|
|
|
| THERMODYNAMICS OF THE OXIDATION OF PHOSPHORUS, CARBON AND OTHER ELEMENTS IN MOLTEN IRON BATH DURING STEELMAKING |
| WEI SHOU-KUN(Peking Institute of Ferrous Metallurgy) |
|
Cite this article:
WEI SHOU-KUN(Peking Institute of Ferrous Metallurgy). THERMODYNAMICS OF THE OXIDATION OF PHOSPHORUS, CARBON AND OTHER ELEMENTS IN MOLTEN IRON BATH DURING STEELMAKING. Acta Metall Sin, 1964, 7(3): 240-249.
|
|
|
Abstract The sequence of oxidation of phosphorus, carbon and other elements in molten iron bath during steelmaking were analyzed thermodynamically by means of three methods of calculation, namely: (1) calculation of the dissociation pressure P_(o_2) of oxides; (2) calculation of the [O] content in iron bath in equilibrium with the respective elements; and (3) calculation of the free energy change of the reaction of oxidation. All calculations were made with free use of activity data. The previous works of and for calculation of P_(o_2), and that of for calculation of [O] content in iron bath in equilibrium with phosphorus and carbon were reviewed, and their impropriety and errors in calculation were discussed. It has been shown that: (1) Dephosphorization is a reaction occurring between boundary layers of liquid phases, and takes place only in the presence of a molten slag of proper composition; (2) By quick formation of a highly calcareous and ferruginous slag, it is possible in the Thomas blow, preferably at comparatively low temperatures, to eliminate phosphorus simultaneously with carbon; and (3) Increase in the partial pressure of CO would depress the oxidation of carbon and facilitate the preferential oxidation of phosphorus.
|
|
Received: 18 March 1964
|
[1] #12
[2] #12
[3] #12
[4] AIME: Electric Furnace Steelmaking, (Interscience, 1963) , vol. 2, p. 128-137.
[5] Philbrook, W. O., Bever, M. B.: Basic Open Hearth Steelmaking, (AIME, 1951) , 2nd ed., p. 638.
[6] Turkdogan, E. T., Pearson, J.: J. Iron Steel Inst. (London), 1953, 175, 398.
[7] Turkdogan, E. T., Pearson, J.: J. Iron Steel Inst. (London), 1953, 173, 217.
[8] Elliott, J. F.: Trans. AIME, 1955, 203, 485.
[9] Bishop, H. L., Grant, N. J., Chipman, J.: Trans. AIME, 1958, 212, 890.
[10] 魏寿崑:活度在冶金物理化学中的应用,(中国工业出版社,1964年).
[11] Schenck, H.: Physikalische Chemie der Eisenhuttenprozesse (Verlag von J. Springer, 1934) , Bd. 2, S. 82.
[12] Winkler, T. B., Chipman, J.: Trans. AIME, 1946, 167, 111.
[13] 北京钢鉄学院物化教研組譯:冶金过程理論,(冶金工业出版社,1956年),580頁.
[14] Bardenheuer, P., Thanheiser, G.: Stahl Eisen, 1934, 112, 725.
[15] Bading, W.: Stahl Eisen, 1936, 409.
[16] Lellep, O.: Bericht Mexico, 1941. Bulle, G.: Stahl Eisen, 1951, 1442. Bulle, G.: Iron & Coal Trades Review, 1952, 164, (4385) , 921.
[17] Fischer, W. A., Straube, H.: Stahl Eisen, 1960, 1194.
[18] vom Ende, H., Mahn, G.: Stahl Eisen, 1960, 136.
[19] vom Ende, H., Mahn, G.: Stahl Eisen, 1961, 641.
[20] Eichel, K.: Das Basische Windfrischverfahren, (Verlag Technik, 1952) , S. 108, 115-117.
[21] Schenck, H.: Physikalische Chemie der Eisenhuttenprozesse, (Verlag von J. Springer, 1934) , Bd. 2, S. 94.
[22] Rellermeyer, H., Knuppel, H., Sittard, J.: Stahl Eisen, 1957, 1296.
[23] Kosmider, H., Neuhaus, H., Schenck, H.: Stahl Eisen, 1957, 1277.
[24] Springorum, F. A., Speith, K. G., Darmann, O., vom Ende, H.: Stahl Eisen, 1957, 1284.
[25] Heischkeil, W., Kootz, T.: Stahl Eisen, 1959, 205.
[26] Kootz, T.: J. Iron Steel Inst. (London), 1960, 196, 253.
[27] Pearson, J.: Iron & Coal Trades Review, 1960, 181, (4824) , 1407.
[28] Elliott, J. F., Gleiser, M.: Thermochemistry for Steelmaking (Addison-Wesley, 1960) , vol. 1, p 193. |
| No Suggested Reading articles found! |
|
|
Viewed |
|
|
|
Full text
|
|
|
|
|
Abstract
|
|
|
|
|
Cited |
|
|
|
|
| |
Shared |
|
|
|
|
| |
Discussed |
|
|
|
|
