2010 (2010)
DIN EN 590, Kraftstoffe für Kraftfahrzeuge—Dieselkraftstoff—Anforderungen und Prüfverfahren (Beuth, 2011)
Statista GmbH, Global biofuel production from 2000 to 2011 (2013), can be found under http://www.statista.com/statistics/198866/global-biofuel-production–production-in-oil-equivalent-since-2000/
References to Section 6.2
F. Asinger, Methanol—Chemie- und Energierohstoff. Die Mobilisation der Kohle, 1. Aufl. (Springer, Heidelberg, 1986)
H.J. Arpe, Industrielle Organische Chemie: Bedeutende Vor- und Zwischenprodukte, 6. Aufl. (Wiley-VCH, Weinheim, 2007)
D. Steinborn, Grundlagen der metallorganischen Komplexkatalyse, 2. Aufl. (Vieweg + Teubner, Wiesbaden, 2009)
N. Rizkalla (Halcon International), DE 2610036, 1976
R.V. Porcelli, V.S. Bhise (Halcon International), DE 3024353, 1981
G. Luft, G. Ritter, M. Schrod, Chem. Ing. Tech. 54, 750–760 (1982)
C. Hewlett (Halcon International), DE 2441502, 1975
C. Elschenbroich, Organometallchemie, 6. Aufl. (Vieweg + Teubner, Wiesbaden, 2008)
D.L. King, J.A. Cusumano, R.L. Garten, Cat. Rev. Sci. Eng. 23, 233–263 (1981)
S. Rebsdat, D. Mayer, Ethylene glycol. In: Ullmann’sEncyclopedia of Industrial Chemistry, 7th edn. (Wiley-VCH, Weinheim, 2012), pp. 531–546
T. Ikarashi, Chem. Econ. Eng. Rev. 12, 31–34 (1980)
H.F. Willkie (US Industrial Alcohol Co.), US 1400195, 1921
Companie de Béthune, F.P. 673.051, 1929
Mitsubishi Gas Chemical Co., Japan. Pat. 15, 3068–766 (1978)
Mitsubishi Gas Chemical Co., Japan. Pat. 15, 3108–916 (1978)
Mitsubishi Gas Chemical Co., Japan. Pat. 46.821 (1978)
Mitsubishi Gas Chemical Co., GB 1546004, 1979
A. Aguilo, T. Horlenko, Hydrocarbon Process 142, 120–130 (1980)
M. Ioneoka (Mitsubishi Gas Chemical Co.), DE 2716842, 1977
S. Jali, H.B. Friedrich, G.R. Julius, J. Mol. Catal. A: Chem. 348, 63–69 (2011)
J.S. Lee, J.C. Kim, Y.G. Kim, Appl. Catal. 57, 1–30 (1990)
F. Mathé, Y. Castenet, A. Mortreux, F. Petit, Tetrahedron Lett. 32, 3989–3992 (1991)
Mitsubishi Gas Chemical Co., Japan. Pat. 30.253 (1973)
M. Fontaine, Y. Castanet, A. Mortreux, F. Petit, J. Catal. 167, 324–336 (1997)
G. Jenner, Appl. Catal. A: Gen. 121, 25–44 (1995)
K. Kondo, N. Sonoda, H. Sakurai, Tetrahedron Lett. 15, 803–804 (1974)
P. Pennequin, M. Fontaine, Y. Castanet, A. Mortreux, F. Petit, Appl. Catal. A: Gen. 135, 329–339 (1996)
S. Otsuka, A. Nakaruma, T. Yoshida, M. Namto, K. Atato, J. Am. Chem. Soc. 95, 3180–3188 (1973)
G. Jemier, E.M. Nahmed, S. Libs-Konrath, J. Mol. Catal. 64, 337–347 (1991)
V.V. Gercev, J.J. Markov-Zemljanski, J. Angew. Chem. (UdSSR) 43, 1633–1635 (1970)
Anonymous, Chem. Eng. News 48(28), 24 (1970)
A.H. Hanson (A.B. Perstorp), SE 331990, 1971
L.J. Kaplan, Chem. Eng. 71–73 (1982)
J. Menzel (Uhde GmbH), EP 2010056154, 2010
G. Wietzel, K. Eder, A. Scheuermann (BASF AG), DRP 867.849, 1953
M. Jahrsdorfer, G. Schwerte (BASF AG), DE 7414, 1941
K. Pieroh (BASF AG), DRP Anm. J. 69072 (1941)
M. Müller, U. Hübsch, Dimethyl ether, in Ullmann’sEncyclopedia of Industrial Chemistry, vol. 11, 7th edn. (Wiley-VCH, Weinheim, 2011), pp. 305–308
G. Reuss, W. Disteldorf, A. O. Gamer, A. Hilt, Formaldehyde. In: Ullmann’sEncyclopedia of Industrial Chemistry, 7th edn., 2012, Wiley-VCH, Weinheim, p. 735–768
http://www.icis.com/v2/chemicals/9076013/formaldehyde/uses.html, 2010
E. Jones, G.G. Fowlie, J. Appl. Chem. 3, 206–213 (1953)
V.N. Gavrilin, B.I. Popov, Kinet. Catal. (Engl. Transl.) 6, 799-803 (1965)
H. Schubert, U. Tegtmeyer, R. Schlögl, Catal. Lett. 28, 383–395 (1994)
H. Schubert, U. Tegtmeyer, D. Herein, X. Bao, Muhler M, R. Schlögl, Catal. Lett. 33, 305–319 (1995)
G.J. Millar, J.B. Metson, G.A. Bowmaker, R.P. Cooney, J. Chem. Soc., Faraday Trans. 91, 4149–4159 (1995)
H. Sperber, Titel. Chem. Ing. Tech. 41, 962–966 (1969)
H.B. Uhl, I.H. Cooper, Heyden Chem. Corp., US 2465498, 1949
G. Halbritter et al. (BASF AG), DE 2442231, 1978
A. Aicher, G. Lehmann, N. Petri, W. Pitteroff, G. Reuss, H. Schreiber, R. Sebastian (BASF AG), EP 0150436 (1985)
A. Aicher, H. Haas, H. Sperber, H. Diem, G. Matthias, G. Lehmann (BASF AG), DE 2322757 (1974)
A. Aicher, H. Haas, H. Diem, C. Dudeck, F. Brunnmüller, G. Lehmann (BASF AG), DE 2655321 (1978)
H. Diem, A. Aicher, H. Haas, C. Dudeck, F. Finkbeiner (BASF AG), DE 2444586 (1976)
Anonymous, Chem. Week, 105, 79 (1969)
D.G. Sleemann, Chem. Eng. N.Y., 75, 42–44 (1968)
M. Weimann, Chem. Eng. N.Y., 77, 102–104 (1970)
A. Chauvel, P. Courty, R. Maux, C. Petitpas, Hydrocarbon Process 135, 179–184 (1973)
J.H. Marten, M.T. Butler, Oil Gas J. 72, 71–72 (1974)
FR000001487093A (2013), download from: https://depatisnet.dpma.de/DepatisNet/depatisnet?action=pdf&docid=
W.A. Payne (Du Pont), US 2519788, 1950
E.S. Northeimer (Du Pont), US 3959383, 1976
G.L. Kiser, B.G. Hendricks (Du Pont), US 4 076 754, 1978
W.B. Meath (Allied Chemical and Dye Corp.), US 2462413, 1949
G.C. Bailey, A.E. Craver (Barrett Comp.), US 1383059, 1921
V.E. Meharg, H. Adkins (Bakelite Corp.), US 1913405, 1933
F. Traina (Montecatini), US 3198753, 1965
S.A. Bergstrand(Perstorp AB), GB 1 080 508, 1967
G.D. Kolovertnov, G.K. Boreskov, V.A. Dzisko, B.I. Popov,. D.V. Tarasova, G.C. Belugina, Kinet. Catal./Engl. (Transl.), 6, 950–954 (1965)
G.D. Kolovertnov, G.K. Boreskov, L.M. Kefeli, L.M. Plyasova, L.G. Karakchiev, V.N. Mastikin, V.I. Popov, V.A. Dzisko, V.D. Tarasova, Kinet. Catal./Engl. (Transl.), 7, 125–130 (1966)
T.S. Hodgins, F.J. Shelton (Reichhold Chemicals), US 2 973 326, 1961
J.J. Hukki, E.J. Honkanen (Laeaeketehdas Orion Oy), CH 392484, 1961
P. Jiru, B. Wichter1ova, J. Tichy, in Proceedings of 3rd International Congress Catalysis, Amsterdam, vol. 1, 1965, pp. 199–213
M. Dente, R. Poppi, I. Pasquon, Chim. Ind. (Milan) 46, 1326–1336 (1964)
M. Dente, I. Pasquon, Chim. Ind. (Milan) 47, 359–367 (1965)
M. Dente, A. Collina, Chim. Ind. (Milan) 47, 821–829 (1965)
W.F. Brondyke, J.A. Monier (Du Pont), US 2 436 287, 1948
W.F. Brondyke, J.A. Monier (Du Pont) GB 589 292, 1947
Anonymus, Chem. Eng. N.Y. 61, 109–110 (1954)
Anonymus, Chem. Process Eng. (London) 51, 100–111 (1970)
C.M. Sze (Lummus Comp.), US 3 277 179, 1966
A.W. Gessner (Lummus Comp.), US 3408309, 1968
G. Greco, U. Soldano, Chem. Ing. Tech. 31, 761–765 (1959)
W. Exner, Chem. Anlagen + Verfahren, pp. 87–92 (1973)
G. Sextro, Polyoxymethylenes, in Ullmann’sEncyclopedia of Industrial Chemistry, vol. 29, 7th edn. (Wiley-VCH, Weinheim, 2011), pp. 367–379
M. Heym, Angew. Makromol. Chem. 244, 67–92 (1997)
H. Staudinger, M. Lüthy, Helv. Chim. Acta 8, 41–64 (1925)
H. Staudinger, H. Johner, R. Signer, G. Mie, J. Hengstenberg, Z. Phys. Chem. 126, 425–448 (1927)
H. Staudinger, R. Signer, H. Johner, M. Lüthy, W. Kern, D. Rusidis, O. Schweitzer, Liebigs Ann. Chem. 474, 145–275 (1929)
H. Staudinger, R. Sieger, Z. Kristallogr, Mineralog. Petrogr. A 70, 193 (1929)
(Du Pont), FP 1082519, 1954
M.F. Bechtold, K. Square, R.N. Macdonald (Du Pont), BE 558693, 1957
R.N. Macdonald (Du Pont), DE 1037705, 1958
D.L. Funck, (Du Pont), DE 1057086, 1959
D.L. Funck, (Du Pont), DE 1090191, 1960
R.N. Macdonald, (DuPont), DE 1037705, 1958
W. Kern, H. Cherdron, V. Jaacks, Angew. Chem. 73, 177–186 (1961)
S. Nogare, J.O. Punderson, S.H.J. Jun, F.C. Starr, W. Jun, G.S. Stamatoff, (Du Pont), DE 1223551, 1966
H. Amann, E. Baeder, (Degussa), DE 2003270, 1971
J. Hagimory, E. Kitajima, (Tsukamoto Sogyo Co. Ltd.), DE 1964527, 1970
W. Thomson, F. Brown, B.K. William, J. Polly, W. George, (Celanese Corp.), DE 1420283, 1969
W. Kern, V. Jaacks, (Degussa), DE 1194145, 1965
V. Jaaks, W. Kern, Makromol. Chem. 83, 71–79 (1965)
M.A. Pacheco, C.L. Marshall, Energ. Fuels 11, 2–29 (1997)
D. Delledonne, F. Rivetti, U. Romano, Appl. Catal. A: Gen. 221, 241–251 (2001)
F. Rivetti, C.R. Acad. Sci. Paris, SerieIIc, Chem. 3, 497–503 (2000)
N. Keller, G. Rebmann, V. Keller, J. Mol. Catal. A: Chem. 317, 1–18 (2010)
H. Babab, A.G. Zeiler, Chem. Rev. 73, 75–91 (1973)
M. Matzner, R.P. Kurkjy, R.J. Cotter, Chem. Rev. 64, 645–656 (1964)
A. Shaikh, S. Sivaran, Chem. Rev. 96, 951–976 (1996)
J. Knifton, (Texaco Inc.), US 4661609, 1987
L. Cassar, Chim. Ind. Milan 72, 18–22 (1990)
U. Romano, R. Tesel, G. Cipriani, L. Micucci, (Anic S.p.a), US 4218391, 1980
U. Romano, F. Rivetti, (EnichemSintesi), EP 365083, 1988
H.-J. Buysch, Carbonic esters, in Ullmann’sEncyclopedia of Industrial Chemistry, vol. 7, 7th edn. (Wiley-VCH, Weinheim, 2011), pp. 45–71
F. Matsuda, K. Narita, H. Oikawa, Y. Okuda, T. Saito, Y. Takahashi, K. Ueno, K. Watanabe (Nippon Steel Corp.), EP 685453, 1995
M. Bertau, C. Pätzold, U. Singliar (TU Bergakademie Freiberg), DE 102007051072, 2007
K. Nagai, T. Ui, Sumitomo Kagaku (2), 1–12 (2004) (English translation)
Evonik Industries AG, Press release from 23.10.2009 (2009)
J. Burkhardt, in Symposium am 28 on Silicone Chemie und Technologie, April 1989 (Vulkan, Essen, 1989), pp. 23–27
H.-H. Moretto, M. Schulze, G. Wagner, Silicones, in Ullmann’s Encyclopedia of Industrial Chemistry, vol. 32, 7th edn. (Wiley-VCH, Weinheim, 2011), pp. 675–679
W. Kalchauer, B. Pachaly, Müller-Rochow synthesis: the direct process to methylchlorosilanes, in Ullmann’sEncyclopedia of Industrial Chemistry, vol. 32, 7th edn. (Wiley-VCH, Weinheim, 2011), pp. 2635–2641
H. Brauer, Handbuch des Umweltschutzes und der Umwelttechnik, vol. 2, Produktions- und produktintegrierter Umweltschutz, 1. Aufl. (Springer, Heidelberg, 1996), pp. 467–468
H. Gysin, E. Knuesli, (Geigy AG), CH 337019, 1959
W. Draber, K. Dichore, Naturwissenschaften 55, 446 (1968)
K. Westphal, W. Meiser, L. Fue, H. Hack, (Bayer AG), US 3671523, 1972
R. Schmidt, L. Eue, C. Metzger, K. Dickore, (Bayer AG), DE-OS 2407144, 1975
Degussa AG, Press release from 12.03.2003 (2003)
R. Dittmeyer, W. Keim, G. Kreysa, A. Oberholz (eds.) Winnacker-Küchler: Chemische Technik, vol. 5, 5th edn. (Wiley-VCH, Weinheim, 2006), p. 250
M. Fielding (Du Pont), US 3255075, 1966
K.-M. Roy, Thiols and organic sulfides, in Ullmann’sEncyclopedia of Industrial Chemistry, vol. 36, 7th edn. (Wiley-VCH, Weinheim, 2011), pp. 629–655
H.O. Folkins, E.L. Miller, Ind. Eng. Chem. Proc. Des. Dev. 1, 271–276 (1962)
B.J. Aungst, N.J. Rogers, Int. J. Pharm. 53, 227–235 (1989)
W. Qia, D. Dinga, R.J. Salvi, Hearing Res. 236, 52–60 (2008)
