Three-dimensional physical model studies of air injection : in-situ combustion and downhole catalytic upgrading using horizontal wells

Al-Saghr, Abdulbaset Mohammed

January 1998

No description available.

660

Biosorption of metals by activated carbon

Rowe, Deborah Louise

January 1998

No description available.

660

Application of supercritical carbon dioxide and a co-solvent in the production of polymeric film for coating of tablets

Lodhi, Alia Noor

January 2000

No description available.

660

Studies on the potential of extremozymes and extremophile biodiversity for biocatalysis

Sellek, Gerard Alexander

January 2001

No description available.

660

Measurement of the effective diffusivity of gasoline compounds in coated monoliths and associated factors

Kim, Sungsoo

January 2001

No description available.

660

Air injection into light oil reservoirs : oil oxidation studies

Elmurabet, Mohamed Ali

January 2002

No description available.

660

The use of porcine carotid arteries as a matrix material for tissue engineered small diameter vascular grafts

McFetridge, Peter Stuart

January 2002

No description available.

660

Dielectric studies of organic molecules and the determination of energy barriers

Farmer, D. B.

January 1967

No description available.

660

Finite element methods for the solution of population balance equations

Nicmanis, Mark

January 1998

No description available.

660

Studies of cation exchange resins at temperatures up to 200�C in relation to condensate polishing

Nellestyn, Andrew

January 1968

The thermal stability of two strong acid sulphonated crosslinked polystyrene cation resins, Zeo-Karb 225 and Dowex 50, were studied as aqueous slurries at temperatures up to 200°C. and heating periods of up to 30 days in a static system. The loss in strong acid capacity, gain in phenolic capacity, decomposition products, and swelling weight were determined. Both cation resins were stable at temperatures up to 120°C. in the hydrogen form. At higher temperatures capacity loss was significant; Zeo-Karb 225 when heated in the hydrogen form at 200°C. lost all capacity within 3 days of heating. Investigations of the manner and rate of decomposition up to 200°C. are presented. The effect of degree of crosslinking, particle size, and nature of the sorbed counter ion on thermal decomposition was determined. Thermal stability increased as the degree of crosslinking decreased, was unaffected by the particle size, and increased as the hydrated radius of the sorbed counter ion decreased. No physical damage occurred when heating cation resins in water up to 200°C. for 30 days. The performance of cation resins at 120°C. and 150°C. in a recirculating water loop was investigated and the results compared with static experiments described above. Zeo-Karb 225, hydrogen form, appeared to be stable at 150°C. in recirculating experiments. No physical damage occurred at temperatures up to 15000. and flow rates of up to 22.92 gal.min.-1 ft.-2 . The Carman correlation for pressure drop in a packed bed of particles was found to account for the hydrodynamic behaviour of cation resin particles in a recirculating circuit. Suggestions for operating cation resins for high temperature condensate polishing in nuclear and conventional steam raising plants are included.

660