Technological Solutions for the Realization of NGH-Technology for Gas Transportation and Storage in Gas Hydrate Form

Author:

Pedchenko Mykhailo1,Pedchenko Larysa1,Nesterenko Tetiana1,Dyczko Artur2

Affiliation:

1. National Technical Yuri Kondratyuk University

2. Jastrzębska Spółka Węglowa SA

Abstract

The technology of transportation and storage of gas in a gas-hydrated form under atmospheric pressure and slight cooling – the maximum cooled gas-hydrated blocks of a large size covered with a layer of ice are offered. Large blocks form from pre-cooled mixture of crushed and the granulated mass of gas hydrate. The technology of forced preservation gas hydrates with ice layer under atmospheric pressure has developed to increase it stability. The dependence in dimensionless magnitudes, which describes the correlation-regressive relationship between the temperature of the surface and the center gas hydrate block under its forced preservation, had proposed to facilitate the use of research results. Technology preservation of gas hydrate blocks with the ice layer under atmospheric pressure (at the expense of the gas hydrates energy) has designed to improve their stability. Gas hydrated blocks, thus formed, can are stored and transported during a long time in converted vehicles without further cooling. The high stability of gas hydrate blocks allows to distributed in time (and geographically) the most energy expenditure operations – production and dissociation of gas hydrate. The proposed technical and technological solutions significantly reduce the level of energy and capital costs and, as a result, increase the competitiveness of the stages NGH technology (production, transportation, storage, regasification).

Publisher

Trans Tech Publications, Ltd.

Subject

Condensed Matter Physics,General Materials Science,Atomic and Molecular Physics, and Optics

Reference25 articles.

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2. Levik, O.I., (2000) Thermophysical and Compositional Properties of Natural Gas Hydrate. Ph.D. NTNU. Trondheim.

3. Khokhar, A.A. (1998). Storage Properties of Natural Gas Hydrates. Ph.D. NTNU. Trondheim.

4. Sloan, E.D. (1990). Clathrate hydrates of natural gases. NY. Marcel Dekker.

5. Stern, L. A., Circone, S., Kirby, S. H., & Durham, W. B. (2003). Temperature, pressure, and compositional effects on anomalous or self, preservation of gas hydrates. Canadian Journal of Physics, 81(1-2), 271-283..

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