G. Da Violante, N. Zerrouk, I. Richard, G. Provot, J.C. Chaumeil, P. Arnaud, Biol. Pharm. Bull. 25, 1600–1603 (2002)
S.L. Moskowitz, Methanol, in Kirk-Othmer Concise Encyclopedia of Chemical Technology, vol. 2, 5th edn. (Wiley, New York, 2007), pp. 1006–1009
M. Liauw, T. Prinz, H.-M. Weber, A. Reitzmann, Aromatische Zwischenprodukte, in Winnacker-Küchler, Chemische Technik, eds. by R. Dittmeyer, W. Keim, G. Kreysa, A. Oberholz, vol. 5, 5th edn. (Wiley-VCH, Weinheim, 2005), pp. 374–375
T. Ren, M.K. Patel, K. Blok, Energy 33, 817–833 (2008)
Directive 2003/30/EG of the European Parliament and Council from 8 May 2003 for the promotion of biofuels or other renewable fuels in traffic (2003)
P. Fairly, Taking pulp to the pump, download from: http://www.technologyreview.com/news/411363/taking-pulp-to-the-pump/?a=f, 2008
F. Pontzen, W. Liebner, V. Gronemann, M. Rothaemel, B. Ahlers, Catal. Today 171, 242–250 (2011)
B. Ahlers, G. Birke, H. Kömpel, H. Bach, M. Rothaemel, W. Liebner, W. Boll, V. Gronemann, (Lurgi AG) WO2010/060566 A1, 2010
G. Pagani, (SnamProgetti), DE 2362944, 1974
GESTIS Data Base, Natriummethanolat
F.A. Carey, R.J. Sundberg, Organic Chemistry, 1. Aufl. (Wiley-VCH, Weinheim, 1995)
N. Wiberg, E. Wiberg, Lehrbuch der Anorganischen Chemie, 102. Aufl. (de Gruyter, Berlin, 2007)
P. Lamers, Market study biodiesel, Fuels of the Future, Berlin, 23.-24.01.2012 (2012)
S.W. Tse, US 1697 H 19971104
W. Shunkwok, US H001697, 1997
C.H. Hamann, P. Schmittinger, (Huels Chemische Werke AG), EP 0810193, 1997
H.-J. Sterzel, D. Schläfer, J. Guth, H. Friedrich, P. Zehner, (BASF AG), EP 1195369, 2002
A. Qwczarek (Inst. Tech. Elektronowej), PL 211292, 1979
R. Auschner, P. Schmittinger, S. Rudolf, (Dynamit Nobel AG), EP 0177768, 1986
J. Ruwwe, K.-M. Krüger, U. Knippenberg, V. Brehme, M. Neumann, (Evonik Degussa GmbH), EP 1997794, 2008
References to Section 6.3
K. Weidmann, Alternative Kraftstoffe für Dieselmotoren, Essen, 1985
H. Menrad, Wenpo Lee, W. Bernhardt, SAE-770790, 1977
B. Nierhauve, G. Seidel, H. Menrad, BMFT-Study Voraussetzung für die Einführung von Alkoholkraftstoffen (TÜV Rheinland, Köln, 1983)
H. Menrad, B. Nierhauve, SAE-831686, 1983
K. Weidmann, H.Menrad, SAE-841331, 1984
K. Weidmann, H. Menrad, MTZ 46, 373 (1985)
G. Decker, Personal communication (2012)
P. Kuirun, Z. Hua, Y. Yun et al., in IX International symposium on alcohol fuels, Firenze, 1991, p. 768
U. Hilger, G. Jain, F. Pischinger et al., in IX International symposium on alcohol fuels, Firenze, 1991, p. 479
K. Hikino, T. Suzuki, S. Uematsu, in IX International symposium on alcohol fuels, Firenze, 1991, p. 485
G. Decker, H. Heinrich, U. Kammann, in IX International symposium on alcohol fuels, Firenze, 1991, p. 501
F. Pischinger, E. Scheid, U. Hilger, G. Schmitz (FEV Motorentechnik GmbH & Co. KG), DE 3843243 C2, 1988
L. Brabetz, M. Siedentop, G. Schmitz, in IX International symposium on alcohol fuels, Firenze, 1991, p. 552
Siemens Automotive Company, Flexible Fuel Sensing Technology (2006)
J. van der Weide, H.J. Dekker, A. de Voogd, in IX International symposium on alcohol fuels, Firenze, 1991, p. 509
K. Kollmann, J. Abthoff, D. Hüttebräucker, IX International symposium on alcohol fuels, Firenze, p. 518
Y-G. Shin, S.–S. Hwang, H-S. Lee, in IX International symposium on alcohol fuels, Firenze, 1991, p. 526
T. Suga, S. Kitajima, Y. Hamazaki, in IX International symposium on alcohol fuels, Firenze, 1991, p. 532
H. Nohira, S. Kudo, Y Tsukasaki et al., in IX International symposium on alcohol fuels, Firenze, 1991, p. 538
M. Namba, T. Yokohama, K. Iida et al., in IX International symposium on alcohol fuels, Firenze, 1991, p. 546
Research and Markets, Impact of Alternative Fuels: Fuel Lines, Seals and Injectors, Dublin (2011)
H. Menrad, M. Haselhorst, W. Erwig SAE-821210, 1982
P. Dedl, P.Hofmann, B. Geringer et al., 13th Symposium on the working process of the internal combustion engine, Graz, 2011
F. Pischinger, P. Burghardt, Cornelis Havenith, SAE-830552, 1983
F. Pischinger, U. Hilger, G. Jain et al. Wiener, Konzept eines 1,9 l DI-Methanolmotors für den Einsatz im Pkw, 11. Int. Wiener Motorensympos., Düsseldorf, 1990
U. Hilger, G. Jain, E. Scheid, SAE-901521, 1990
H. Nakamura, M. Oshima, M. Kido, in IX international symposium on alcohol fuels, Firenze 1991, p. 623
L.-J. Wang, R.-Z. Song, H.-B. Zhou et al., in Proceedings of the Institution of Mechanical Engineering Part D 222, 2008, p. 619
D.H. Qi, S.Q. Liu, J.C. Liu, C.H. Zhang, in Proceedings of the Institution of Mechanical Engineering Part D 219, 2005, p. 405
Fluid, 40, p. 36 (2007)
F. Zhang, S. Shuai, J. Wang, Z. Wang, SAE-2009-01-1182, 2009
References to Section 6.3.1
K. D. Miller, 23rd Annual Dewitt Petrochemical Review, Houston (1998)
U. Peters et al., in B. Elvers (ed.) Handbook of Fuels (Wiley-VCH, 2008)
M. Winterberg, in Ullmann’s Encyclopedia (Wiley-VCH, 2010)
CMAI, World Butylenes Analysis (2010)
CMAI, World Methanol Analysis (2012)
Chem. Systems, Tertiary Amyl Methyl Ether (1994)
CEH, Gasoline Octane Improvers/Oxygenates (2009)
References to Section 6.4
IZA Structure Commission, Database of Zeolite Structures, can be found under http://www.iza-structure.org/databases/
C. Baerlocher, D.H. Olson, L.B. McCusker, Atlas of Zeolite Framework Types (Elsevier, Amsterdam, 2007)
A. Dyer, An introduction to zeolite molecular sieves (Wiley, Chichester, New York, 1988)
E. Wiberg, N. Wiberg, Lehrbuch der anorganischen Chemie (Walter de Gruyter, Berlin, 1995)
C.D. Chang, Catal. Revs 25, 1–118 (1983)
D.H. Everett, Pure Appl. Chem. 31, 577–638 (1972)
R. Lago, W. Haag, R. Mikovsky, D. Olson, S. Hellring, K. Schmitt, G. Kerr in Murakami (Hg.) 1986—New developments in zeolite science
T. Mole in Studies in Surface Science and Catalysis, eds. by D.M. Bibby, C.D. Chang, R.F. Howe, S. Yurchak, vol 36 (Elsevier, Amsterdam, 1988)
K. Segawa, M. Sakaguchi, Y. Kurusu in Studies in Surface Science and Catalysis, eds. by D.M. Bibby, C.D. Chang, R.F. Howe, S. Yurchak, vol 36 (Elsevier, Amsterdam, 1988)
M. Stöcker, Microporous and mesoporous materials, 82 (2005)
T. Mokrani, M. Scurrell, Catal. Rev. Sci. Eng. 51, 1–145 (2009)
S.R. Blaszkowski, R.A. van Santen, J. Am. Chem. Soc. 119, 5020–5027 (1997)
G.F. Froment, W.J.H. Dehertog, A.J. Marchi in Catalysis. A Review of Recent Literature, ed. by J.J. Spivey. The Royal Society of Chemistry (Cambridge, England, 1992)
W. Loewenstein, American Mineralogist, pp. 92–96 (1954)
D.S. Coombs, A. Alberti, T. Armbruster, G. Artioli, C. Colella, E. Galli, J.D. Grice, F. Liebau, J.A. Mandarino, H. Minato et al., Can. Mineral. 35, 1571–1606 (1997)
IZA Structure Commission
R.F. Howe in Studies in Surface Science and Catalysis, eds. by D.M. Bibby, C.D. Chang, R.F. Howe, S. Yurchak., vol 36 (Elsevier, Amsterdam, 1988)
J.A. Rabo, G.J. Gajda in Guidelines for mastering the properties of molecular sieves. Relationship between the physicochemical properties of zeolitic systems and their low dimensionality (Plenum Press, New York, 1990)
J.F. Haw, Phys. Chem. chem. Phys. pp. 5431–5441 (2002)
P.L. Benito, A.G. Gayubo, A.T. Aguayo, M. Olazar, J. Bilbao, J. Chem. Tech. Biotechnol. pp. 183–191 (1996)
C.D. Chang, Catal. Revs. 26, 323–345 (1984)
M. Bjørgen, F. Joensen, M. Spangsberg Holm, U. Olsbye, K.-P. Lillerud, S. Svelle, Appl. Catal. A 345, 43–50 (2008)
R.J. Argauer, G.R. Landolt, US 3702886, 1972
E.M. Flanigen, R.L. Patton, US 4073865, 1978
J.F. Haw, W. Song, D.M. Marcus, J.B. Nicholas, ChemInform 34 (2003)
Z.-M. Cui, Q. Liu, W.-G. Song, L.-J. Wan, Angew. Chem. Int. Ed 45, 6512–6515 (2006)
C. Baerlocher, W.M. Meier, D. Olson, Atlas of zeolite framework types (Elsevier, Amsterdam, New York, 2001)
J.F. Haw, D.M. Marcus, Top. Catal. 34, 41–48 (2005)
Honeywell International Inc., Honeywell UOP’s Advanced Methanol-to-Olefins Technology Selected In China To Produce Chemical Products (2011), can be found under http://honeywell.com/News/Pages/Honeywell-UOP%E2%80%99s-Advanced-Methanol-To-Olefins-Technology-Selected-In-China-To-Produce-Chemical-Products.aspx
S. Bordiga, L. Regli, D. Cocina, C. Lamberti, M. Bjørgen, K.P. Lillerud, J. Phys. Chem. B 109, 2779–2784 (2005)
J. Sefcik, E. Demiralp, T. Cagin, W.A. Goddard, III, Rational Design of Zeolites for catalysis and separation (1998)
G. Burgfels, S. Klingelhöfer, L. H. Ong, R. Olindo, J. Lercher, F. Schmidt, DE 102010005704, 2011
Y.-f. Chang, S.N. Vaughn, L.R.M. Martens, J.E. Baumgartner, S.L. Soled, K.R. Clem, US 2005/0137080, 2005
R. von Ballmoos, W.M. Meier, Nature 289, 782–783 (1981)
A. Tissler, P. Polanek, U. Girrbach, U. Müller, K. Unger, pp. 399–408
V.S. Nayak, V.R. Choudhary, Appl. Catal. 10, 137–145 (1984)
A. de Lucas, P. Canizares, A. Durán, A. Carrero, Appl. Catal. A 154, 221–240 (1997)
G. H. Kühl in Catalysis and zeolites. Fundamentals and applications, eds. by J. Weitkamp, L. Puppe (Springer, New York, 1999)
V. Zholobenko, L. Kustov, V. Kazansky, E. Loeffler, U. Lohse, G. Oehlmann, Zeolites 11, 132–134 (1991)
C.D. Chang, C.T.W. Chu, J.N. Miale, R.F. Bridger, R.B. Calvert, J. Am. Chem. Soc. 106, 8143–8146 (1984)
D.S. Shibabi, W.E. Garwood, P. Chu, J.N. Miale, R.M. Lago, C.T.W. Chu, C.D. Chang, J. Catal. 93, 471–474 (1985)
M. Kang, J. Mol. Catal. A: Chem. 160, 437–444 (2000)
D.L. Obrzut, P.M. Adekkanattu, J. Thundimadathil, J. Liu, D.R. Dubois, J.A. Guin, React. Kinet. Catal. Lett. 80, 113–121 (2003)
M. Salmasi, S. Fatemi, A. Taheri Najafabadi, J. Ind. Eng. Chem. 17, 755–761 (2011)
T.L. Marker, C.D. Gosling, US 5817906, 1998
M.M. Mertens, M.J. Janssen, L.R.M. Martens, K.R. Clem, US 20060079397, 2006
T. Inui, M. Kang, Appl. Catal. A 164, 211–223 (1997)
S. Yurchak in Studies in Surface Science and Catalysis, eds. by D.M. Bibby, C.D. Chang, R.F. Howe, S. Yurchak, vol 36 (Elsevier, Amsterdam, 1988)
P.L. Benito, A.G. Gayubo, A.T. Aguayo, M. Olazar, J. Bilbao, Ind. Eng. Chem. Res. 3991–3998 (1996)
H. Schulz, Catal. Today 154, 183–194 (2010)
F.J. Keil, Microporous Mesoporous Mater. 29, 49–66 (1999)
D.E. Krohn, M.G. Melconian in Studies in Surface Science and Catalysis, eds. by D.M. Bibby, C.D. Chang, R.F. Howe, S. Yurchak, vol 36 (Elsevier, Amsterdam, 1988)
T.V. Janssens, J. Catal. 264, 130–137 (2009)
