Natural Gas Hydrates - A Review

• Autorzy: Uilhoorn F.
• Języki publikacji: EN

Słowa kluczowe

PL

przesył gazu; hydrat; gazociąg; inhibitor chemiczny; termodynamika statystyczna

• Wydawca: Fluid Systems Sp. z o.o
• Czasopismo: Nowoczesne Gazownictwo
• Rocznik: 2004
• Tom: nr 1
• Strony: 33--38
• Opis fizyczny: Bibliogr. 19 poz., rys.

Twórcy

autor

Uilhoorn F.

• Zakład Inżynierii Gazownictwa, Politechnika Warszawska, Wydział Inżynierii Środowiska

Bibliografia

• [1] Baillie, C. and Wichert, E. (1987). Chart gives hydrate formation temperaturę for natural gas. Oil & Gas J, 85 (4), 37-39.
• [2] Carson, D. B. and Katz, D. L. (1942). Natural gas hydrates. Trans. AIME, 146,150-158.
• [3] Chen, G. -Jin. and Guo, T. -Min. (1998). A new approach to gas hydrate modelling. Chemical Engineering Journal, Volume 71, Issue 2, pp. 145-151.
• [4] Davy, H. (1811). The Bakerian Lecture: on some of the combinations of oxymuriatic acid and oxygen, and on the chemical relations to these principlcs to inflammable bodies. Engineering Chemistry Research, 30 (8), 1936-1945. Philosophical Trans, of the Royal Society of London, 101, 1.
• [5] Hammerschmidt, E. G. (1934). Formation of gas hydrates in natural gas transmission lines. Ind. Eng. Chem., 26, 51-855.
• [6] John, V. T. and Holder, G. D. (1982). Contribution of2nd and subseąuent water shells to the potential-energy of guest-host interactions in clathrate hydrates. Journal of Physical Chemistry, 86 (4), 455-459. ]
• [7] John, V. T. and Holder, G. D. (1985). Langmuir constants for spherical and linear-molecules in clathrate hydrates - validity of the celi theory. Journal of Physical Chemistry, 89 (15), 3279-3285.
• [8] Katz, D. L. (1945). Prediction of conditions for hydrate formation in natural gases. Trans. AIME, 160, 140-149.
• [9] Klauda, J. B., & Sandler, S. I. (2000). A fugacity model for gas hydrate phase equilibria. Industrial and Engineering Chemistry Research, 39 (9), 3377-3386.
• [10] Klauda, J. B., & Sandler, S. I. (2002). Ab Initio intermolecular potentials for gas hydrates and their predictions. Journal of Physical Chemistry B, 106 (22), 5722-5732.
• [11] Klauda, J. B., & Sandler, S. I. (2003). Phase behavior of clathrate hydrates: a model for single and multiple gas component hydrates. Chemical Engineering Science 58, 27 -41.
• [12] Lee, S. -Y. and Holder, G. D. (2002). Model for Gas Hydrate Equilibria Using a \kriable Reference Chemical Potential: Part 1. AlChE. J., Vol 48, 161-167.
• [13] Lysna, D. (1995). An Experimental Study of Hydrate Pług Dissociation by Pressure Reduction. D. Ing. Thesis. Norwegian Institute of Technology, University of Trondheim.
• [14] Parrish, W. R. and Prausnitz, J. M. (1972). Dissociation pressure of gas hydrates formed by gas mixtures. Ind. Eng. Chem. Process Des Devel, 11, 26-35.
• [15] Platteeuw, J. C. and van der Waals, J. H. (1959). Thermodynamic properties of gas hydrates 11: Phase eąuilibria in the system H2S-C3HH-H20 at -3 °C. Rec. Trav. Chim. Pays-Bas, 78, 126-133.
• [16] Ripmeester, J. A., Tse, J., S. Ratcliffe, C. I. and Powell, B. M.(1987). A New Clathrate Hydrate Structure. Naturę, 325, 135.
• [17] Sloan, E. D. (1998). Clathrate Hydrates of Natural Gases. 2nd ed., Marcel Dekker Inc. New York.
• [18] Von Stackelberg, M. and Muller, H. R. (1954). Feste Gashydrate II, Z, Electrochem. 58, 25.
• [19] Cao, Z., Tester, J. W. and Trout, B. L. (2002). Sensitivity Analysis of Hydrate Thermodynamic Reference Properties Using Experimental Data and ab Initio Methods. J. Phys. Chem. B, 106, 7681-7687.