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All Outputs (3)

Microwave digestion of gibbsite and bauxite in sodium hydroxide (2020)
Journal Article
Dillinger, B., Batchelor, A., Katrib, J., Dodds, C., Suchicital, C., Kingman, S., & Clark, D. (2020). Microwave digestion of gibbsite and bauxite in sodium hydroxide. Hydrometallurgy, 192, Article 105257. https://doi.org/10.1016/j.hydromet.2020.105257

It was hypothesized that bauxite digestion may be improved by using microwave heating as it has been shown in literature that some material processes have improved efficiency. To test this hypothesis, a set of digestion experiments were conducted usi... Read More about Microwave digestion of gibbsite and bauxite in sodium hydroxide.

A tool for predicting heating uniformity in industrial radio frequency processing (2016)
Journal Article
Ferrari-John, R., Katrib, J., Palade, P., Batchelor, A., Dodds, C., & Kingman, S. (in press). A tool for predicting heating uniformity in industrial radio frequency processing. Food and Bioprocess Technology, https://doi.org/10.1007/s11947-016-1762-6

Radio frequency energy is utilised for heating in a wide range of applications, particularly in the food industry. A major challenge of RF processing is non-uniform heating in loads of variable and angular geometry, leading to reduced quality and pro... Read More about A tool for predicting heating uniformity in industrial radio frequency processing.

Deriving the ideal ore texture for microwave treatment of metalliferous ores (2015)
Journal Article
Batchelor, A., Jones, D., Plint, S., & Kingman, S. (2015). Deriving the ideal ore texture for microwave treatment of metalliferous ores. Minerals Engineering, 84, https://doi.org/10.1016/j.mineng.2015.10.007

High power density microwave treatments on metalliferous ores have historically been shown to reduce ore competency prior to beneficiation at economically feasible energy inputs. However, the relationship between mineralogical textural features and t... Read More about Deriving the ideal ore texture for microwave treatment of metalliferous ores.