S. Teketel, U. Olsbye, K.-P. Lillerud, P. Beato, S. Svelle, Microporous Mesoporous Mater. 136, 33–41 (2010)
U. Olsbye, M. Bjørgen, S. Svelle, K.-P. Lillerud, S. Kolboe, Catal. Today 106, 108–111 (2005)
M. Guisnet, J. Mol. Catal. A: Chem. 182–183, 367–382 (2002)
M. Guisnet, P. Magnoux, Appl. Catal. 54, 1–27 (1989)
M. Guisnet, P. Magnoux, Appl. Catal. A 212, 83–96 (2001)
S. Kolboe in Studies in Surface Science and Catalysis, eds. by D.M. Bibby, C.D. Chang, R.F. Howe, S. Yurchak, vol 36 (Elsevier, Amsterdam, 1988)
B.E. Langner, Appl. Catal. 2, 289–302 (1982)
A.G. Gayubo, J.M. Ortega, A.T. Aguayo, J.M. Arandes, J. Bilbao, Chem. Eng. Sci. 55, 3223–3235 (2000)
J. Li, Y. Tan, Q. Zhang, Y. Han, Fuel 89, 3510–3516 (2010)
A.T. Aguayo, D. Mier, A.G. Gayubo, M. Gamero, J. Bilbao, Ind. Eng. Chem. Res. 49, 12371–12378 (2010)
Topp-Jørgensen in Studies in Surface Science and Catalysis, eds. by D.M. Bibby, C.D. Chang, R.F. Howe, S. Yurchak, vol 36 (Elsevier, Amsterdam, 1988)
K.G. Allum, A.R. Williams in Studies in Surface Science and Catalysis, eds. by D.M. Bibby, C.D. Chang, R.F. Howe, S. Yurchak, vol 36 (Elsevier, Amsterdam, 1988)
I.I. Ivanova, Y.G. Kolyagin, Chem. Soc. Rev. 5018–5050 (2010)
C.D. Chang in Studies in Surface Science and Catalysis, eds. by D.M. Bibby, C.D. Chang, R.F. Howe, S. Yurchak, vol 36 (Elsevier, Amsterdam, 1988)
A.C. Gujar, V.K. Guda, M. Nolan, Q. Yan, H. Toghiani, M.G. White, Appl. Catal. A 363, 115–121 (2009)
M. Stöcker, Microporous Mesoporous Mater. 29, 3–48 (1999)
I.M. Dahl, S. Kolboe, Catal. Lett. 329–336 (1993)
I.M. Dahl, S. Kolboe, J. Catal. 458–464 (1994)
I.M. Dahl, S.Kolboe, J. Catal. 304–309 (1996)
T. Mole, G. Bett, D. Seddon, J. Catal. 435–445 (1983)
T. Mole, J.A. Whiteside, D. Seddon, J. Catal. 261–266 (1983)
W. Song, D.M. Marcus, H. Fu, J.O. Ehresmann, J.F. Haw, J. Am. Chem. Soc. 124, 3844–3845 (2002)
M. Bjørgen, J. Catal. 221, 1–10 (2004)
E.J. Munson, A.A. Kheir, N.D. Lazo, J.F. Haw, J. Phys. Chem. 7740–7746 (1996)
H. Adkins, P.D. Perkins, J. Phys. Chem. 32, 221–224 (1928)
J.M. Parera, Ind. Eng. Chem. Prod. Res. Dev 15, 234–241 (1976)
R. Abraham in DGMK Conference Future Feedstocks for Fuels and Chemicals, Berlin, Germany. Supplement to conference preprints, DGMK, Hamburg, Sept 29–Oct 1, 2008
G. Burgfels, K. Kochloefl, J. Ladebeck, F. Schmidt, M. Schneider, H.J. Wernicke, DE 3838710, 1990
Y. Wei, J. Li, S. Xu, S. Yuan, L. Xu, J. Chen, Y. Zhou, Y. Qi, Z. Liu, Complete prospect and carbon atom economy evaluation of methanol-to-olefins reaction. Abstract ICC 2012, can be found under http://events.dechema.de/events/en/Events/Materials+for+Energy+_+EnMat+II/Congress+Planer/Datei_Handler-tagung-564-file-7857-p-127866.htm
B.M. Lok, C.A. Messina, R.L. Patton, R.T. Gajek, T.R. Cannan, E.M. Flanigen, US 4440871, 1984
T.N. Kalnes, T.V. Voskoboynikov, US 7414167, 2008
E. Köhler, F. Schmidt, H.J. Wernicke, M. de Pontes, H.L. Roberts, Hydrocarbon technology international 37–40 (1995)
C. Knottenbelt, Catal. Today 71, 437–445 (2002)
D.W. Leyshon, G.E. Cozzone, US 5043522, 1991
D.L. Johnson, K.E. Nariman, R.A. Ware, US 6222087, 2001
References to Section 6.4.1
R.J. Argauer, G.R. Landolt, US 3702886, 1972
C.D. Chang, A.J. Silvestri, J. Catal. 249–259 (1977)
C.D. Chang, A.J. Silvestri, ChemTech 17, 624–631 (1987)
C.D. Chang, Catal. Revs. 25, 1–118 (1983)
M. Stöcker, Microporous and Mesoporous Mater. 82 (2005)
C.J. Maiden in Studies in Surface Science and Catalysis, eds. by D.M. Bibby, C.D. Chang, R.F. Howe, S. Yurchak, vol 36 (Elsevier, Amsterdam, 1988)
K.G. Allum, A.R. Williams in Studies in Surface Science and Catalysis, eds. by D.M. Bibby, C.D. Chang, R.F. Howe, S. Yurchak, vol 36 (Elsevier, Amsterdam, 1988)
G.A. Mills, Fuel 73, 1243–1279 (1994)
H.R. Grimmer, N. Thiagarajan, E. Nitschke in Studies in Surface Science and Catalysis, eds. by D.M. Bibby, C.D. Chang, R.F. Howe, S. Yurchak, vol 36 (Elsevier, Amsterdam, 1988)
T. Mokrani, M. Scurrell, Catal. Rev. Sci. Eng. 51, 1–145 (2009)
Structure Commission of the International Zeolite Association (2008), can be found under http://izasc.ethz.ch/fmi/xsl/IZA-SC/ftc_fw.xsl?-db=Atlas_main&-lay=fw&-max=25&STC=MFI&-find
M. Stöcker, Microporous Mesoporous Mater. 29, 3–48 (1999)
T. Mole in Studies in Surface Science and Catalysis, eds. by D.M. Bibby, C.D. Chang, R.F. Howe, S. Yurchak, vol 36 (Elsevier, Amsterdam, 1988)
G.F. Froment, W.J.H. Dehertog, A.J. Marchi in Catalysis. A review of recent literature, ed. by J.J. Spivey. The Royal Society of Chemistry (Cambridge, England, 1992)
J.F. Haw, W. Song, D.M. Marcus, J.B. Nicholas, ChemInform 34 (2003)
C.D. Chang in Studies in Surface Science and Catalysis, eds. by D.M. Bibby, C.D. Chang, R.F. Howe, S. Yurchak, vol 36 (Elsevier, Amsterdam, 1988)
F.J. Keil, Microporous Mesoporous Mater. 29, 49–66 (1999)
I.I. Ivanova, Y.G. Kolyagin, Chem. Soc. Rev. 5018–5050 (2010)
S. Yurchak in Studies in Surface Science and Catalysis, eds. by D.M. Bibby, C.D. Chang, R.F. Howe, S. Yurchak, vol 36 (Elsevier, Amsterdam, 1988)
A.C. Gujar, V.K. Guda, M. Nolan, Q. Yan, H. Toghiani, M.G. White, Appl. Catal. A 363, 115–121 (2009)
H. Schulz, Catal. Today 154, 183–194 (2010)
M. Guisnet, J. Mol. Catal. A: Chem. 182–183, 367–382 (2002)
M. Guisnet, P. Magnoux, Appl. Catal. 54, 1–27 (1989)
M. Guisnet, P. Magnoux, Appl. Catal. A 212, 83–96 (2001)
A.G. Gayubo, J.M. Ortega, A.T. Aguayo, J.M. Arandes, J. Bilbao, Chem. Eng. Sci. 55, 3223–3235 (2000)
B.E. Langner, Appl. Catal. 2, 289–302 (1982)
P.L. Benito, A.G. Gayubo, A.T. Aguayo, M. Olazar, J. Bilbao, Ind. Eng. Chem. Res. 3991–3998 (1996)
J. Li, Y. Tan, Q. Zhang, Y. Han, Fuel 89, 3510–3516 (2010)
A.T. Aguayo, A.G. Gayubo, J. Ereña, R. Vivanco, J. Bilbao, Chem. Eng. J. 92, 141–150 (2003)
T.V. Janssens, J. Catal. 264, 130–137 (2009)
R.F. Howe in Studies in Surface Science and Catalysis, eds. by D.M. Bibby, C.D. Chang, R.F. Howe, S. Yurchak, vol 36 (Elsevier, Amsterdam, 1988)
A.T. Aguayo, D. Mier, A.G. Gayubo, M. Gamero, J. Bilbao, Ind. Eng. Chem. Res. 49, 12371–12378 (2010)
Topp-Jørgensen in Studies in Surface Science and Catalysis, eds. by D.M. Bibby, C.D. Chang, R.F. Howe, S. Yurchak, vol 36 (Elsevier, Amsterdam, 1988)
S. Kolboe in Studies in Surface Science and Catalysis, eds. by D.M. Bibby, C.D. Chang, R.F. Howe, S. Yurchak, vol 36 (Elsevier, Amsterdam, 1988)
H.-H. Gierlich, W. Dolkemeyer, A. Avidan, N. Thiagarajan, Umwandlung von Methanol zu Benzin nach dem Wirbelbett-Verfahren, Innsbruck
K.H. Keim, J. Maziuk, A. Toennesmann, Erdöl and Kohle, Erdgas, Petrochemie 37, 558–562 (1984)
K.H. Keim, F.J. Krambeck, J. Maziuk, A. Toennesmann, Erdöl, Erdgas, Kohle 103, 82–85 (1987)
C.D. Chang, Catal. Revs. 26, 323–345 (1984)
H.A. Zaidi, K.K. Pant, Ind. Eng. Chem. Res. 47, 2970–2975 (2008)
I. Nexant, PERP Program: Developments in para-Xylene Technology, can be found under http://www.chemsystems.com/about/cs/news/items/PERP%200809S11_paraXylene.cfm
J. Scherzer, Octane-enhancing, zeolitic FCC catalysts. Scientific and technical aspects (M. Dekker, New York, 1990)
M.L. Occelli, P. O’Connor, Fluid Cracking Catalysts (M. Dekker, New York, 1998)
S. Tabak, ExxonMobil Methanol to Gasoline, can be found under http://www.uschinaogf.org/Forum7/7Topic23-SamuelTabak-ExxonMobil-English.pdf
J. Packer, The Production of Methanol and Gasoline, can be found under http://nzic.org.nz/ChemProcesses/energy/7D.pdf
J. Peckham, JAMG’s Methanol-to-Gasoline Plant Starts-up, can be found under http://www.worldfuels.com/wfExtract/exports/Content/33fead92-fc2d-447d-bc2e-3e95a8ff6e12.html
M. Schneider, F. Schmidt, G. Burgfels, H. Buchold, F.-W. Möller, EP 0448000, 1991
ExxonMobil, ExxonMobil’s Methanol to Gasoline (MTG) Techno logy Selected for DKRW Advanced Fuels’ Coal to Liquids Project, can be found under http://www.dkrwaf.com/_filelib/FileCabinet/PDFs/Press_Releases/ExxonPressRelease.pdf?FileName=ExxonPressRelease.pdf
D.E. Krohn, M.G. Melconian in Studies in Surface Science and Catalysis, eds. by D.M. Bibby, C.D. Chang, R.F. Howe, S. Yurchak, vol 36 (Elsevier, Amsterdam, 1988)
M. Bjørgen, F. Joensen, M. Spangsberg Holm, U. Olsbye, K.-P. Lillerud, S. Svelle, Appl. Catal. A 345, 43–50 (2008)
Methanex Corporation, Global Environmental Report 2005, can be found under http://www.methanex.com/environment/documents/2005_Environmental_Excellence_Report.pdf
S. Yurchak, US 4814536, 1989
J.H. Beech, Jr., F.P. Ragonese, US 5059738, 1991
W. Lee, S. Yurchak, N. Daviduk, J. Maziuk in Proceedings of the NPRA Annual Meeting, 1980
T. Sugiyama, Thesis, Massachusetts Institute of Technology, 1994
Green Car Congress, DKRW Selects ExxonMobil’s Methanol-to-Gasoline (MTG) Technology for Coal-to-Liquids Project, can be found under http://www.greencarcongress.com/2007/12/dkrw-selects-ex.html
Lurgi GmbH, The R&D centre, can be found under http://www.gcg-es.com/PrincipalsProducts/18-Lurgi/Lurgi02-Researchcentre.pdf
M. Rothaemel, H.-D. Holtmann, Erdöl Erdgas Kohle 234–237 (2002)
G. Burgfels, K. Kochloefl, J. Ladebeck, F. Schmidt, M. Schneider, H.J. Wernicke, DE 3838710, 1990
H. Hartmann, Erdöl Erdgas Kohle 123, 362–369 (2007)
W. Liebner, M. Wagner, Erdöl Erdgas Kohle 120 (2004)
PetroSA, COD Technology, can be found under http://www.petrosa.co.za/innovation_in_action/Pages/COD-Technology.aspx
S.A. Tabak, A.A. Avidan, F.J. Krambeck, Production of synthetic gasoline and diesel fuel from non-petroleum resources, can be found under http://web.anl.gov/PCS/acsfuel/preprint archive/Files/31_2_NEW YORK_04-86_0293.pdf
S. Lee, M. Gogate, C.J. Kulik, Fuel Sci. Technol. Int. 13, 1039–1057 (1995)
M. Wang, GREET1.5a: Changes from GREET1.5 (2000), can be found under http://www.transportation.anl.gov/pdfs/TA/150.pdf
References to Section 6.4.2
Chemical Market Associates Inc. (CMAI), World Light Olefins Analysis (WLOA) (2009). http://www.ihs.com/products/chemical/index.aspx?pu=1&rd=cmai
D. Greer, M. Houdek, R. Pittmann, J. Woodcock, Erdöl Erdgas Kohle 118(5), 242 (2002)
CMAI, World Light Olefins Analysis, Houston Texas 173–176 (2003)
R.J. Argauer, G.R. Landolt, US Patent 3,702,886
C.D. Chang, A.J. Silvestri, Catalysis 47, 249–259 (1977)
C.D. Chang, A.J. Silvestri, ChemTech 10, 624 (1987)
F.J. Keil, Microporous and Mesoporous Mater. 29, 49–66 (1999) (Review Methanol-to-hydrocarbons: process technology)
