All Outputs (6)

Microwave processing of oil sands and contribution of clay minerals (2014)
Journal Article
Robinson, J. P., Binner, E., Saeid, A., Al-Harahsheh, M., & Kingman, S. (2014). Microwave processing of oil sands and contribution of clay minerals. Fuel, 135, https://doi.org/10.1016/j.fuel.2014.06.057

This study establishes the feasibility of microwave heating for extracting oil from Oil Sands in ex-situ processes. Previous studies in this area have shown some potential, but have not characterised the dielectric properties of the Oil Sands used, n... Read More about Microwave processing of oil sands and contribution of clay minerals.

Factors affecting the microwave coking of coals and the implications on microwave cavity design (2014)
Journal Article
Binner, E., Medeira-Munoyerro, M., Huddle, T., Kingman, S., Dodds, C., Dimitrakis, G., …Lester, E. (2014). Factors affecting the microwave coking of coals and the implications on microwave cavity design. Fuel Processing Technology, 125, 8-17. https://doi.org/10.1016/j.fuproc.2014.03.006

The work carried out in this paper assessed how processing conditions and feedstock affect the quality of the coke produced during microwave coke making. The aim was to gather information that would support the development of an optimised microwave c... Read More about Factors affecting the microwave coking of coals and the implications on microwave cavity design.

Enhanced ‘in situ’ catalysis via microwave selective heating: catalytic chain transfer polymerisation (2014)
Journal Article
Adlington, K., McSweeney, R., Dimitrakis, G., Kingman, S. W., Robinson, J. P., & Irvine, D. J. (2014). Enhanced ‘in situ’ catalysis via microwave selective heating: catalytic chain transfer polymerisation. RSC Advances, 4(31), 16172-16180. https://doi.org/10.1039/c4ra00907j

An extremely facile, single stage, ‘in-situ’, Catalytic Chain Transfer Polymerisation (CCTP) process has been identified, where the optimal polymerisation process was shown to depend upon a combination of catalyst characteristics (i.e. solubility, se... Read More about Enhanced ‘in situ’ catalysis via microwave selective heating: catalytic chain transfer polymerisation.

Investigation into the mechanisms by which microwave heating enhances separation of water-in-oil emulsions (2014)
Journal Article
Binner, E., Robinson, J. P., Silvester, S., Kingman, S., & Lester, E. (2014). Investigation into the mechanisms by which microwave heating enhances separation of water-in-oil emulsions. Fuel, 116, https://doi.org/10.1016/j.fuel.2013.08.042

The separation of water-in-oil emulsions made with Azeri crude was investigated using natural gravity settling and microwave heating techniques. Separation times could be reduced by an order of magnitude compared with untreated emulsions. Increasing... Read More about Investigation into the mechanisms by which microwave heating enhances separation of water-in-oil emulsions.

A review of microwave coal processing (2014)
Journal Article
Binner, E., Lester, E., Kingman, S., Dodds, C., Wu, T., Robinson, J. P., …Mathews, J. P. (2014). A review of microwave coal processing. Journal of Microwave Power and Electromagnetic Energy, 48(1),

This paper reviews the application of microwave energy in coal processing and utilisation. It covers a wide variety of processes including liberation of minerals, coal drying, pre-treatment to improve grindability, liquefaction enhancements and coke... Read More about A review of microwave coal processing.

Continuous and direct 'in situ' reaction monitoring of chemical reactions via dielectric property measurement: Controlled polymerisation (2014)
Journal Article
Lester, E., Kamaruddin, M. J., Nguyen, N. T., Robinson, J., El harfi, J., Irvine, D., …Kingman, S. W. (2014). Continuous and direct 'in situ' reaction monitoring of chemical reactions via dielectric property measurement: Controlled polymerisation. RSC Advances, 4(11), 5709-5717. https://doi.org/10.1039/c3ra46941g