Читать книгу Industrial Carbon and Graphite Materials - Группа авторов - Страница 269
References
Оглавление1 1 Edwards, L. (2015). JOM 67 (2): 308–321.
2 2 Wellmer, F.W. (2004). Press Release BASF.
3 3 Marrett, R., Stadelhofer, J.W., and Marsh, H. (1983). Chem. Ing. Tech. 55 (1): 1.
4 4 Paul, Ch.A. and Ellis, P. (2000). 3rd International Conference on Refining, AIChE Spring National Meeting (5–9 March 2000). Atlanta, USA, 47–112.
5 5 Hammond, D.G. et al. (2003). American Institute of Chemical Engineers, 2003 Spring National Meeting (2 April 2003), Paper 44c.
6 6 Predel, H. and Niesen, M. (2005). Erdöl‐Erdgas‐Kohle 121 (10): 348–352.
7 7 Hughes, G.C., Doerksen, B.J., Engleholm, A.M., and Romero, S. (2000). 3rd International Conference on Refining Processing, AIChE Spring National Meeting (5–9 March 2000). Atlanta, GA, 67–112.
8 8 Production of coke from petroleum hydrocarbons, Great Lakes Carbon Corp. (1954). US 2,775,549 (F.L. Shea Jr.).
9 9 White, J.L. (1976). Petroleum Derived Carbons (ed. R.F. Gould), 282. Washington, DC: American Chemical Society.
10 10 Process and apparatus for heat treatment of material which yields oxidizable volatile matter under heat, Salem Brosius Comp. (1962). US 3,227,627.
11 11 Scott, C.B. and Folkins, H.O. (1972). J. Met. 24 (7): 25.
12 12 Wilkening, S. (1976). Erzmetall 29 (6): 255.
13 13 Whittaker, M.P. and Grindstaff, I.I. (1969). Carbon 7: 651–621.
14 14 Letizia, I. (1977). High Temp. High Pressure 9: 243–250, 291–296.
15 15 Fitzer, E. and Janoscheck, H.P. (1976). Proceedings of International Conference on Carbon 76 Baden‐Baden, Germany, 313–316.
16 16 Wagner, M.H., Pauls, H., Tillmanns, H., and Wilhelmi, G. International Congfeence on Carbon, Lexington, Carbon 85, Lexington, Kentucky, 259–260.
17 17 Mochida, I. and Marsh, H. International Congfeence on Carbon, Lexington, Carbon 85, Lexington, Kentucky: 276–277.
18 18 Fitzer, E., Frohs, W., Hannes, G., and Kompalik, D. International Conference on Carbon 1987, Worcester, Carbon 87, Worcester, Massachusetts: 40–41.
19 19 Fujimoto, K., Mochida, I., Todo, Y. et al. (1989). Carbon 27: 909–917.
20 20 Kawanon, Y., Fukuda, T., Kaawrada, T. et al. (1999). Carbon 37: 555–560.
21 21 Perruchoud, R., Fischer, W., and Letizia, I. (2011). Tanso 249: 169–173.
22 22 Frohs, W. and Rößner, F. (2015). Tanso 267: 1–7.
23 23 Elkem Materials (2003). Electrical calcining furnace, WO 03/027012 A1, (J.A. Aune, L.P. Larsen, P.O. Nos, G. Aas).
24 24 Kawamura, R. and Wakasa, T. (1997). Improvement in the calcination process of anthracite for cathode carbon blocks, light metals. 12th TMS Annual Meeting, Orlando, FL, USA.
25 25 Frohs, W. and Meyer zu Reckendorf, R. (1998). EUROCARBON, Strasbourg, 171–172.
26 26 Mallison, H. (1950). Bitumen, Teere, Asphalte und verwandte Stoffe 1: 313.
27 27 Gemmeke, W., Collin, G., and Zander, M. (1978). Light Metals 1978, vol. 1 (ed. J.J. Miller), 355. New York, NY: AIME.
28 28 Wagner, M.H., Jäger, H., Letizia, I., and Wilhelmi, G. (1988). Fuel 67: 792–797.
29 29 Turner, N.R. (1988). International Conference on Carbon, Newcastle, 470.
30 30 Steward, N.I. and Halley, P.H. (1994). Light Metals 1994 (ed. A.T. Tabereaux), 517–524. Warrendale, PA: TMS.
31 31 Wallouch, R.W., Murty, H.N., and Heintz, E.A. (1972). Carbon 10: 729.
32 32 Briggs, D.K.H. (1964). Fuel 43: 439–443.
33 33 Lewis, R.T., Riffle, D.M., and Singer, L.S. (1986). International Conference on Carbon, Baden‐Baden, 28–30.
34 34 Zander, M., Alscher, A., Boenigk, W., and Haenel, M.W. (1991). Light Metals 1991 (ed. E.L. Rooy), 597. Warrendale, PA: TMS.
35 35 Newman, J.W. (1979). Light Metals 1980 (ed. C.J. McMinn), 503. New York, NY: AIME.
36 36 Siemens‐Plania AG (1958). Verfahren zur Herstellung von Kohle‐ und Graphitformkörpern, DE 969619 (F. Jeitner, E. Nedopil).
37 37 Hoechst (1953). Verfahren zur Herstellung von Kohleelektroden, DE 900569 (O. Peter).
38 38 Annual Report 2014, Himadri Chemicals & Industries Linited, Ruby House 8., Kolkata 700 001, India.
39 39 Dwivedi, H., Mathur, R.B., Dhami, T.L., Bahl, O.P., Monthioux, M., Sharma, S.P. (2006). Carbon 44: 699–709.
40 40 Machnikowski, J., Rutkowski, P., Diez, M.A., Anal, J. (2006). Appl. Pyrolysis 76: 80–87.
41 41 Trick, K.A., Saliba, T. E. (1995). Carbon 23: 1509–1515.
42 42 Fitzer, E., Schäfer, W. (1970). Carbon 8: 353–364.
43 43 Gardzielle, A., Pilato, E.A., Knop, A (2002). Phenolic Resins 2nd ed., Berlin: Springer.
44 44 Lenghaus, K., Qiao, G.G., Solomon, D.H. (2001). Polymer 42: 3355–3362.
45 45 Machnikowski, J., Rutkowski, P., Diez, M.A., Anal, J. (2006). Appl. Pyrolysis 76: 80–87.
46 46 Horikawa, T., Ogawa, K., Mizuno, K., Hayashi, J., Muroyama, K. (2003). Carbon 41: 465–472.
47 47 Sobera, M., Hetper, J. (2003). J. Chromatogr. A 993: 131–135.
48 48 Liedtke, V., Hüttinger, K.J. (1996). Carbon 34: 1057–1086.
49 49 Riesz, C.H., Susman, S. (1960). Proc. Conf. Carbon 4th 1959: 609.