Z.M. Liu, C.L. Sun, G.W. Wang, Q.X. Wang, G.Y. Cai, Fuel Process. Technol. 62, 161–172 (2000)
J. Li, Y. Wei, G. Liu, Y. Qi, P. Tian, B. Li, Y. He, Z. Liu, Catal. Today 171, 1 (2011)
T. Ren, M. Patel, K. Blok, Olefins from conventional and heavy feedstocks: Energy use in steam cracking and alternative processes. Energy 31, 425–451 (2006)
T. Mokrani, M. Scurrell, Gas conversion to liquid fuels and chemicals: the methanol route-catalysis and processes development. Catal. Rev. 51, 1–145 (2009)
C.D. Chang, in Methanol to Hydrocarbons, eds. by G. Ertl, H. Knözinger, Weitkamp. Handbook of Heterogeneous Catalysis, 1st edn, p. 1894
S. Kvisle, T. Fuglerud, S. Kolboe, U. Olsbye, K.P. Lillerud, B. Vora, in Methanol-to-Hydrocarbons. Handbook of Heterogeneous Catalysis, vol 2, p. 707
T.J. Gregor Remans, G. Jenzer, A. Hoek, Gas-to-Liquids. Handbook of Heterogeneous Catalysis, pp. 2994–3010 (2008)
Michael Stöcker, Methanol-to-hydrocarbons: catalytic materials and their behaviour. Microporous Mesoporous Mater. 29(1–2), 3–48 (1999). doi:10.1016/S1387-1811(98)00319-9
J. Li, Y. Wei, G. Liu, Y. Qi, P. Tian, B. Li, Y. He, Z. Liu, Catal. Today 171(1), 221–228 (2011)
C.D. Chang, Catal. Rev. Sci. Eng. 25, 1(1983)
U.S. Pat. No. 3,931,349
U.S. Pat. No. 4,404,414
D. Chen, H.P. Rebo, K. Moljord, A. Holmen, Methanol Conversion to Light Olefins over SAPO-34. Sorption, Diffusion, and Catalytic Reaction. Ind. Eng. Chem. Res. 38, 4241–4249 (1999)
A.G. Gayubo, A.T. Aguayo, M. Castilla, M. Olazar, J. Bilbao, Catalyst reactivation kinetics for methanol transformation into hydrocarbons. Expressions for designing reaction-regeneration cycles in isothermal and adiabatic fixed bed reactor. Chem. Eng. Sci. 56, 5059–5071 (2001)
H. Hu, F. Cao, W. Ying, Q. Sun, D. Fang, Study of coke behaviour of catalyst during methanol-to-olefins process based on a special TGA reactor. Chem. Eng. J. 160, 770–778 (2010)
A.J. Marchi, G.F. Froment, Catalytic conversion of methanol to light alkenes on SAPO molecular sieves.Appl. Catal. 71, 139–152 (1991)
J. Luckner, Effect of process parameters on methanol-to-olefins reactions over SAPO catalysts. PhD Thesis, Auburn University, 2005
G. Qi, Z. Xie, W. Yang, S. Zhong, H. Liu, C. Zhang, Q. Chen, behaviours of coke deposition on SAPO-34 catalyst during methanol conversion to light olefins. Fuel Process
L. Travalloni, A.C.L. Gomes, A.B. Gaspar, M.A.P. da Silva, Methanol conversion over acid solid catalysts. Catal. Today 133–135, 406–412 (2008)
X. Wu, M.G. Abraha, R.G. Anthony, Methanol conversion on SAPO-34: reaction condition for fixed-bed reactor. Appl. Catal. A: Gen. 260, 63–69 (2004)
A. T., Aguayo, D., Mier, A. G., Gayubo, M., Gamero, J. Bilbao, Kinetics of Methanol Transformation into Hydrocarbons on a HZSM-5 Zeolite Catalyst at High Temperature (400-550°C). Ind. Eng. Chem. Res.2010, 49, 12371–12378
S.M. Alwahabi, G.F. Froment, Single Event Kinetic Modeling of the Methanol-to-Olefins Process on SAPO-34. Ind. Eng. Chem. Res. 43, 5098–5111 (2004)
D. Chen, H.P. Rebo, A. Grønvold, K. Moljord, A. Holmen, Methanol conversion to light olefins over SAPO-34: kinetic modeling of coke formation. Microporous Mesoporous Mater. 35–36, 121–135 (2000)
S.M. Al Wahabi, Conversion of methanol to light olefins on SAPO-34: Kinetic modeling and reactor design. PhD Thesis, Texas A&M University, 2003
N. Fatourehchi, M. Sohrabi, S.J. Royaee, S.M. Mirarefin, Application of a Fluidized bed reactor in the MTO (Methanol to Olefin) process: preparation of catalyst and presentation of a kinetic model. Petrol. Sci. Technol. 29, 1578–1589 (2011)
A.G. Gayubo, A.T. Aguayo, A.E. Sánchez del Campo, A.M. Tarrío, J. Bilbao, Kinetic modeling of methanol transformation into olefins on a SAPO-34, Catalyst. Ind. Eng. Chem. Res. 39, 292–300 (2000)
A.T. Najafabadi, S. Fatemi, M. Sohrabi, M. Salmasi, Kinetic modeling and optimization of the operating condition of MTO process on SAPO-34, Catalyst. J. Ind. Eng. Chem. 18, 29–37 (2012)
S. Soundararajan, A.K. Dalai, F. Berruti, Modeling of methanol-to-olefins (MTO) process in a circulating fluidized bed reactor. Fuel 80, 1187–1197 (2001)
A.T. Aguayo, A.G. Gayubo, R. Vivanco, A. Alonso, J. Bilbao, Initiation step and reactive intermediates in the transformation of methanol into olefinsover SAPO-18. Catal. Ind. Eng. Chem. Res. 44, 7279–7286 (2005)
A.T. Aguayo, A.G. Gayubo, R. Vivanco, M. Olazar, J. Bilbao, Role of Acidity and microporous structure in alternative catalysts for the transformation of methanol into olefins. Appl. Catal. A: Gen. 283, 197–207 (2005)
A.G. Gayubo, A.T. Aguayo, A. Alonso, J. Bilbao, Kinetic Modeling of the Methanol-to-Olefins Process on a Silicoaluminophosphate (SAPO-18) Catalyst by Considering Deactivation and the Formation of Individual Olefins. Ind. Eng. Chem. Res. 46, 1981–1989 (2007)
A.G. Gayubo, A.T. Aguayo, A. Alonso, A. Atutxa, J. Bilbao, Reaction scheme and kinetic modeling for the MTO Process over a SAPO-18. Catal. Catal. Today 106, 112–117 (2005)
Y. Kumita, J. Gascon, E. Stavitski, J.A. Moulijn, F. Kapteijn, Shape selective methanol-to-olefins over highly thermostable DDR catalysts. Appl. Catal. A: Gen. 391, 234–243 (2011)
J. Li, Y. Wei, G. Liu, Y. Qi, P. Tian, B. Li, Y. He, Z. Liu, Comparative study of MTO conversion over SAPO-34, H-ZSM-5 and H-ZSM-22: Correlating catalytic performance and reaction mechanism to zeolite topology.Catal. Today 171, 221–228 (2011)
D. Mores, J. Kornatowski, U. Olsbye, B.M. Weckhuysen, Coke Formation during the Methanol-to-Olefin Conversion: In Situ Microspectroscopy on Individual H-ZSM-5 Crystals with Different Brønsted Acidity. Chem. Eur. J. 17, 2874–2884 (2011)
B. Valle, A. Alonso, A. Atutxa, A.G. Gayubo, J. Bilbao, Effect of nickel incorporation on the acidity and stability of HZSM-5 zeolite in the MTO process. Catal. Today 106, 118–122 (2005)
E.M. Flanigen, B.M. Lok, R.L. Patton, S.T. Wilson1987 Aluminophosphate molecular sieves and the periodic table, in New Developments in Zeolite Science and Technology, in Proceedings of 7th international Zeolite Conference, Tokyo, eds. by Y. Murakami, A. Ijima, J.W. Ward (Elsevier, Amsterdam, 1986) pp. 103–112
S.W. Kaiser, US Patent 4 499 327, 1985
S.W. Kaiser, US Patent 4 524 234, 1985
S.W. Kaiser, Arab. J. Sci. Eng. 10, 361 (1985)
G. Pop, G. Musca, D. Ivanescu, E. Pop, G. Maria, E. Chirila, O. Muntean, Chem. Ind. 46, 443 (1992)
U.S. Pat. No. 4,440,871
J. Chen, P.A. Wright, S. Natarajan, J.M. Thomas in Studies in Surface Science and Catalysis 84, 1731–1738 (1994)
U.S. Pat. No. 5,279,810
J. Chen, P.A. Wright, J.M. Thomas, S. Natarajan, L. Marchese, S.M. Bradley, G. Sankar, C.R.A. Catlow, P.L. Gai-Boyes 98, 10216–10224 (1994)
J. Chen, J.M. Thomas, P.A. Wright, R.P. Townsend, Catal. Lett. 28, 241–248 (1994)
A.M. Prakash, S. Unnikrishnan, J. Chem. Soc. Faraday Transactions, Royal Society of Chemistry, London, 90, 2291 (1994)
Y. Xu et al. J. Chem. Soc., Faraday Transactions 86, 2, 425–429 (1990)
E.M. Flanigen, B.M. Lok, R.L. Pattonand S.T.Wilson Aluminophosphatemolecular sieves and the periodictable, in New Developments in ZeoliteScience and Technology, in Proceedings 7th International Zeolite conference, Tokyo, 1986 eds. Y. Murakami, A. Ijima, J.W. Ward (Elsevier, Amsterdam,1987), pp. 103–112
Z.-M. Cui, Q. Liu, W.-G. Song, L.-J. Wan, Insights into the Mechanism of Methanol-to-Olefin Conversion at Zeolites with Systematically Selected Framework Structures. Angew. Chem. Int. Ed. 45, 6512–6515 (2006)
C. Baerlocher, W.M. Meier, D.H. Olson, Atlas of Zeolite Framework Types, 5th edn. (2001)
J.F. Haw, W. Song, D.M. Marcus, J.B. Nicholas, The Mechanism of Methanol to Hydrocarbon Catalysis. Acc. Chem. Res. 36, 317–326 (2003)
J.F. Haw, D.M. Marcus, Well-defined (supra)molecular structures in zeolite methanol-to-olefin catalysis. Topics Catal. 34, 1–4, 41–48 (2005)
J.Q. Chen, A. Bozzano, B. Glover, T. Fuglerud, S. Kvisle, Recent advancements in ethylene and propylene production using the UOP/Hydro MTO process. Catal. Today 106, 103–107 (2005)
PERP Program -Developments in para-Xylene Technology. http://www.chemsystems.com/about/cs/news/items/PERP%200809S11_paraXylene.cfm
J. Scherzer, Octane-enhancing, Zeolitic FCC Catalysts: Scientific and Technical Aspects (1990)
S. Tabak http://www.uschinaogf.org/Forum7/7Topic%2023-%20Samuel%20Tabak-%20ExxonMobil-%20English.pdf, http://nzic.org.nz/ChemProcesses/energy/7D.pdf
http://www.worldfuels.com/wfExtract/exports/Content/33fead92-fc2d-447d-bc2e-3e95a8ff6e12.html
M. Schneider, F. Schmidt, G. Burgfels, H. Buchold, Friedrich-Wilhelm, Möller, Süd-Chemie AG, METALLGESELLSCHAFT AG, European Patent EP0448000
Engineering and Construction: A New Lurgi-MTP® Unit for China 27/08/2011. http://www.cn.airliquide.com/en/news/local-news-and-events/engineering-construction-a-new-lurgi-mtp-unit-for-china.html
Coal Chemical Products (Methanol, PE, PP) http://www.shenhuagroup.com.cn/english/productsservices/product0introduction/coal0chemicals0products/index.shtml
M. Arné, H.W. Scheeline, PEP Report 146, Bulk Chemicals from Synthesis Gas, June 1982
S. Kvisle, T. Fuglerud, S. Kolboe, U. Olsbye, K.P. Lillerud, B.V. Vora, “Methanol-to-Hydrocarbons” in Handbook of Heterogeneous Catalysis, 2, pp. 707
T. Xu, J.L. White, U. S. Patent 6,734,330, 2004, priority filingand PCT published Feb 2000
T. Xu, J.L. White, U. S. Patent 6,743,747, 2004, priority filingand PCT published Feb 2000
A. Dyer, An Introduction to Zeolite Molecular Sieves (Wiley, New York, 1988)
S.E. Volz, J.J. Wise, Development studies on conversion of methanol and related oxygenates to gasoline. Final Report ERDA Contract No. E(49-18)-1773 (1976)
A. Kam, W. Lee, Fluid-bed process studies of the conversion of methanol to high octane gasoline. Final Report Contract No. EX-76-C-01-2490 (1978)
K.-H. Keim, F.J. Krambeck, J. Maziuk, A. Tonnesmann, ERDÖL, ERDGAS, KOHLE, 103. Jahrgang, Heft 2, Feb 1987
C.D. Chang, C.T.-W. Chu, R.F. Socha, J. Catal. 86, 289–296 (1984)
S.A. Tabak, F.J. Krambeck, Shaping Process makes Fuels. Hydrocarbon Process. 64, 9, 72–74 (1985)
A.A. Avidan Gasoline and distillate fuels from methanol, in Methane conversion proceedings of a symposium on the production of fuels and chemicals from natural gas, ed. by D.M. Bibby, C.D. Chang, R.F. Howe, S. Yurchak, Studies in Surface Science and Catalysis, 36, pp. 307–323 (1988)
N. Daviduk, J.H. Haddad; United States Patent4,431,856, Assignee: Mobil Oil Corporation (1984)
U.S. Pat. No. 6,023,005
http://www.syn.ac.cn/ennews/Technology/2009/6/09631633371761.html
Shenhua Ningxia Coal Industry Group Co is a joint venture between the Ningxia provincialgovernment and China’s largest coal producer Shenhua Group Corp, with 49 and 51 % stake-holding, respectively
E.N. Givens, C.J. Plank, Edward J.Rosinski; US Patent 3,960,978, 1976
D.Wei, T. Voskoboynikov*, M. Quick, UOP LLC, 50 East Algonquin Road, Des Plaines, IL 60017, USA, W. Vermeiren, ATOFINA Research, Zone Industrielle C, B-7181 Feluy, Belgium
DE000010233069C1 assigned to Lurgi AG, Frankfurt, DE, 19.07.2002
D.Wei, T.Voskoboynikov*, M.Quick, UOP LLC, 50 East Algonquin Road, Des Plaines, IL 60017, USA, W.Vermeiren, ATOFINA Research, Zone Industrielle C, B-7181 Feluy, Belgium
T. Ren, M.K. Patel, K. Blok, Energy 33, 817–833 (2008)
Kvisle S, Nilsen HR, MTO: state of art and perspectives. In: DGMK conference: creating value from light olefins-production and conversion in Hamburg. Hamburg: German Society for Petroleum and Coal Science and Technology (2001)
US Patent Office. Methanol-to-olefin process with increased selectivity to ethylene and propylene (US Patent 6,534,692). UOP LLC, US Patent Office (2003)
J. Gregor Meeting the changing needs of the olefins market by UOP LLC. In: The 5th EMEA petrochemical technology conference in Paris. London: Euro Petroleum Consultancy Ltd. (2003)
J. Grootjans, V. Vanrysselberghe, W. Vermeiren, Integration of total petrochemicals: UOP olefins conversion process into a naphtha steam cracker facility. Catal. Today 106(1–4), 57–61 (2005)
P. Keep, Comparison of remote gas conversion technologies (Synetix Inc., London, 1999). See also: www.synetix.com/methanol/pdfs/papers/imtof99-paper9(59w).pdfS
US Patent Office. Production of light olefins from oxygenate using framework gallium-containing medium pore molecular sieve (US Patent application 20030018231). ExxonMobil Inc., US Patent Office, 2003
W. Liebner, GTC-Gas to Chemicals Process Options for Venezuela by Lurgi Oel-Gas Chemie Engineering. In: PdVSA-EFO seminar. Caracas, Venezuela: Petro′leos de Venezuela S.A. (2002)
H. Koempel, W. Liebne, M. Wagner, MTP—an economic route to dedicated propylene. In: The 2nd ICIS-LOR world olefins conference (ICIS-LOR Inc., Amsterdam, 2003)
M. Rothaemel, H.D. Holtmann, MTP, Methanol-to-Propylene—Lurgi’s way, in DGMK conference “creating value from light olefins—production and conversion” (German Society for Petroleum and Coal Science and Technology, Hamburg, 2001)
L. Yingxu Wei, J. Li, S. Xu, C. Yuan, L. Xu, J. Chen, Y. Zhou, Y. Qi, Z. Liu, 12th ICC, München 2012, Abstracts
http://www.icis.com/Articles/2007/11/05/9076035/methanol-uses-and-market-data.html, 12 Oct 2010
http://www.icis.com/Articles/2005/08/20/2009637/mtomtp-ready-to-takeoff.html
H. Hui, http://www.icis.com/Articles/2012/10/30/9604963/china-annual-methanol-demand-to-spike-on-mto-mtp-projects.html, 30 Oct 2012
References to Section 6.4.3
De Witt Bits 2011 Global Industry Overview, Methanol and Derivatives Service, 1st Feb 2012
R. Kempf, Advantages of Commercialization of the UOP Advanced MTO technology, 2011 Middle East Chemical Week Conference, 16–19 Oct 2011, Abu Dhabi National Exhibition centre
IHS INC, 2012
Propylene Feedstock Diversification Conference, Shanghai, 2012
H. Hui, ‘China annual methanol demand to spike on MTO, MTP projects’, ICIS news, Oct 2012, http://www.icis.com/Articles/2012/10/30/9604963/china-annual-methanol-demand-to-spike-on-mto-mtp-projects.html
ICIS 22nd Aug 2005 http://www.icis.com/Articles/2005/08/20/2009637/mtomtp-ready-to-takeoff.html (Source: ACN)
R.J Argauer, G.R., Landolt, US Patent 3,702,886
C.D. Chang, A.J. Silvestri, J. Catal., 47, 249–259 (1977)
C.D. Chang, A.J. Silvestri, ChemTech 10, 624 (1987)
P. Trabold, Sustainable Routes to Petrochemical Products, in 7th international petrochemical conference, Athene, 23th/24th June 2005
M. Stöcker, Microporous and Mesoporous Mater., 3–48 (1999)
References to Section 6.4.4
R.J. Argauer, G.R. Landolt, US Patent 3,702,886
C.D. Chang, A.J. Silvestri, J. Catal. 47, 249–259 (1977)
C.D. Chang, A.J. Silvestri, ChemTech 10, 624 (1987)
C.D. Chang, in Methanol to Hydrocarbons, Handbook of Heterogeneous Catalysis, Ertl, G., Knözinger, H. & Weitkamp, 1st edn., p. 1894
S. Kvisle, T. Fuglerud, S. Kolboe, U. Olsbye, K.P. Lillerud, B. Vora, in Methanol-to-Hydrocarbons. Handbook of Heterogeneous Catalysis, vol 2, p. 707
T.J. Gregor Remans, G. Jenzer, A. Hoek, Gas-to-Liquids. Handbook of heterogeneous catalysis, pp. 2994–3010 (2008)
F.J. Keil, Microporous Mesoporous Mater. 29(1–2), 49–66 (1999)
M. Stöcker, Microporous and Mesoporous Mater. 29(1–2), 3–48 (1999)
The Catalyst Group Resources, Inc., Volume 2: Syngas Conversion to Products Assessment, April 2007
Technologies of Lurgi Oel Gas Chemie, 302.e/02.03/40, Lurgi Oel Gas Chemie GmbH, 60295 Frankfurt/Main (2003)
Adkins, Perkins, J. Phys. Chem. 32, 219 (1928)
H. Knözinger, Angew. Chem. Int. Ed. 7, 791 (1968)
J.R. Jain, C.N. Pillai, J. Catal. 9, 322 (1967)
H. Knozinger, R. Kohne, J. Catal. 5, 264 (1966)
K.L. Ng, Ph.D. Thesis, Imperial College of Science, Medicine and Technology, London, 1999
S.G. Hindin, S.W. Weller, J. Phys. Chem. 60, 1501 (1956)
S.W. Weller, S.G. Hindin, J. Phys. Chem. 60, 1506 (1956)
B. Höhlein, Th. Grube, P. Biedermann, H. Bielawa, G. Erdmann, L. Schlecht, G. Isenberg, R. Edinger, Methanol als Energieträger, Schriften des Forschungszentrums Jülich, Reihe Energietechnik/Energy Technology Band/Volume 28
T.H. Fleisch, A. Basu, M.J. Gradassi, J.G. Masin, Stud. Surf. Sci. Catal. 107, 117–125 (1997)
T.A. Semelsberger, R.L. Borup, H.L. Greene, J. Power Sour. 156, 497–511 (2006)
M. Stiefel, R. Ahmad, U. Arnold, M. Döring, Fuel Process. Technol. 92, 1466–1474 (2011)
PERP Program: Dimethyl Ether Technology and Markets. http://www.chemsystems.com/about/cs/news/items/PERP%200708S3_DME.cfm, 6th June 2013
Hubert de Mestier du Bourg, 23rd World Gas Conference, Amsterdam 2006: http://www.igu.org/html/wgc2006/pdf/paper/add10696.pdf, 6th June 2013
T. Ogawa, N. Inoue, T. Shikada, Y. Ohno, J. Nat. Gas Chem. 12, 219–227 (2003)
W. Balthasar, W. Hilsebein: Methanol as a Feedstock for Power, Fuel and Olefins, in ‘Nitrogen & Methanol’, p. 261, January/February, 2003
U. Wagner, W. Liebner, ‘Gas To Chemicals: Advanced technologies for natural gas monetisation’ in 12th International Oil, Gas and Petrochemical Congress, Iran 2007
http://www.syngasrefiner.com/dme/dmepres/HiroshiFukuyama_pres1.pdf, Toyo Engineering Corporation, 2005
G. Yang, N. Tsubaki, J. Shamoto, Y. Yoneyama, Y. Zhang, J. Am. Chem. Soc. 132, 8129–8136 (2010)
R. Ahmad, U. Arnold, M. Döring, in Abstract 12th ICC 2012
E. Unneberg, S. Kolboe, Formation of p-Xylene from Methanol over H-ZSM-5, in Methane Conversion, ed. by D.M. Bibby, C.D. Chang, R.F. Howe, S. Yurchak (Elsevier Science Publishers B.V, Amsterdam, 1988)
M. Conte, J.A. Lopez-Sanchez, Q. He, D.J. Morgan, Y. Ryabenkova, J.K. Bartley, A.F. Carley, S.H. Taylor, C.J. Kiely, K. Khalid, G.J. Hutchings, Catal Sci. Technol. 2, 105–112 (2012)
D. Zeng, J. Yang, J. Wang, J. Xu, Y. Yang, C. Ye, F. Deng, Microporous Mesoporous Mater. 98, 214–219 (2007)
C.P. Nicolaides, N.P. Sincadu, M.S. Scurrell, Catal. Today 71, 429 (2001)
J.A. Biscardi, E. Iglesia, J. Catal. 182, 117 (1999)
C.D. Gosling, F.P. Wilcher, L. Sullivan, R.A. Mountford, Hydrocarb. Process. 69, Dec 1991
S. Pradhan, R. Lloyd, J.K. Bartley, D. Bethell, S. Golunski, R.L. Jenkins, G.J. Hutchings, Chem. Sci. 3, 2958–2964 (2012)
J. Burger, M. Siegert, E. Ströfer, M. Nilles, H. Hasse, AIChE Annual Meeting, 2011. http://www.aiche.org/cei/resources/chemeondemand/conference-presentations/polyoxymethylene-dimethyl-ethers-components-tailored-diesel-fuel-properties-synthesis-and, 6th June 2013
G.P. Hagen, M.J. Spangler, US Patent 6,166,266, 2000
H.-J Arpe, Industrielle Organische Chemie: Bedeutende Vor- und Zwischenprodukte, Wiley-VCH, Weinheim, 6. Vollständig überarbeitete Auflage, p. 176 (2007)
Helv. Chim. Acta 8, 64 (1925)
Ann. 474, 213, (1929)
Dupont patent US-2,449,469. Cited from EP1070755
D.S. Moulton, D.W. Naegeli, Southwest Research Institute, United States Patent, 5,746,785 May 5, 1998
R. Patrini, M. Marchionna, EP1070755, 2001
E. Stroefer, R. Sinnen, O. Schweers, J. Thiel, H. Hasse, WO/2008/074704
E. Jacob, WO/2011/012339
Diesel Fuel News, July 9, 2001 cited by Jack Peckham http://findarticles.com/p/articles/mi_m0CYH/is_14_5/ai_76908160/
D. Sanfilippo, R. Patrini, M. Marchionna, Patent US7,235,113
References to Section 6.5.1
G. Olah, A. Goeppert, S. Prakash, Beyond Oil and Gas: The Methanol Economy (Wiley-VCH, Weinheim, 2009)
J.C. Amphlett, M.J. Evans, R.A. Jones, R.F. Mann, R.D. Weir, Can. J. Chem. Eng. 63, 605–611 (1985)
G. Colsmann, Dissertation, Berichte des Forschungszentrums Jülich, Jül-3127, Jülich 1995
V. Formanski, dissertation, Fortschritt-Berichte VDI, Reihe 3 Verfahrenstechnik (VDI Verlag GmbH, Düsseldorf, 2000)
J.C. Amphlett, M.J. Evans, R.A. Jones, R.F. Mann, R.D. Weir, Can. J. Chem. Eng. 59(4), 720–727 (1981)
B. Ganser, Dissertation, Berichte des Forschungszentrums Jülich, Jül-2748, Jülich 1993
W. Wiese, B. Emonts, R. Peters, Int. J. Power Sour. 106, 249–257 (1999)
M.S. Wainwright, C.J. Jiang, D.L. Trimm, N.W. Cant, Appl. Catal. 97, 145–158 (1993)
M.S. Wainwright, C.J. Jiang, D.L. Trimm, N.W. Cant, Appl. Catal. 93, 245–255 (1993)
Messer Group GmbH, Variocarb-therm-process, can be found under http://www.messergroup.com/de/Daten/Fachbroschueren/Metallurgie/Variocarb-therm.pdf, Krefeld, 2012
Air Liquide Deutschland GmbH, Alnat C™-process, can be found under http://www.airliquide.de/loesungen/business/metall/equipment/alnatc.html, Düsseldorf, 2013
Westfalen AG, Tempron ®-process, can be found under http://www.westfalen-ag.de/fileadmin/user_uploads/Westfalen_AG/Technische_Gase/Allgemein/Prospekte_Technische_Gase/Perfekte_Atmos_Tempron.pdf, Münster, 2013
T. Weiss, Dissertation, Saarbrücken, 2008
L. Pettersson, K. Sjostrom, Combust. Sci. Technol. 80, 265–303 (1991)
J.C. Brown, E. Gulari, Catal. Commu. 5, 431–436 (2004)
Caloric Anlagenbau GmbH, Caloric HM Plant for H 2 Generation by Methanol Reforming, can be found under http://www.caloric.com/en/produkte/h2-generation/methanol-reforming/methanol-reforming.html, Graefelfing, 2013
P. Neumann, F. von Linde, inform, 14, 5, 313-315 (2003)
P. Neumann, F. von Linde, MPT. Metall. Plant Technol. Int. 2, 72–75 (2003)
Mahler AGS GmbH, Process description for Hydroform-M plant, can be found under http://www.mahler-ags.com/hydrogen/hydroform-m.htm, Stuttgart, 2013
Mahler AGS GmbH, Process description for Hydroform-M plant, can be found under http://www.mahler-ags.com/hydrogen/hydroswing.htm, Stuttgart, 2013
Air Products and Chemicals, Inc., Hydrogen Recovery and Purification, http://www.airproducts.com/products/Gases/supply-options/prism-membrane-hydrogen-recovery-and-purification.aspx, Allentown, 2013
UOP LLC, Hydrogen selection matrix, www.uop.com/uop-hydrogen-selection-matrix, des Plaines, 2013
References to Section 6.5.2
F. Asinger, Methanol: Chemie- und Energierohstoff. Die Mobilisation der Kohle (Springer, Berlin, Germany 1986), p. 407
G.A. Olah, A. Goeppert, G.K.S. Prakash, Beyond Oil and Gas: The Methanol Economy (Wiley-VCH Verlag, Weinheim, Germany, 2006), p. 304
A.J. Appleby, F.R. Foulkes, Fuel Cell Handbook (Van Nostrand Reinhold Int. Co, New York, 1989), p. 763
E.W. Justi, A. Winsel, Kalte Verbrennung, Fuel Cells (Franz Steiner, Wiesbaden Germany, 1962), p. 414
W. Vielstich, Translated by Ives DJG. Fuel Cells (Wiley-VCH, Weinheim, Germany, 1965/70), p. 502
W. Vielstich, A. Lamm, H. Gasteiger (eds.), Handbook of Fuel Cells (Wiley, Chichester, UK, 2003), vol 1–4, p. 2606
G. Sandstede, Elektrochemische Brennstoffzellen, in Fortschritte der Chemischen Forschung (Springer, Berlin, Heidelberg, New York, 1967), pp. 171–221
G. Sandstede (ed.), From Electrocatalysis to Fuel Cells (University of Washington Press, Seattle and London, 1972), p. 415
H.A. Liebhafsky, E.J. Cairns, Fuel Cells and Fuel Batteries (Wiley, London, 1968), p. 692
J.O.M. Bockris, S. Srinivasan, Fuel Cells: Their Electrochemistry (McGraw-Hill Book Company, London, Sydney, Toronto, Mexico, 1969), p. 660
F. von Sturm, Elektrochemische Stromerzeugung (Verlag Chemie, Weinheim, Germany, 1969), p. 190
H.H. von Döhren, K.J. Euler, Brennstoffelemente, 6th edn., VARTA-Fachbuchreihe Bd 6, (VDI, Düsseldorf, Germany, 1971), p. 223
A.K. Kordesch, G. Simader, Fuel Cells and their Applications (VCH Verlagsgesellschaft Weinheim, Germany, 1996)
A. Heinzel, P. Beckhaus, Brennstoffzellen für portable Anwendungen: kleine Energiepakete (2006). GDCh-Wochenschau 32b: online: http://www.aktuelle-wochenschau.de/2006/woche32b/woche32b.html, p. 5
V.S. Bagotsky, Fuel cells: Problems and solutions (Wiley, New York, 2009), p. 322
J. Garche, Ch. Dyer, P. Moseley, Z. Ogumi, D. Rand, B. Scrosati (eds.), Encyclopedia of Electrochemical Power Sources (Elsevier, Amsterdam, 2009). (vol 1–5)
D. Stolten (ed.), Hydrogen and Fuel Cells: Fundamentals, Technologies and Applications, Chapters (Wiley-VCH Verlag, Weinheim, Germany, 2010), p. 878
D. Stolten (ed.), Hydrogen Energy (Wiley-VCH Weinheim, 2010)
G. Kolb, Fuel processing for fuel cells (Wiley-VCH, Weinheim Germany, 2008), p. 412
W. Grot, Perfluorinated cation exchange polymers, Chem. Ing. Tech. 47, MS260/75, p. 617 (1975)
T. Iwasita, Methanol and CO electrooxidation, vol 2, eds. by W. Vielstich, A. Lamm, H. Gasteiger, Handbook of Fuel Cells (Wiley, Chichester, UK, 2003), pp. 603–624
A. Heinzel, Stand der Technik von Polymer-Elektrolyt-Membran-Brennstoffzellen—ein Überblick. CIT 81: 567–571 (Special Issue: Brennstoffzellen und Wasserstofftechnologie) (2009)
A. Heinzel, G. Bandlamudi, W. Lehnert, High Temperature PEMFCs, in Encyclopedia of Electrochemical Power Sources, ed. by J. Garche, Ch. Dyer, P. Moseley, Z. Ogumi, D. Rand, B. Scrosati (Elsevier, Amsterdam, 2009), pp. 951–957. (vol 2)
L. Gubler, D. Kramer, J. Belack, Ö. Ünsal, ThJ Schmidt, G.G. Scherer, A Polybenzimidazole-Based Membrane for the Direct Methanol Fuel Cell. J. Electrochem. Soc. 154, B981–B987 (2007)
Q. Wang, G.Q. Sun, L.H. Jiang, Q. Xin, S.G. Sun, Y.X. Jiang, S.P. Chen, Z. Jusys, R.J. Behm, Adsorption and oxidation of ethanol on colloid-based Pt/C, PtRu/C and Pt3Sn/C catalysts: In situ FTIR spectroscopy and on-line DEMS Studies, Phys. Chem. Chem. Phys. 9, pp. 2686–2696 (2007), www.rsc.org/pccp/altfuel
Tannenberger, in Sandstede G (ed) (1972) From Electrocatalysis to Fuel Cells, 415 pages, University of Washington Press, Seattle and London
A. Heinzel, R. Holze, C.H. Hamann, J.K. Blum, The electrooxidation of methanol and formaldehyde at a platinum electrode: A SEESR study of radical intermediates. Electrochim. Acta 34, 657 (1989)
S. Wasmus, A. Küver, Methanol oxidation and direct methanol fuel cells_a selective review. J. Electroanal. Chem. 461, 14–31 (1999)
V.S. Bagotsky, Y.S. Vassiliev, O.A. Khazova (1977) Generalized scheme of chemisorption, electrooxidation and electroreduction of simple organic compounds on platinum group metals, J. Electroanal. Chem. 81, 229
A. Hamnett (2003) Direct methanol fuel cells (DMFC). In: Vielstich W, Lamm A, Gasteiger H (eds) Handbook of Fuel Cells, Vol. 1: 305-322, Wiley, Chichester, UK
M. Neergat, D. Leveratto, U. Stimming, Catalysts for Direct Methanol Fuel Cells. Fuel Cells 2(1), 25–30 (2002)
V.S. Bagotsky, Y.B Vassilyev (1964 and 67) Electrochimica Acta 9, 869 and 12, 1323
H. Binder, A. Köhling, G. Sandstede, The Anodic Oxidation of Methanol on Raney-Type Catalysts of Platinum Metals, in Hydrocarbon Fuel Cell Technology, ed. by B.S. Baker (Academic Press, New York and London, 1965), pp. 91–102
O.A. Petry, B.I. Podlovchenko, A.N. Frumkin, H. Lal, J. Electroanal. Chem. 10, 253 (1965)
J.-F. Drillet, R. Dittmeyer, K. Jüttner, L. Li, K.-M. Mangold, New composite DMFC anode with PEDOT as a mixed conducter and catalyst support. Fuel Cells 6(6), 432–438 (2006)
C. Cremers, M. Scholz, W. Seliger, A. Racz, W. Knechtel, J. Rittmayr, F. Grafwallner, H. Peller, U. Stimming, Developments for improved direct methanol fuel cell stacks for portable power. Fuel Cells 7(1), 21–31 (2007)
A.S. Arico, V. Baglio, V. Antonucci (2009) Direct Methanol Fuel Cells: History, Status and Perspectives. In: Liu H, and Zhang J (eds) Electrocatalysis of Direct Methanol Fuel Cells:_From Fundamentals to Applications, Hardcover, Chapter 1: 1-78, Wiley, Chichester, UK, and Wiley Online Library, 582 pages: http://media.wiley.com/product_data/excerpt/75/35273237/3527323775.pdf
H. Liu, J. Zhang (2009) Electrocatalysis of Direct Methanol Fuel Cells: From Fundamentals to Applications, 606 pages, Wiley-VCH Verlag, Weinheim, Germany http://eu.wiley.com/WileyCDA/WileyTitle/productCd-3527323775.html
M. Watanabe, H. Uchida (2010) Catalysts for the electro-oxidation of small molecules, 18 pages, Wiley Online Library: http://onlinelibrary.wiley.com/doi/10.1002/9780470974001.f500007/full, http://onlinelibrary.wiley.com/doi/10.1002/9780470974001.f500007/pdf
J. Wu, F. Hu, P.K. Shen, C.M. Li, Z. Wei, One-step preparation of Pt on pretreated multiwalled carbon nanotubes for methanol electrooxidation. Fuel Cells 10(1), 106–110 (2010)
C. Zhou, F. Peng, H. Wang, H. Yu, J. Yang, X. Fu, Facile preparation of an excellent Pt-RuO2-MnO2/CNTs nanocatalyst for anodes of direct methanol fuel cells. Fuel Cells 11(2), 301–308 (2011)
H. Behret, H. Binder, G. Sandstede, Inorganic and Organic Non-Noble Metal Containing Electrocatalysts for Fuel Cells, in Electrocatalysis, ed. by M.W. Breiter (The Electrochemical Society Princeton, N.J, 1974), pp. 319–338
C. Fischer, A. Alonso-Vante, S. Fiechter, H. Tributsch, J. Appl. Chem. 25, 1004 (1995)
T.S. Zhao, C. Xu, Direct Methanol Fuel Cell: Overview Performance and Operational Conditions, in Encyclopedia of Electrochemical Power Sources, Vol 2: 381-389, ed. by J. Garche, Ch. Dyer, P. Moseley, Z. Ogumi, D. Rand, B. Scrosati (Elsevier, Amsterdam, 2009)
T.S. Zhao, Z.X. Liang, J.B. Xu, Overview (Direct Alcohol Fuel Cells), in Encyclopedia of Electrochemical Power Sources, Vol 2: 362-369, ed. by J. Garche, Ch. Dyer, P. Moseley, Z. Ogumi, D. Rand, B. Scrosati (Elsevier, Amsterdam, 2009)
N.K. Beck, B. Steiger, G.G. Scherer, A. Wokaun, Methanol tolerant oxygen reduction catalysts derived from electrochemically pre-treated Bi2Pt2-yIryO7 pyrochlores. Fuel Cells 6, 26–30 (2006)
A.M. Remona, K.L.N. Phani, Study of methanol-tolerant oxygen reduction reaction at Pt–Bi/C bimetallic nanostructured catalysts. Fuel Cells 11(3), 385–393 (2011)
H. Wang, J. Liang, L. Zhu, F. Peng, H. Yu, J. Yang, High oxygen-reduction-activity and methanol-tolerance cathode catalyst Cu/PtFe/CNTs for direct methanol fuel cells. Fuel Cells 10(1), 99–105 (2010)
J. Yang, C.H. Cheng, W. Zhou, J.Y. Lee, Z. Liu, Methanol-tolerant heterogeneous PdCo@PdPt/C electrocatalyst for the oxygen reduction reaction. Fuel Cells 10(6), 907–913 (2010)
Ch. Hartnig, L. Jörissen, J. Kerres, W. Lehnert, J. Scholta, Polymer electrolyte membrane fuel cells, in Materials for Fuel Cells, ed. by M. Gasik (Woodhead Publisher Ltd, Cambridge, 2008), pp. 101–184
A. Winsel, Galvanische Elemente, Brennstoffzellen. In: Ullmanns Encyclopädie. Bd 12, 113–136 (1974)
A. Heinzel, V.M. Barragán, A review of the state-of-the-art of methanol crossover in direct methanol fuel cells. J. Power Sources 84, 70 (1999)
Jörissen L, and Gogel V (2009) Direct Methanol: Overview. In: Garche J, Dyer Ch, Moseley P, Ogumi Z, Rand D, and Scrosati B (eds) Encyclopedia of Electrochemical Power Sources, Vol 2: 370-380, Elsevier, Amsterdam
Ch. Hartnig, L. Jörissen, W. Lehnert, J. Scholta, Direct methanol fuel cells, in Materials for Fuel Cells, ed. by M. Gasik (Woodhead Publisher Ltd, Cambridge, 2008), pp. 185–208
N. Neergat, K.A. Friedrich, U. Stimming, New Materials for DMFC MEAs, in Handbook of Fuel Cells, Vol 4: 856-877, ed. by W. Vielstich, A. Lamm, H. Gasteiger (Wiley, Chichester, UK, 2003)
Justi, Winsel 1962
K. Scott, E. Yu (2009) Electrocatalysis in the Direct Methanol Alkaline Fuel Cell. In: Liu H, and Zhang J (eds) Electrocatalysis of Direct Methanol Fuel Cells:_From Fundamentals to Applications, Hardcover, Chapter 13: 487-525, Wiley, Chichester, UK, and Wiley Online Library, 582 pages: http://eu.wiley.com/WileyCDA/WileyTitle/productCd-3527323775.html
H. Binder, A. Köhling, W.H. Kuhn, W. Lindner, G. Sandstede, Hydrogen and methanol fuel cells with air electrodes in alkaline electrolyte, in From Electrocatalysis to Fuel Cells, ed. by G. Sandstede (University of Washington Press, Seattle and London, 1972), pp. 131–141
H. Binder, A. Köhling, G. Sandstede, Effect of alloying components on the catalytic activity of platinum in the case of carbonaceous fuels, in From Electrocatalysis to Fuel Cells, ed. by G. Sandstede (University of Washington Press, Seattle and London, 1972), pp. 43–58
H. Binder, A. Köhling, G. Sandstede, Platinum catalysts modified by adsorption or mixing with inorganic substances, in From Electrocatalysis to Fuel Cells, ed. by G. Sandstede (University of Washington Press, Seattle and London, 1972), pp. 59–80
Fuel Cell (2011) 31 pages, in: Wikipedia: http://en.wikipedia.org/wiki/Fuel_cell
J.B. Hansen (2003) Methanol reformer design considerations. In: Vielstich W, Lamm A, Gasteiger H (eds) Handbook of Fuel Cells, Vol. 3: 141-148, Wiley, Chichester, UK
C. Zhang, Z. Yuan, N. Liu, S. Wang, S. Wang, Study of Catalysts for Hydrogen Production by the High Temperature Steam Reforming of Methanol. Fuel Cells 6(6), 466–471 (2006)
K. von Benda, H. Binder, A. Köhling, G. Sandstede, Electrochemical behaviour of tungsten carbide electrodes, in From Electrocatalysis to Fuel Cells, ed. by G. Sandstede (University of Washington Press, Seattle and London, 1972), pp. 87–100
D. Edlund, Methanol Fuel Cell Systems: Advancing towards Commercialisation, 206 pages (Pan Stanford Publishing Pte, Ltd, Singapure, 2011)
A. Heinzel (2001) Brennstoffzellen im kleinen Leistungsbereich – portable Anwendungen und Batterieersatz. In: Ledjeff-Hey K, Mahlendorf F, and Roes J (eds) Brennstoffzellen, Entwicklung Technologie Anwendung, 2. Ed.: 211-219, C.F.Müller Verlag, Heidelberg
A. Heinzel, C. Hebling, M. Müller, M. Zedda, C. Müller, Fuel cells for low power applications. J. Power Sources 105, 250–255 (2002)
Heinzel A (2010) Brennstoffzellen - Mobil, stationär und portabel; Stand der Entwicklungen heute. GDCh-Wochenschau 33: 4 pages online: http://www.aktuelle-wochenschau.de/2010/w33/woche33.html
S.R. Narayanan, T.I. Valdez, Portable direct methanol fuel cell systems, in Handbook of Fuel Cells, Vol 4: 1133-1141, ed. by W. Vielstich, A. Lamm, H. Gasteiger (Wiley, Chichester, UK, 2003)
A. Heinzel, C. Hebling, Portable PEM Systems, in Handbook of Fuel Cells, Vol 4: 1142-1151, ed. by W. Vielstich, A. Lamm, H. Gasteiger (Wiley, Chichester, UK, 2003)
S.R. Narayanan, T.I. Valdez, N. Rohatgi (2003) DMFC system design for portable applications. In: Vielstich W, Lamm A, Gasteiger H (eds) Handbook of Fuel Cells, Vol. 4: 894-904, Wiley, Chichester, UK
T. Ramsden (2011) Direct methanol fuel cell material handling equipment demonstration, 21 pages, NREL National Renewable Energy Laboratory, US-DoE http://www.hydrogen.energy.gov/pdfs/review11/mt004_ramsden_2011_o.pdf
A. Lamm, J. Müller, System design for transport applications, in Handbook of Fuel Cells, Vol 4: 878-893, ed. by W. Vielstich, A. Lamm, H. Gasteiger (Wiley, Chichester, UK, 2003)
ballard, basf, bp, daimlerchrysler, methanex, statoil (2002) Methanol Fuel Cell Alliance, 236 pages: http://www.methanol.org/Energy/Resources/Fuel-Cells/MFCA-overall-document-from-09_06.aspx
H. Dohle, J. Mergel, D. Stolten, Heat and power management of a direct-methanol-fuel-cell (DMFC) system. J. of Power Sources 111, 268–282 (2006)
J. Mergel, A. Glüsen, Ch. Wannek, Current Status of and Recent Developments in Direct Liquid Fuel Cells, in Hydrogen and Fuel Cells: Fundamentals, Technologies and Applications, Chapter 3: 41–60, ed. by D. Stolten (Wiley-VCH Verlag, Weinheim, Germany, 2010)
A. Glüsen, M. Müller, N. Kimiaie, I. Konradi, J. Mergel, D. Stolten (2010) Manufacturing Technologies for Direct Methanol Fuel Cells (DMFCs). In: 18th World Hydrogen Energy Conference - WHEC 2010 Proceedings, Parallel Sessions Book 1: 219-226, Stolten D, and Grube Th (Eds), Zentralbibliothek Forschungszentrum Jülich 2010, Schriften des Forschungszentrum Jülich, ISBN: 978-3-89336-658-4
H.-P. Schmid, J. Ebner, DaimlerChrysler fuel cell activities, in Handbook of Fuel Cells, Vol 4: 1167-1171, ed. by W. Vielstich, A. Lamm, H. Gasteiger (Wiley, Chichester, UK, 2003)
A. Rodrigues, M. Fronk, B. McCormick, General Motors/OPEL fuel cell activities – Driving towards a successful future, in Handbook of Fuel Cells, Vol 4: 1172-1179, ed. by W. Vielstich, A. Lamm, H. Gasteiger (Wiley, Chichester, UK, 2003)
Garche J (2010) Portable Applications and Light Traction. In: Stolten D (ed) Hydrogen and Fuel Cells: Fundamentals, Technologies and Applications, Chapter 35: 715-734, Wiley-VCH Verlag, Weinheim, Germany
Wärtsilä installs fuel cell unit on vessel (2010) http://www.wartsila.com/en/press-releases/newsrelease357
G. Sandstede, E.J. Cairns, V.S Bagotsky, K. Wiesener (2003) History of low temperature fuel cells. In: Vielstich W, Lamm A, Gasteiger H (eds) Handbook of Fuel Cells, Vol. 1: 145-218, Wiley, Chichester, UK
P. Kurzweil, History: Fuel Cells, in Encyclopedia of Electrochemical Power Sources, Vol 3: 579-595, ed. by J. Garche, Ch. Dyer, P. Moseley, Z. Ogumi, D. Rand, B. Scrosati (Elsevier, Amsterdam, 2009)
H. Hoogers (ed.), Fuel Cell Technology Handbook, 360 pages (CRC Press, Boca Raton, London, 2003)
A. Heinzel, F. Mahlendorf, J. Roes (eds.), Brennstoffzellen Entwicklung-Technologie-Anwendung. 3rd. completly revised and extended Ed. (C.F. Müller Verlag, Heidelberg, 2006)
References to Section 6.5.3
M. Madhaiyan, P. S. Chauhan, W. J. Yim, H. P. D. Boruah, T. M. Sa in Bacteria in Agrobiology: Plant Growth Responses (Ed.: D. K. Maheshwari), Springer Berlin Heidelberg, Berlin, Heidelberg, 2011
J. Schrader, M. Schilling, D. Holtmann, D. Sell, M. Filho, A. Marx, J. Vorholt, Trends Biotechnol. 27(2), 107–115 (2009)
C. Anthony, The biochemistry of methylotrophs, Academic Press (New York, London, 1982)
S.J. Giovannoni, D.H. Hayakawa, H.J. Tripp, U. Stingl, S.A. Givan, J.-C. Cho, H.-M. Oh, J.B. Kitner, K.L. Vergin, M.S. Rappé, Environ. Microbiol. 10, 1771–1782 (2008)
M. E. Lidstrom in The Prokaryotes (Eds.: M. Dworkin, S. Falkow, E. Rosenberg, K.-H. Schleifer, E. Stackebrandt), Springer, New York, 2006, 618
R. Balasubramanian, S.M. Smith, S. Rawat, L.A. Yatsunyk, T.L. Stemmler, A.C. Rosenzweig, Nature 465, 115–119 (2010)
J.C. Murrell, B. Gilbert, I.R. McDonald, Arch. Microbiol. 173, 325–332 (2000)
R.L. Lieberman, A.C. Rosenzweig, Crit. Rev. Biochem. Mol. Biol. 39, 147–164 (2004)
H. Dalton, Philos. Trans. R. Soc. Lond. B Biol. Sci. 360, 1207–1222 (2005)
G.A. Olah, A. Goeppert, G.K.S. Prakash, Beyond oil and gas (The methanol economy, Wiley-VCH, Weinheim, 2006)
C. Anthony, M. Ghosh, Prog. Biophys. Mol. Biol. 69, 1–21 (1998)
P.W. van Ophem, J. van Beeumen, J.A. Duine, Eur. J. Biochem. 212, 819–826 (1993)
L. Chistoserdova, L. Gomelsky, J. A. Vorholt, M. Gomelsky, Y. D. Tsygankov, M. E. Lidstrom, Microbiology (Reading, Engl.) 2000, 146 (Pt 1), 233-238
J.A. Vorholt, Arch. Microbiol. 178, 239–249 (2002)
L. Chistoserdova, Science 281, 99–102 (1998)
A.J. Beardsmore, P.N.G. Aperghis, J.R. Quayle, Microbiology 128, 1423–1439 (1982)
P.J. Large, D. Peel, J.R. Quayle, Biochem. J. 81, 470–480 (1961)
G.J. Crowther, G. Kosaly, M.E. Lidstrom, J. Bacteriol. 190, 5057–5062 (2008)
R. Peyraud, K. Schneider, P. Kiefer, S. Massou, J.A. Vorholt, J.-C. Portais, BMC Syst. Biol. 5, 189 (2011)
S. Vuilleumier, L. Chistoserdova, M.-C. Lee, F. Bringel, A. Lajus, Y. Zhou, B. Gourion, V. Barbe, J. Chang, S. Cruveiller et al., PLoS ONE 4, e5584 (2009)
H. Šmejkalová, T.J. Erb, G. Fuchs, A. Herrera-Estrella, PLoS ONE 5, e13001 (2010)
E. Skovran, G.J. Crowther, X. Guo, S. Yang, M.E. Lidstrom, R. Aramayo, PLoS ONE 5, e14091 (2010)
K. Munk, Biochemie - Zellbiologie (Thieme Verlag, Stuttgart, 2008)
M. T. Madigan, J. M. Martinko, T. D. Brock, Brock Mikrobiologie, Pearson Studium, München [u.a.], 2006
K. Ogata, H. Nishikawa, M. Ohsugi, Agric. Biol. Chem. 33, 1519–1520 (1969)
A. Solà, P. Jouhten, H. Maaheimo, F. Sánchez-Ferrando, T. Szyperski, P. Ferrer, Microbiology 153, 281–290 (2007)
F. Bisby, Y. Roskov, A. Culham, T. Orrell, D. Nicolson, L. Paglinawan, N. Bailly, W. Appeltans, P. Kirk, T. Bourgoin et al., “Species 2000 & ITIS Catalogue of Life, 3rd February 2012. Saccharomycetes”, can be found under www.catalogueoflife.org/col/, 2012
P. Kaszycki, M. Tyszka, P. Malec, H. Kołoczek, Biodegradation 12, 169–177 (2001)
P. Blanco, C. Sieiro, T.G. Villa, FEMS Microbiol. Lett. 175, 1–9 (1999)
M.A. Gleeson, P.E. Sudbery, Yeast 4, 1–15 (1988)
G. Gellissen, G. Kunze, C. Gaillardin, J.M. Cregg, E. Berardi, M. Veenhuis, I. van der Klei, FEMS Yeast Res. 5, 1079–1096 (2005)
H. Yurimoto, N. Kato, Y. Sakai, Chem. Record. 5, 367–375 (2005)
R. Caspi, T. Altman, J.M. Dale, K. Dreher, C.A. Fulcher, F. Gilham, P. Kaipa, A.S. Karthikeyan, A. Kothari, M. Krummenacker et al., Nucleic Acids Res. 38, D473–D479 (2009)
O. Negru, O. Csutak, I. Stoica, E. Rusu, T. Vassu, Rom. Biotechnol. Lett. 15, 5369–5375 (2010)
H. Mogren, Process Biochem. 14, 2–4 (1979)
U. Faust, P. Praeve, D.A. Sukatsch, J. Ferment. Technol. 55(6), 609–614 (1977)
D. G. MacLennan, J. S. Gow, D. A. Stringer, Proc. R. Aust. Chem. Inst. 40(3), (1973)
S. Kim, P. Kim, H. Lee, J. Kim, Biotechnol. Lett. 18, 25–30 (1996)
J.H. Choi, J.H. Kim, M. Daniel, J.M. Lebeault, Kor. J. Appl. Microbiol. Biotechnol. 17, 392–396 (1989)
S. B. Pluschkell, M. C. Flickinger, Microbiology (Reading, Engl.) 148, 3223-3233 (2002)
L.K. Shay, H.R. Hunt, G.H. Wegner, J. Ind. Microbiol. 2, 79–85 (1987)
P. Kim, J.-H. Kim, D.-K. Oh, World J. Microbiol. Biotechnol. 19, 357–361 (2003)
L. Bélanger, M.M. Figueira, D. Bourque, L. Morel, M. Béland, L. Laramée, D. Groleau, C.B. Míguez, FEMS Microbiol. Lett. 231, 197–204 (2004)
A. Crémieux, J. Chevalier, M. Combet, G. Dumenil, D. Parlouar, D. Ballerini, European. J. Appl. Microbiol. 4, 1–9 (1977)
D. Leak in Encyclopedia of Bioprocess Technology, John Wiley & Sons, Inc, 2002
T. Brautaset, Ø.M. Jakobsen, K.D. Josefsen, M.C. Flickinger, T.E. Ellingsen, Appl. Microbiol. Biotechnol. 74, 22–34 (2007)
P. Höfer, Y.J. Choi, M.J. Osborne, C.B. Miguez, P. Vermette, D. Groleau, Microb. Cell Fact. 9, 1–13 (2010)
P. Höfer, P. Vermette, D. Groleau, Biochem. Eng. J. 54, 26–33 (2011)
T. Holscher, U. Breuer, L. Adrian, H. Harms, T. Maskow, Appl. Environ. Microbiol. 76, 5585–5591 (2010)
F. J. Schendel, R. Dillingham, R. S. Hanson, K. Sano, K. Matsui, WO1999020785, 1997
T. Brautaset, Ø.M. Jakobsen, K.F. Degnes, R. Netzer, I. Nærdal, A. Krog, R. Dillingham, M.C. Flickinger, T.E. Ellingsen, Appl. Microbiol. Biotechnol. 87, 951–964 (2010)
D. I. Stirling (Celgene Corporation (Warren, NJ)),US 5071976, 1991
D.K. Oh, J.H. Kim, T. Yoshida, Biotechnol. Bioeng. 54, 115–121 (1997)
Z. Omer, R. Tombolini, A. Broberg, B. Gerhardson, Plant Growth Regul. 43, 93–96 (2004)
M.E. Lidstrom, L. Chistoserdova, J. Bacteriol. 184(7),1818 (2002)
R.L. Koenig, R.O. Morris, J.C. Polacco, J. Bacteriol. 184, 1832–1842 (2002)
C. B. Miguez, M. M. Figueira, L. Laramee, J. C. Murrell, WO2003046226, 2003
M. M. Figueira, L. Laramee, J. C. Murrell, L. Belanger, D. Groleau, C. B. Miguez, US 20030104527, 2003
J. Gutiérrez, D. Bourque, R. Criado, Y.J. Choi, L.M. Cintas, P.E. Hernández, C.B. Míguez, FEMS Microbiol. Lett. 248, 125–131 (2005)
D. Byrom, M. Carver (Imperial chemical Industries PLC), US 5077212, 1991
K.A. FitzGerald, M.E. Lidstrom, Biotechnol. Bioeng. 81, 263–268 (2003)
Y.J. Choi, D. Bourque, L. Morel, D. Groleau, C.B. Míguez, Appl. Environ. Microbiol. 72, 753–759 (2006)
Y.J. Choi, C.B. Miguez, B.H. Lee, Appl. Environ. Microbiol. 70, 3213–3221 (2004)
C. Anthony, Adv. Microb. Physiol. 27, 113–210 (1986)
G.H. Wegner, W. Harder, Antonie Van Leeuwenhoek 53, 29–36 (1987)
T. Egli, N. Lindley, J. Gen. Microbiol. 130, 3239–3249 (1984)
L. Dijkhuizen, T.A. Hansen, W. Harder, Trends Biotechnol. 3, 262–267 (1985)
N. Kato, M. Kano, Y. Tani, K. Ogata, Agric. Biol. Chem. 38, 111–116 (1974)
R. Wichmann, C. Wandrey, A.F. Bückmann, M.-R. Kula, Biotechnol. Bioeng. 23, 2789–2802 (1981)
B. Bossow, C. Wandrey, Ann. N. Y. Acad. Sci. 506, 325–336 (1987)
V.I. Tishkov, V.O. Popov, Biochemistry Mosc. 69, 1252–1267 (2004)
P. Fröhlich, K. Albert, M. Bertau, Org. Biomol. Chem. 9, 7941 (2011)
R. Couderc, J. Baratti, Agric. Biol. Chem. 44, 2279–2289 (1980)
G. Dienys, S. Jarmalavičius, S. Budrien, D. Čitavičius, J. Sereikait, J. Mol. Catal. B Enzym. 21, 47–49 (2003)
Y. Sakai, Y. TANI. Agric. Biol. Chem. 50, 2615–2620 (1986)
M. Zhang, H.Y. Wang, Enzyme Microb. Technol. 16, 10–17 (1994)
G. Gellissen, Appl. Microbiol. Biotechnol. 54, 741–750 (2000)
G. Gellissen, C. P. Hollenberg in Encyclopedia of Food Microbiology (Ed.: Editor-in-Chief: Richard K. Robinson), Elsevier, Oxford, 1999
K. Chitkala in Encyclopedia of Food Microbiology (Ed.: Editor-in-Chief: Richard K. Robinson), Elsevier, Oxford, 1999
M.A. Romanos, J.J. Clare, K.M. Beesley, F.B. Rayment, S.P. Ballantine, A.J. Makoff, G. Dougan, N.F. Fairweather, I.G. Charles, Vaccine 9, 901–906 (1991)
A. Markaryan, C.J. Beall, P.E. Kolattukudy, Biochem. Biophys. Res. Commun. 220, 372–376 (1996)
J.J. Clare, F.B. Rayment, S.P. Ballantine, K. Sreekrishna, M.A. Romanos, Nat. Biotech. 9, 455–460 (1991)
P.A. Romero, M. Lussier, A.M. Sdicu, H. Bussey, A. Herscovics, Biochem. J. 321, 289–295 (1997)
Y. Sakai, T. Rogi, R. Takeuchi, N. Kato, Y. Tani, Appl. Microbiol. Biotechnol. 42, 860–864 (1995)
M.W. de Vouge, A.J. Thaker, I.H. Curran, L. Zhang, G. Muradia, H. Rode, H.M. Vijay, Int. Arch. Allergy Immunol. 111, 385–395 (1996)
G. Gellissen, M. Piontek, U. Dahlems, V. Jenzelewski, J.E. Gavagan, R. DiCosimo, D.L. Anton, Z.A. Janowicz, Appl. Microbiol. Biotechnol. 46, 46–54 (1996)
A. Beauvais, M. Monod, J.-P. Debeaupuis, M. Diaquin, K. Hidemitsu, J.-P. Latgé, J. Biol. Chem. 272, 6238–6244 (1997)
G. Gellissen, Z. A. Janowicz, A. Merckelbach, M. Piontek, P. Keup, U. Weydemann, C. P. Hollenberg, A. W. Strasser, Biotechnology (N.Y.) 9, 291–295 (1991)
M. Hodgkins, P. Sudbery, D. Mead, D.J. Ballance, A. Goodey, Yeast 9, 625–635 (1993)
R. Narciandi, L. Rodriguez, E. Rodriguez, R. Diaz, J. Delgado, L. Herrera, Biotechnol. Lett. 17, 949–952 (1995)
A.F. Mayer, K. Hellmuth, H. Schlieker, R. Lopez-Ulibarri, S. Oertel, U. Dahlems, A.W.M. Strasser, A.P.G.M. van Loon, Biotechnol. Bioeng. 63, 373–381 (1999)
P.M. Smith, C. Suphioglu, I.J. Griffith, K. Theriault, R.B. Knox, M.B. Singh, J. Allergy Clin, Immunol. 98, 331–343 (1996)
M.S. Payne, K.L. Petrillo, J.E. Gavagan, L.W. Wagner, R. DiCosimo, D.L. Anton, Gene 167, 215–219 (1995)
K. N. Faber, P. Haima, W. Harder, M. Veenhuis, G. AB, Curr. Genet. 1994, 25, 305-310
D. Mozley, A. Remberg, W. Gartner, Photochem. Photobiol. 66, 710–715 (1997)
A. Ruddat, P. Schmidt, C. Gatz, S.E. Braslavsky, W. Gärtner, K. Schaffner, Biochemistry 36, 103–111 (1997)
R.G. Buckholz, M.A.G. Gleeson, Nat. Biotech. 9, 1067–1072 (1991)
C. Zurek, E. Kubis, P. Keup, D. Hörlein, J. Beunink, J. Thömmes, M.-R. Kula, C. P. Hollenberg, G. Gellissen, Process Biochem. 1996, 31, 679-689
M. Rodríguez, R. Rubiera, M. Penichet, R. Montesinos, J. Cremata, V. Falcón, G. Sánchez, R. Bringas, C. Cordovés, M. Valdés et al., J. Biotechnol. 33, 135–146 (1994)
E.Z. Monosov, T.J. Wenzel, G.H. Lüers, J.A. Heyman, S. Subramani, J. Histochem. Cytochem. 44, 581–589 (1996)
S.A. Rosenfeld, D. Nadeau, J. Tirado, G.F. Hollis, R.M. Knabb, S. Jia, Protein Expr. Purif. 8, 476–482 (1996)
U. Weydemann, P. Keup, M. Piontek, A.W. Strasser, J. Schweden, G. Gellissen, Z.A. Janowicz, Appl. Microbiol. Biotechnol. 44, 377–385 (1995)
F. Talmont, S. Sidobre, P. Demange, A. Milon, L.J. Emorine, FEBS Lett. 394, 268–272 (1996)
S.C. Gilbert, H. van Urk, A.J. Greenfield, M.J. McAvoy, K.A. Denton, D. Coghlan, G.D. Jones, D.J. Mead, Yeast 10, 1569–1580 (1994)
J.M. Cregg, J.F. Tschopp, C. Stillman, R. Siegel, M. Akong, W.S. Craig, R.G. Buckholz, K.R. Madden, P.A. Kellaris, G.R. Davis et al., Nat. Biotechnol. 5, 479–485 (1987)
Z.A. Janowicz, K. Melber, A. Merckelbach, E. Jacobs, N. Harford, M. Comberbach, C.P. Hollenberg, Yeast 7, 431–443 (1991)
T. Boehm, S. Pirie-Shepherd, L.-B. Trinh, J. Shiloach, J. Folkman, Yeast 15, 563–572 (1999)
C.K. Raymond, T. Bukowski, S.D. Holderman, A.F.T. Ching, E. Vanaja, M.R. Stamm, Yeast 14, 11–23 (1998)
P.F. Gallet, H. Vaujour, J.M. Petit, A. Maftah, A. Oulmouden, R. Oriol, C. Le Narvor, M. Guilloton, R. Julien, Glycobiology 8, 919–925 (1998)
D. Bourque, B. Ouellette, G. André, D. Groleau, Appl. Microbiol. Biotechnol. 37, 7–12 (1992)
D. Bourque, Y. Pomerleau, D. Groleau, Appl. Microbiol. Biotechnol. 44, 367–376 (1995)
T. Suzuki, T. Yamane, S. Shimizu, Appl. Microbiol. Biotechnol. 23, 322–329 (1986)
F.J. Schendel, C.E. Bremmon, M.C. Flickinger, M. Guettler, R.S. Hanson, Appl. Environ. Microbiol. 56(4), 963–970 (1990)
R. Westlake, Chem. Ing. Technol. 58, 934–937 (1986)
J.D. Windass, M.J. Worsey, E.M. Pioli, D. Pioli, P.T. Barth, K.T. Atherton, E.C. Dart, D. Byrom, K. Powell, P.J. Senior, Nature 287, 396–401 (1980)
P.J. Senior, J. Windass, Biotechnol. Lett. 2, 205–210 (1980)
K. Muttzall, Einführung in die Fermentationstechnik (Behr, Hamburg, 1993)
G.L. Solomons, CRC Crit. Rev. Biotechnol. 1, 21–58 (1985)
E.W. Jwanny, M.M. Rashad, Acta Biotechnol. 7, 31–38 (1987)
A.M. Henstra, J. Sipma, A. Rinzema, A.J.M. Stams, Curr. Opin. Biotechnol. 18, 200–206 (2007)
E. H. Wegner, US 4414329, 1981
R. Renneberg, Biotechnologie für Einsteiger, Elsevier, Spektrum (Akad. Verl, Heidelberg, 2006)
U. O. Ugalde, J. I. Castrillo in Applied Mycology and Biotechnology : Agriculture and Food Production (Ed.: George G. Khachatourians and Dilip K. Arora), Elsevier, 2002
G.H. Wegner, FEMS Microbiol. Lett. 87, 279–284 (1990)
A. Onnis-Hayden, A.Z. Gu, Proceedings of the Water Environment Federation 17, 253–273 (2008)
I. Purtschert, H. Siegrist, W. Gujer, Water Sci. Technol. 33(12), 117–126 (1996)
M. Ginige, J. Bowyer, L. Foley, J. Keller, Z. Yuan, Biodegradation 20(2), 221–234 (2009)
H. Lee, J.A. Brereton, D.S. Mavinic, R.A. Fiorante, W.K. Oldham, J.K. Paisley, Environ. Technol. 22(10), 1223–1235 (2001)
M. Komorowska-Kaufman, H. Majcherek, E. Klaczyński, Process Biochem. 41(5), 1015–1021 (2006)
S.D. Minteer, B.Y. Liaw, M.J. Cooney, Curr. Opin. Biotechnol. 18(3), 228–234 (2007)
J. Kim, H. Jia, P. Wang, Biotechnol. Adv. 24(3), 296–308 (2006)
P.L. Yue, K. Lowther, Chem. Eng. J. 33, B69–B77 (1986)
P. Kar, H. Wen, H. Li, S.D. Minteer, S.C. Barton, J. Electrochem. Soc. 158(5), B580–B586 (2011)
G.T.R. Palmore, H. Bertschy, S.H. Bergens, G.M. Whitesides, J. Electroanal. Chem. 443(1), 155–161 (1998)
A. A. Karyakin, in Electropolymerization. Wiley-VCH Verlag GmbH & Co. KGaA, 2010, 93-110
A. A. Karyakin, E.E. Karyakina, W. Schuhmann, H.-L. Schmidt, S.D. Varfolomeyev, Electroanalysis 6(10), 821–829 (1994)
P.K. Addo, R.L. Arechederra, S.D. Minteer, Electroanalysis 22(7–8), 807–812 (2010)
R.A. Rincón, C. Lau, K.E. Garcia, P. Atanassov, Electrochim. Acta 56(5), 2503–2509 (2011)
X.-C. Zhang, A. Ranta, A. Halme, Biosens. Bioelectron. 21(11), 2052–2057 (2006)
R. Obert, B.C. Dave, J. Am. Chem. Soc. 121, 12192–12193 (1999)
H. Wu, Z.Y. Jiang, S.W. Xu, S.F. Huang, Chin. Chem. Lett. 14(4), 423–425 (2003)
F. Baskaya, X. Zhao, M. Flickinger, P. Wang, Appl. Biochem. Biotechnol. 162(2), 391–398 (2010)
S. Kuwabata, R. Tsuda, K. Nishida, H. Yoneyama, Chem. Lett. 22(9), 1631 (1993)
S. Kuwabata, R. Tsuda, H. Yoneyama, J. Am. Chem. Soc. 116(12), 5437–5443 (1994)
Y. Amao, T. Watanabe, J. Mol. Catal. B Enzym. 44(1), 27–31 (2007)
Y. Amao, T. Watanabe, Appl. Catal., B 86(3-4), 109–113 (2009)
F. E. Zilly, J. P. Acevedo, W. Augustyniak, A. Deege, U. W. Häusig, M. T. Reetz, Angew. Chem., Int. Ed. 50(12), 2720–2724 (2011)
B. Alber, Appl. Microbiol. Biotechnol. 89(1), 17–25 (2011)
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Bertau, M. et al. (2014). Methanol Utilisation Technologies. In: Bertau, M., Offermanns, H., Plass, L., Schmidt, F., Wernicke, HJ. (eds) Methanol: The Basic Chemical and Energy Feedstock of the Future. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-39709-7_6
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